COMPOSITIONS FOR MOSQUITO CONTROL AND USES OF SAME
FIELD AND BACKGROUND OF THE INVENTION
The present invention, in some embodiments thereof, relates to compositions for mosquito control and uses of same.
Mosquitoes are the major vectors for a number of human and animal diseases, including malaria, yellow fever and dengue fever. Over 1 million people die from mosquito-borne diseases every year, and hundreds of millions more experience pain and suffering from illnesses transmitted by mosquitoes.
There is neither specific medication nor vaccine for Dengue. The only way currently to control the disease is to control the mosquito, Aedes aegypti, which spreads the disease. There is no cure for yellow fever but there is a vaccine; however it is expensive and not available to protect other parts of the world. There is no currently available drug regimen guarantees 100% protection against Malaria, and prevention of infection requires taking antimalarial medication as directed in addition to prevention of mosquito bites. Antimalarials do not actually prevent the disease but only act in the bloodstream to suppress clinical symptoms by inhibiting parasite development in red blood cells.
In order to prevent human disease caused by the viruses and parasites mentioned above, a systematic mosquito surveillance system is required. Nowadays, it is accepted that the success of such actions depends on the implementation of an integrated mosquito management program (IMM).
The aim of these programs is to optimize the control of mosquitoes in an economical and environmentally friendly way. Specifically, Integrated Mosquito Management is a comprehensive mosquito prevention/control strategy that utilizes all available mosquito control methods singly or in combination to exploit the known vulnerabilities of mosquitoes in order to reduce their numbers to tolerable levels while maintaining a quality environment. IMM does not emphasize mosquito elimination or eradication. Integrated mosquito management methods are specifically tailored to safely counter each stage of the mosquito life cycle. Prudent mosquito management practices for the control of immature mosquitoes (larvae and pupae) include such methods as the use of biological controls (native, noninvasive predators), source reduction (water or vegetation management or other compatible land management uses), water sanitation practices as well as the use of registered larvicides. When source elimination or larval control measures are not feasible or are clearly inadequate, or when faced with imminent mosquito-borne disease, application of registered adulticides may be needed. However, larvicides/adulticides efficacy is now threatened by the rise of resistance in target populations. Such phenomenon is occurring worldwide in all major disease vector mosquito species and spreads at a rapid rate [Harris et al. (2010) Am. J. Trop. Med. Hyg. 83, 277e284; Marcombe et al. (2009a) Am. J. Trop. Med. Hyg. 80, 745e751; Marcombe et al. (2009b) BMC Genomics 10, 494; Ranson et al. (2009) Malar. J. 8, 299].
Larviciding is an ecologically safe preventive method used to interrupt the development of larvae or pupa into adult mosquitoes. Larviciding is also a general term for killing immature mosquitoes by applying agents, collectively called larvicides, to control mosquito larvae and/or pupae. Larvicides may be grouped into two broad categories: biorational pesticides (biopesticides) and conventional, broad- spectrum chemical pesticides.
Biochemical agents such as Insect Growth Regulators (IGRS) controls insects by interrupting their life cycle, rather than through direct toxicity. Based on this mode of action, the U.S. Environmental Protection Agency (EPA) considers it to be a biochemical pesticide. The IGRS mimics naturally occurring insect biochemicals that are responsible for insect development. Through the mimicry, IGRS keeps the mosquito larvae from developing into adults that would emerge from the pupae. It is able to exert this effect at very small concentrations. The first IGRS, which contained several methoprene isomers, was registered in 1975 [Henrick, (2007) Methoprene. In: Floore, T.G. (Ed.). Biorational Control of Mosquitoes. Bulletin of the American Mosquito Control Association No. 7. St Louis, MO: Allen Press]. Methoprene products currently are the only IGRS registered for use in the USA. Methoprene is a juvenile hormone (JH) analog, which mimicries the natural hormone from insects. JH is involved in the regulation of physiological processes in insects including mating and metamorphosis. Therefore, these chemicals interfere with normal insect growth and maturation and induce abnormal larval growth patterns.
Resistance has been defined as 'the developed ability in a strain of insects to tolerate doses of toxicants that would prove lethal to the majority of individuals in a normal population of the same species' [Clark & Yamaguchi, (2002) Scope and Status of Pesticide Resistance. In Agrochemical Resistance: Extent, Mechanism and Detection, eds. J.M Clark & I. Yamaguchi, pp 1-22. Washington, DC: American Chemical Society]. In a susceptible population, individuals with resistant genes to a given insecticide are rare, and usually range between 10 —5 and 10—8 in number, but widespread use of a toxicant favors the prevalence of the resistant individuals. These individuals multiply fast in the absence of intraspecific competition and, over a number of generations, quickly become the dominant proportion of the population. Hence, the insecticide is no longer effective and the insects are considered to be resistant.
In addition to pesticides and insecticides, chemicals commonly used in agriculture also include fertilizers, herbicides, fungicides and various adjuvants that increase their efficiency. Although these compounds are usually non-toxic to insects, their presence in breeding sites has been shown to affect tolerance to insecticides via the modulation of their detoxification system. For instance, Chironomus tentans larvae exposed to the herbicide alachlor respond by enhanced GST activities [Li et al. (2009) Insect Biochem. Mol. Biol., 39, 745e754]. Ae. albopictus larvae exposed for 48 h to the fungicides triadimefon, diniconazole and pentachlorophenol showed an increased tolerance to carbaryl [Suwanchaichinda and Brattsten, (2001) Pestic. Biochem. Physiol., 70, 63e73]. The strong effect observed with pentachlorophenol was further linked to a strong induction of P450s. Poupardin et al. [(2008) Insect Biochem. Mol. Biol. 38, 540e551; (2010) Insect Mol. Biol., 19, 185el93] demonstrated that exposing Ae. aegypti larvae to a sub-lethal dose of copper sulphate, frequently used in agriculture as a fungicide, enhance their tolerance to the pyrethroid permethrin. This effect was correlated to an elevation of P450 activities and the induction of CYP genes preferentially transcribed in detoxification tissues and showing high homology to known pyrethroid metabolizers. Similarly, exposing Ae. Aegypti larvae to the herbicide glyphosate, the active molecule of Roundup, led to a significant increase of their tolerance to permethrin together with the induction of multiple detoxification genes [(Riaz et al. (2009) Aquat. Toxicol., 93, 61e69].
Mosquito resistance has also been described against biolarvicides. Specifically, the development of resistance in Culex quinquefasciatus to the Biopesticide Bacillus
sphaericus (B.s.) has been noted by Rodcharoen et al., Journal of Economic Entomology, Vol. 87, No. 5, 1994, pp. 1133-1140. In addition, resistance to methoprene was soon demonstrated in several species [Dyte, (1972) Nature, 238(5358):48-9; Cerf & Georghiou, (1972) Nature, 239(5372):401-2].
One method of introducing dsRNA to the larvae is by dehydration. Specifically, larvae are dehydrated in a NaCl solution and then rehydrated in water containing double- stranded RNA. This process is suggested to induce gene silencing in mosquito larvae.
SUMMARY OF THE INVENTION
According to an aspect of some embodiments of the present invention there is provided a composition-of-matter for mosquito control, comprising a cell comprising an exogenous naked dsRNA which specifically down-regulates expression of a gene being endogenous to a mosquito or which specifically down-regulated expression of a gene being endogenous to a mosquito pathogen.
According to an aspect of some embodiments of the present invention there is provided a composition-of-matter for mosquito control, comprising a cell comprising a nucleic acid larvicide.
According to an aspect of some embodiments of the present invention there is provided a composition-of-matter for mosquito control, comprising a cell comprising a nucleic acid larvicide affecting fertility or fecundity of a female mosquito.
According to an aspect of some embodiments of the present invention there is provided a composition-of-matter for mosquito control comprising a nucleic acid larvicide that targets a piRNA pathway gene and/or a sterility gene.
According to an aspect of some embodiments of the present invention there is provided a composition-of-matter for mosquito control comprising a nucleic acid larvicide that targets a gene comprising Aub (AAEL007698) and Argonaute-3 (AAEL007823).
According to some embodiments of the invention, the nucleic acid larvicide comprises at least one dsRNA.
According to some embodiments of the invention, the composition-of-matter comprises a dsRNA which comprises SEQ ID NO: 1858 and a dsRNA which comprises SEQ ID NO: 1823.
According to an aspect of some embodiments of the present invention there is provided a method of producing a larvicidal composition, the method comprising introducing into a cell a nucleic acid larvicide, thereby producing the larvicide.
According to an aspect of some embodiments of the present invention there is provided a method of producing a larvicidal composition, the method comprising introducing into a cell a nucleic acid larvicide affecting fertility or fecundity of a female mosquito, thereby producing the larvicide.
According to some embodiments of the invention, the introducing is effected by electroporation.
According to some embodiments of the invention, the introducing is effected by particle bombardment.
According to some embodiments of the invention, the introducing is effected by chemical-based transfection.
According to some embodiments of the invention, the nucleic acid larvicide down-regulates a target gene selected from the group consisting of:
(i) affecting larval survival;
(ii) interfering with metamorphosis of larval stage to adulthood;
(iii) affecting susceptibility of mosquito larvae to a larvicide;
(iv) affecting susceptibility of an adult mosquito to an adulticide/insecticide; and
(v) affecting fertility or fecundity of a male or female mosquito.
According to some embodiments of the invention, the target gene is selected from the group consisting of 1-427, 430-1813, 1826-1832.
According to some embodiments of the invention, the target gene is selected from the group consisting of P-glycoprotein (AAEL010379), Argonaute-3
(AAEL007823), Cytochrome p450 (CYP9J26), Sodium channel (AAEL008297), Aub (AAEL007698), AeSCP-2 (AF510492.1), AeAct-4 (A Y531222.2), AAEL002000,
AAEL005747, AAEL005656, AAEL017015, AAEL005212, AAEL005922,
AAEL000903 and AAEL005049.
According to some embodiments of the invention, the target gene comprises Aub (AAEL007698) and Argonaute-3 (AAEL007823).
According to some embodiments of the invention, the nucleic acid larvicide which down-regulates the target gene is a dsRNA.
According to some embodiments of the invention, the dsRNA comprises SEQ ID NOs: 1858 and 1823.
According to some embodiments of the invention, the cell is an algal cell.
According to some embodiments of the invention, the cell is a microbial cell.
According to some embodiments of the invention, the cell is a bacterial cell.
According to some embodiments of the invention, the composition further comprises a food-bait.
According to some embodiments of the invention, the composition is formulated in a formulation selected from the group consisting of technical powder, wettable powder, dust, pellet, briquette, tablet and granule.
According to some embodiments of the invention, the granule is selected from the group consisting of an impregnated granule, dry flowable, wettable granule and water dispersible granule.
According to some embodiments of the invention, the composition is formulated as a non-aqueous or aqueous suspension concentrate.
According to some embodiments of the invention, the composition is formulated as a semi- solid form.
According to some embodiments of the invention, the semi- solid form comprises an agarose.
According to some embodiments of the invention, the cell is lyophilized.
According to some embodiments of the invention, the cell is non-transgenic.
According to some embodiments of the invention, the composition-of-matter or method further comprises an RNA-binding protein.
According to some embodiments of the invention, the nucleic acid larvicide comprises a dsRNA.
According to some embodiments of the invention, the dsRNA is a naked dsRNA.
According to some embodiments of the invention, the dsRNA comprises a carrier.
According to some embodiments of the invention, the carrier comprises a polyethyleneimine (PEI).
According to some embodiments of the invention, the dsRNA is effected at a dose of 0.001-1 μg/μL for soaking or at a dose of 1 pg to 10 μg/larvae for feeding.
According to some embodiments of the invention, the dsRNA is selected from the group consisting of SEQ ID NOs: 1822-1825 and 1857-1868.
According to some embodiments of the invention, the dsRNA is selected from the group consisting of siRNA, shRNA and miRNA.
According to some embodiments of the invention, the cell is devoid of a heterologous promoter for driving expression of the dsRNA in the plant.
According to some embodiments of the invention, the nucleic acid larvicide is greater than 15 base pairs in length.
According to some embodiments of the invention, the nucleic acid larvicide is
19 to 25 base pairs in length.
According to some embodiments of the invention, the nucleic acid larvicide is 30-100 base pairs in length.
According to some embodiments of the invention, the nucleic acid larvicide is 100-800 base pairs in length.
According to some embodiments of the invention, the composition further comprises at least one of a surface- active agent, an inert carrier vehicle, a preservative, a humectant, a feeding stimulant, an attractant, an encapsulating agent, a binder, an emulsifier, a dye, an ultra-violet protector, a buffer, a flow agent or fertilizer, micronutrient donors, or other preparations that influence the growth of the plant.
According to some embodiments of the invention, the composition of matter has an inferior impact on an adult mosquito as compared to the larvae.
According to some embodiments of the invention, the composition further comprises a chemical larvicide or a biochemical larvicide or a combination of same.
According to some embodiments of the invention, the larvicide is selected from the group consisting of Temephos, Diflubenzuron, methoprene, Bacillus sphaericus, and Bacillus thuringiensis israelensis.
According to some embodiments of the invention, the larvicide comprises an adulticide.
According to some embodiments of the invention, the adulticide is selected from the group consisting of deltamethrin, malathion, naled, chlorpyrifos, permethrin, resmethrin and sumithrin.
According to an aspect of some embodiments of the present invention there is provided a method of controlling or exterminating mosquitoes, the method comprising feeding larvae of the mosquitoes with an effective amount of the composition-of-matter of some embodiments of the invention, thereby controlling or exterminating the mosquitoes.
According to some embodiments of the invention, the mosquitoes comprise female mosquitoes capable of transmitting a disease to a mammalian organism.
According to some embodiments of the invention, the mosquitoes are of a species selected from the group consisting of Aedes aegypti and Anopheles gambiae.
Unless otherwise defined, all technical and/or scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which the invention pertains. Although methods and materials similar or equivalent to those described herein can be used in the practice or testing of embodiments of the invention, exemplary methods and/or materials are described below. In case of conflict, the patent specification, including definitions, will control. In addition, the materials, methods, and examples are illustrative only and are not intended to be necessarily limiting.
BRIEF DESCRIPTION OF THE SEVERAL VIEWS OF THE DRAWINGS
Some embodiments of the invention are herein described, by way of example only, with reference to the accompanying drawings. With specific reference now to the drawings in detail, it is stressed that the particulars shown are by way of example and for purposes of illustrative discussion of embodiments of the invention. In this regard, the description taken with the drawings makes apparent to those skilled in the art how embodiments of the invention may be practiced.
In the drawings:
FIG. 1 is a flowchart illustration depicting introduction of dsRNA into mosquito larvae via soaking with "naked" dsRNA. In short, third instar larvae were treated (in
groups of 100 larvae) in a final volume of 3 mL of dsRNA solution in autoclaved water with 0.5 μg/μL dsRNA. The control group was kept in 3 ml sterile water only. Larvae were soaked in the dsRNA solutions for 24 hr at 27 °C, and then transferred into new containers (300 larvae/1500 mL of chlorine-free tap water), which were also maintained at 27 °C, and were provided with lab dog/cat diet (Purina Mills) suspended in water as a source of food on a daily basis. As pupae developed, they were transferred to individual vials to await eclosion and sex sorting. For bioassays purpose only females up to five days old were used. Then, mosquitoes were subjected to pyrethroid adulticide assay.
FIG. 2 is a flowchart illustration depicting introduction of dsRNA into mosquito larvae via soaking with "naked" dsRNA plus additional larvae feeding with food-containing dsRNA. After soaking in the dsRNA solutions for 24 hr at 27 °C (as indicated in Figure 1 above), the larvae were transferred into new containers (300 larvae/1500 mL of chlorine-free tap water), and were provided agarose cubes containing 300 μg of dsRNA once a day for a total of four days. The larvae were reared until adult stage. For bioassays purpose only females up to five days old are used. Then, mosquitoes were subjected to pyrethroid adulticide assay.
FIG. 3 is a flowchart illustration depicting introduction of dsRNA into mosquito larvae via feeding with food-containing dsRNA only. Third instar larvae were fed (in groups of 300 larvae) in a final volume of 1500 mL of chlorine-free tap water with agarose cubes containing 300 μg of dsRNA once a day for a total of four days. The larvae were reared until adult stage. For bioassays purpose only females up to five days old are used. Then, mosquitoes were subjected to pyrethroid adulticide assay.
FIG. 4 is a flowchart illustration depicting dsRNA production.
FIGs. 5A-C are graphs illustrating the dose-response curves for 3- to 5-day-old Aedes aegypti female mosquitoes on insecticide-susceptible Rockefeller strain (Figure 5 A) and on insecticide-resistant Rio de Janeiro strain (Figure 5B). Mosquitoes were exposed to different concentrations of deltamethrin in 250-mL glass bottles for up to 24 hours and the percentage of mortality for each time point is shown. Figure 5C, comparison of the mortality rates of female mosquitoes from Rockefeller (Rock) and Rio de Janeiro (RJ) strains exposed to 2 μg/mL of deltamethrin for different time-points. Data represent mean values of three replicates with standard deviation.
FIGs. 6A-B are photographs illustrating allele specific PCR for genotyping kdr mutations in the Aedes aegypti Rio de Janeiro strain. Figures 6A-B represent reactions for the 1016 and 1534 mutation sites, respectively. Amplicons were resolved in a 10 % polyacrylamide gel electrophoresis and stained with Gel Red. Figure 6A, amplicons of approximately 80 and 100 bp correspond to alleles 1016 Val+ and 1016 Ilekdr, respectively. Figure 6B, amplicons of 90 and 110 bp correspond to alleles 1534 Phe+ and 1534 Cyskdr, respectively. Rockefeller A e. aegypti mosquito strain was used as positive homozygous dominant control for both mutation sites. C-: negative control.
FIGs. 7A-C are graphs illustrating that sodium channel gene silencing on Ae. aegypti mosquitoes (RJ strain) results in increased susceptibility to Pyrethroid adulticide. Figure 7A, larvae from Ae. aegypti RJ strain (3 rd instar) were soaked for 24 hours in 0.5 μg/ L of sodium channel dsRNA or only in water, and then reared until adult stage. Adult females were exposed to deltamethrin (0.5 μg/bottle) for different time-points, as indicated, and mortality rates for each time point is shown. Data show the mean + standard deviation of four replicates, and is representative of 3 independent experiments. Figure 7B, adult mosquitoes (males and females) previously soaked with sodium channel dsRNA or only water were collected before the treatment with deltamethrin and analyzed for sodium channel mRNA expression using qPCR method. Figure 7C, live and immediately dead female mosquitoes were collected after exposure to deltamethrin and the mRNA expression of sodium channel was determined by qPCR analysis. ***p<0.0001; ****p<0.00001.
FIG. 8 is a graph illustrating that sodium channel gene silencing on A. aegypti mosquitoes (RJ strain) results in increased susceptibility to Pyrethroid adulticide.
Larvae from Ae. aegypti RJ strain (3 rd instar) were soaked for 24 hours in 0.5 μg/ L of sodium channel dsRNA or only in water, and then were fed 4 times with food plus agarose 2% containing dsRNA until they reach pupa stage. After emergence, adult females were exposed to deltamethrin (0.5 μg/bottle) for different time-points, as indicated, and mortality rates for each time point is shown. Data show the mean + standard deviation of four replicates, and is representative of 3 independent experiments. *p<0.01; ***p<0.0001.
FIG. 9 is a graph illustrating that feeding CYP9J29 dsRNA to larvae affects the susceptibility of adult Ae. aegypti mosquitoes to Pyrethroid adulticide. Larvae from A. aegypti RJ strain (3 rd instar) were soaked for 24 hours in 0.1 μg/ L of target #3 (CYP9J26) dsRNA or only in water; and then were fed 4 times with food plus agarose 2% containing dsRNA until they reach pupa stage. Adult females were exposed to deltamethrin (0.5 μg/bottle) for different time-points, as indicated, and then percentage of mortality for each time point is shown. Data represent the mean + standard deviation of four replicates. **p<0.001.
FIGs. lOA-C are graphs illustrating gene silencing in A. aegypti larvae. 3 rd instar larvae from Ae. aegypti were soaked for 24 hours in 0.5 μg/mL of (Figure 10A) P-glycoprotein (PgP); (Figure 10B) Ago-3 or (Figure IOC) sodium channel dsRNA. Larvae soaked only in water were used as control. At 6, 24 and 48 hours after the end of dsRNA treatment, larvae were collected and analysed for PgP, Ago-3 and Sodium channel mRNA expression by qPCR. Data represent the mean + standard deviation of four replicates. *p<0.01 **p<0.001 ; ***p<0.0001; ****p<0.00001.
FIGs. 11A-B are graphs illustrating P-glycoprotein and Ago-3 expression in Ae. aegypti adult mosquitoes soaked with dsRNA. Third instar larvae from Ae. aegypti were soaked for 24 hours in 0.5 μg/mL of (Figure 11 A) P-glycoprotein (PgP) and (Figure 11B) Ago-3, and then reared until adult stage. Adult mosquitoes (males and females) previously soaked with the indicated dsRNA or only water were collected and analyzed for PgP and Ago-3 mRNA expression using qPCR method. Data represent the mean + standard deviation of five replicates. **p<0.001.
FIG. 12 is a flowchart illustration depicting introduction of dsRNA into mosquito larvae via soaking with different doses of "naked" dsRNA plus additional larvae feeding with food-containing dsRNA. Step a) 100 larvae from A. aegypti
Rockefeller strain (3 d instar) were soaked for 24 hours with the respective dsRNAs (concentration range from 0.02-0.5 μg/μL) or only in water and were then fed 2 times with food plus agarose 2% containing dsRNA until they reach adult stage (Step b). Step c) The adults arising were allowed to copulate for 3-5 days. Step d) mosquitoes were fed with defibrinated sheep blood. Step e) after blood feeding 15 fully-engorged females were transferred into 3 small cages to be assayed for oviposition. Step f) the total number of laid eggs and the percentage of hatched eggs were counted. FIGs. 13A-B are graphs illustrating larvae from Ae. aegypti Rockefeller strain (3 rd instar) soaked for 24 hours in 0.5 μg/ L of Aubergine (Aub) or Argonaute-3 (Ago) dsRNAs or water
only. After soaking, larvae were separated in 3 different cages (containing 100 larvae each) and were treated twice with agarose plug containing dsRNA. The adults arising were allowed to copulate for 3-5 days and then fed with defibrinated sheep blood. After blood feeding 15 fully-engorged females were transferred into small cages to be assayed for oviposition. (Figure 13 A) The total number of laid eggs and the percentage of hatched eggs were counted (Figure 13B).
FIGs. 14A-B are graphs illustrating larvae from Ae. aegypti Rockefeller strain (3 instar) soaked for 24 hours in 0.02 μg/μL of AeAct-4 dsRNA or water only. After soaking, larvae were separated in 3 different cages (containing 100 larvae each) and were treated twice with agarose plug containing dsRNA. The adults arising were allowed to copulate for 3-5 days and then fed with defibrinated sheep blood. After blood feeding 15 fully-engorged females were transferred into small cages to be assayed for oviposition. (Figure 14A) The total number of laid eggs and the percentage of hatched eggs were counted (Figure 14B).
FIGs. 15A-B are graphs illustrating Larvae from A. aegypti Rockefeller strain
(3rd instar) soaked for 24 hours in 0.05 μg/μL of AAEL005922 dsRNA or 0.06 μg/μL of AAEL000903 dsRNA or water only. After soaking, larvae were separated in 3 different cages (containing 100 larvae each) and were treated twice with agarose plug containing dsRNA. The adults arising were allowed to copulate for 3-5 days and then fed with defibrinated sheep blood. After blood feeding 15 fully-engorged females were transferred into small cages to be assayed for oviposition. (Figure 15A) The total number of laid eggs and the percentage of hatched eggs were counted (Figure 15B).
FIGs. 16A-B are graphs illustrating larvae from Ae. aegypti Rockefeller strain (3rd instar) soaked for 24 hours in 0.06 μg/μL of AAEL017015 dsRNA, or 0.06 μg/μL of AAEL005212 dsRNA, 0.5 μg/μL of Aubergine (Aub) + Argonaute-3 (Ago) dsRNA or water only. After soaking, larvae were separated in 3 different cages (containing 100 larvae each) and treated twice with agarose plug containing dsRNA. The adults arising were allowed to copulate for 3-5 days and then fed with defibrinated sheep blood. After blood feeding 15 fully-engorged females were transferred into small cages to be assayed for oviposition. (Figure 16A) The total number of laid eggs and the percentage of hatched eggs were counted (Figure 16B).
DESCRIPTION OF SPECIFIC EMBODIMENTS OF THE INVENTION
The present invention, in some embodiments thereof, relates to compositions for mosquito control and uses of same.
Before explaining at least one embodiment of the invention in detail, it is to be understood that the invention is not necessarily limited in its application to the details set forth in the following description or exemplified by the Examples. The invention is capable of other embodiments or of being practiced or carried out in various ways.
It is understood that any Sequence Identification Number (SEQ ID NO) disclosed in the instant application can refer to either a DNA sequence or a RNA sequence, depending on the context where that SEQ ID NO is mentioned, even if that SEQ ID NO is expressed only in a DNA sequence format or a RNA sequence format. For example, SEQ ID NO: 1822 is expressed in a DNA sequence format (e.g., reciting T for thymine), but it can refer to either a DNA sequence that corresponds to an endo 1,4 beta gluconase nucleic acid sequence, or the RNA sequence of an RNA molecule nucleic acid sequence. Similarly, though some sequences are expressed in a RNA sequence format (e.g. , reciting U for uracil), depending on the actual type of molecule being described, it can refer to either the sequence of a RNA molecule comprising a dsRNA, or the sequence of a DNA molecule that corresponds to the RNA sequence shown. In any event, both DNA and RNA molecules having the sequences disclosed with any substitutes are envisioned.
While reducing the present invention to practice, the present inventors have uncovered that feeding dsRNA to mosquito larvae is an effective method for silencing gene expression in adult mosquitoes.
Specifically, the present inventors have shown that feeding mosquito larvae with dsRNA targeting specific genes for two to four days (via agarose cubes, until they reach pupa stage) with or without previous soaking with dsRNA for 24 hours (e.g. sodium channel, PgP, ago-3 and Cytochrome p450) efficiently decreases gene expression (Figures lOA-C) and results in higher susceptibility (Figures 8, 9) in adult mosquitoes. Importantly, female mosquitoes showed a decreased expression in the mRNA level for sodium channel before deltamethrin treatment (Figure 7B) and dead female mosquitoes previously treated with dsRNA showed a striking decrease in mRNA expression level for sodium channel (Figure 7C). Furthermore, it was illustrated that feeding mosquito larvae with dsRNA significantly reduced the number of hatchings of eggs of adult female mosquitoes (Figures 13A-B, 14A-B, 15A-B and 16A-B).
According to an aspect of the invention there is provided a composition-of-matter for mosquito control, comprising a cell comprising an exogenous naked dsRNA which specifically down-regulates expression of a gene being endogenous to a mosquito or which specifically down-regulated expression of a gene being endogenous to a mosquito pathogen.
As used herein the term "exogenous" refers to an externally added nucleic acid molecule which is not naturally occurring in the cell.
According to an aspect of the invention there is provided a composition-of-matter for mosquito control, comprising a cell which comprises a nucleic acid larvicide.
According to another aspect of the invention there is provided a composition-of-matter for mosquito control, comprising a cell comprising a nucleic acid larvicide affecting fertility or fecundity of a female mosquito.
The term "mosquito" or "mosquitoes" as used herein refers to an insect of the family Culicidae. The mosquito of the invention may include an adult mosquito, a mosquito larva, a pupa or an egg thereof.
An adult mosquito is defined as any of slender, long-legged insect that has long proboscis and scales on most parts of the body. The adult females of many species of mosquitoes are blood-eating pests. In feeding on blood, adult female mosquitoes transmit harmful diseases to humans and other mammals.
A mosquito larvae is defined as any of an aquatic insect which does not comprise legs, comprises a distinct head bearing mouth brushes and antennae, a bulbous thorax that is wider than the head and abdomen, a posterior anal papillae and either a pair of respiratory openings (in the subfamily Anophelinae) or an elongate siphon (in the subfamily Culicinae) borne near the end of the abdomen.
Typically, a mosquito's life cycle includes four separate and distinct stages: egg, larva, pupa, and adult. Thus, a mosquito's life cycle begins when eggs are laid on a water surface (e.g. Culex, Culiseta, and Anopheles species) or on damp soil that is flooded by water (e.g. Aedes species). Most eggs hatch into larvae within 48 hours. The larvae live in the water feeding on microorganisms and organic matter and come to the surface to breathe. They shed their skin four times growing larger after each molting and on the fourth molt the larva changes into a pupa. The pupal stage is a resting, non-feeding stage of about two days. At this time the mosquito turns into an adult. When development is complete, the pupal skin splits and the mosquito emerges as an adult.
According to one embodiment, the mosquitoes are of the sub-families Anophelinae and Culicinae. According to one embodiment, the mosquitoes are of the genus Culex, Culiseta, Anopheles and Aedes. Exemplary mosquitoes include, but are not limited to, Aedes species e.g. Aedes aegypti, Aedes albopictus, Aedes polynesiensis, Aedes australis, Aedes cantator, Aedes cinereus, Aedes rusticus, Aedes vexans; Anopheles species e.g. Anopheles gambiae, Anopheles freeborni, Anopheles arabiensis, Anopheles funestus, Anopheles gambiae Anopheles moucheti, Anopheles balabacensis, Anopheles baimaii, Anopheles culicifacies, Anopheles di s, Anopheles latens, Anopheles leucosphyrus, Anopheles maculatus, Anopheles minimus, Anopheles fluviatilis s.l., Anopheles sundaicus Anopheles superpictus, Anopheles farauti, Anopheles punctulatus, Anopheles sergentii, Anopheles stephensi, Anopheles sinensis, Anopheles atroparvus, Anopheles pseudopunctipennis, Anopheles bellator and Anopheles cruzii; Culex species e.g. C. annulirostris, C. antennatus, C. jenseni, C. pipiens, C. pusillus, C. quinquefasciatus, C. rajah, C. restuans, C. salinarius, C. tarsalis, C. territans, C. theileri and C. tritaeniorhynchus; and Culiseta species e.g. Culiseta incidens, Culiseta impatiens, Culiseta inornata and Culiseta particeps.
According to one embodiment, the mosquitoes are capable of transmitting disease-causing pathogens. The pathogens transmitted by mosquitoes include viruses, protozoa, worms and bacteria.
Non-limiting examples of viral pathogens which may be transmitted by mosquitoes include the arbovirus pathogens such as Alphaviruses pathogens (e.g. Eastern Equine encephalitis virus, Western Equine encephalitis virus, Venezuelan Equine encephalitis virus, Ross River virus, Sindbis Virus and Chikungunya virus), Flavivirus pathogens (e.g. Japanese Encephalitis virus, Murray Valley Encephalitis virus, West Nile Fever virus, Yellow Fever virus, Dengue Fever virus, St. Louis encephalitis virus, and Tick-borne encephalitis virus), Bunyavirus pathogens (e.g. La Crosse Encephalitis virus, Rift Valley Fever virus, and Colorado Tick Fever virus) and Orbivirus (e.g. Bluetongue disease virus).
Non-limiting examples of worm pathogens which may be transmitted by mosquitoes include nematodes e.g. filarial nematodes such as Wuchereria bancrofti, Brugia malayi, Brugia pahangi, Brugia timori and heartworm (Dirofilaria immitis)).
Non-limiting examples of bacterial pathogens which may be transmitted by mosquitoes include gram negative and gram positive bacteria including Yersinia pestis, Borellia spp, Rickettsia spp, and Erwinia carotovora.
Non-limiting examples of protozoa pathogens which may be transmitted by mosquitoes include the Malaria parasite of the genus Plasmodium e.g. Plasmodium falciparum, Plasmodium vivax, Plasmodium ovale, Plasmodium malariae, Plasmodium berghei, Plasmodium gallinaceum, and Plasmodium knowlesi.
According to one embodiment, the mosquito comprises a female mosquito being capable of transmitting a disease to a mammalian organism.
Non-limiting examples of mosquitoes and the pathogens which they transmit include species of the genus Anopheles (e.g. Anopheles gambiae) which transmit malaria parasites as well as microfilariae, arboviruses (including encephalitis viruses) and some species also transmit Wuchereria bancrofti; species of the genus Culex (e.g. C. pipiens) which transmit West Nile virus, filariasis, Japanese encephalitis, St. Louis encephalitis and avian malaria; species of the genus Aedes (e.g. Aedes aegypti, Aedes albopictus and Aedes polynesiensis) which transmit nematode worm pathogens (e.g. heartworm (Dirofilaria immitis)), arbovirus pathogens such as Alphaviruses pathogens that cause diseases such as Eastern Equine encephalitis, Western Equine encephalitis, Venezuelan equine encephalitis and Chikungunya disease; Flavivirus pathogens that cause diseases such as Japanese encephalitis, Murray Valley Encephalitis, West Nile fever, Yellow fever, Dengue fever, and Bunyavirus pathogens that cause diseases such as LaCrosse encephalitis, Rift Valley Fever, and Colorado tick fever.
According to one embodiment, pathogens that may be transmitted by Aedes aegypti are Dengue virus, Yellow fever virus, Chikungunya virus and heartworm (Dirofilaria immitis).
According to one embodiment, pathogens that may be transmitted by Aedes albopictus include West Nile Virus, Yellow Fever virus, St. Louis Encephalitis virus, Dengue virus, and Chikungunya fever virus.
According to one embodiment, pathogens that may be transmitted by Anopheles gambiae include malaria parasites of the genus Plasmodium such as, but not limited to, Plasmodium falciparum, Plasmodium vivax, Plasmodium ovale, Plasmodium malariae, Plasmodium berghei, Plasmodium gallinaceum, and Plasmodium knowlesi.
As used herein the phrase "mosquito control" refers to managing the population of mosquitoes to reduce their damage to human health, economies, and enjoyment. According to some embodiments of the invention, mosquito management is typically effected using larvicidally effective compositions and compositions having mosquito "aversion activity" which causes a mosquito to avoid deleterious behavior such as a mosquito biting.
As used herein, the term "larvicidal" or "larvicidal activity" refers to the ability of interfering with a mosquito life cycle resulting in an overall reduction in the mosquito population. The larvicidal composition acts (down-regulates gene expression) at the larval stage. The activity of the larvicidal composition may be manifested immediately (e.g., by affecting larval survival) or only at later stages, as described below. For example, the term larvicidal includes inhibition of a mosquito from progressing from one form to a more mature form, e.g., transition between various larval instars or transition from larva to pupa or pupa to adult. Alternatively or additionally, the term larvicidal affects mosquito fertility or fecundity. Hence the down-regulation of the target gene may induce male or female sterility. Further, the term "larvicidal" is intended to encompass, for example, anti-mosquito activity during all phases of a mosquito life cycle; thus, for example, the term includes larvacidal, ovicidal, and adulticidal activity. According to a specific embodiment all of which stem from the activity at the larval stage. Alternatively or additionally, larvicide encompasses both "larva- specific" larvicides, and non-specific larvicides."
According to one embodiment the larvicide may affect fertility or fecundity of a female mosquito. Affecting the fertility or fecundity of a mosquito typically does not kill the mosquito but affects the amount or quality of eggs the mosquito lays, as well as the ability to produce viable and/or fertile progeny. Thus, fertility refers to the ability of a population of female mosquitoes to yield eggs. Fecundity refers to a reduction in the number of progeny produced from the eggs.
Thus, fertility refers to the "ability" of a male and a female to reproduce a viable offspring.
The female mosquito may lay a reduced amount of eggs as compared to a female mosquito not affected by the larvicide composition of the invention. Alternatively, the quality of the eggs laid by the female mosquito may be damaged, e.g. the eggs may not hatch or may hatch at a reduced amount (e.g. 10 %, 20%, 30 %, 40 %, 50 %, 60%, 70 %, 80 %, 90 % or 100 % reduction in hatching as compared to eggs of a female mosquito not affected by the larvicide composition of the invention).
A population of female mosquitoes receiving the larvicide composition of the invention is considered to have sufficiently decreased fertility or fecundity if at least 30 %, 40 %, 50 %, 60%, 70 %, 80 %, 90 % or 100 % of the females in the population are infertile, e.g., unable to produce viable eggs.
Thus, the larvicide of the invention may generate a biased population of adult mosquitoes.
In addition the term may refer to rendering a mosquito at any stage, including adulthood, more susceptible to a pesticide as compared to the susceptibility of a mosquito of the same species and developmental stage which hasn't been treated with the nucleic acid larvicide.
As used herein, the term "larvicidally effective" is used to indicate an amount or concentration of the nucleic acid larvicide which is sufficient to reduce the number of mosquitoes in a geographic locus as compared to a corresponding geographic locus in the absence of the amount or concentration of the composition.
Thus the nucleic acid larvicide of some embodiments of the invention down-regulates a target gene selected from the group consisting of:
(i) affecting larval survival;
(ii) interfering with metamorphosis of larval stage to adulthood;
(iii) affecting susceptibility of mosquito larvae to a larvicide;
(iv) affecting susceptibility of an adult mosquito to an adulticide/insecticide; and
(v) affecting fertility or fecundity of a male or female mosquito.
As used herein the term "affecting" or "interfering" refers to a gene which plays a role in the above mentioned biological activity. According to a specific embodiment, the target gene is a non-redundant gene, that is, its activity is not compensated by another gene in a pathway. When needed, down-regulation of a plurality of genes (e.g., in a pathway) participating in at least one of the above-mentioned activities is contemplated (as further described hereinbelow). Alternatively, according to a specific embodiment, the plurality of target genes are from groups (i) and (ii), (i) and (iii), (i) and (iv), (i) and (v), (ii) and (iii), (ii) and (iv), (ii) and (v), (iii) and (v) and (iv) and (v) and more.
The target gene may comprise a nucleic acid sequence which is transcribed to an mRNA which codes for a polypeptide.
Alternatively, the target gene can be a non-coding gene such as a miRNA or a siRNA.
According to a specific embodiment, the target gene is endogenous to the larvae. According to a specific embodiment, the target gene is endogenous to the pathogen.
As used herein "endogenous" refers to a gene which expression (mRNA or protein) takes place in the larvae or the pathogen. Typically, the endogenous gene is naturally expressed in the larvae or the pathogen.
Below provided are exemplary genes. Orthologs and homologs are also contemplated according to the present teachings.
Homologous sequences include both orthologous and paralogous sequences.
The term "paralogous" relates to gene-duplications within the genome of a species leading to paralogous genes. The term "orthologous" relates to homologous genes in different organisms due to ancestral relationship. Thus, orthologs are evolutionary counterparts derived from a single ancestral gene in the last common ancestor of given two species (Koonin EV and Galperin MY (Sequence - Evolution - Function: Computational Approaches in Comparative Genomics. Boston: Kluwer Academic; 2003. Chapter 2, Evolutionary Concept in Genetics and Genomics. Available from: ncbi (dot) nlm (dot) nih (dot) gov/books/NBK20255) and therefore have great likelihood of having the same function.
The term "ortholog" (also called orthologous genes) refers to genes in different species derived from a common ancestry (due to speciation).
According to a specific embodiment, the homolog sequences are at least 60 %, 65 %, 70 %, 75 %, 80%, 85 %, 90 %, 95 % or even identical to the sequences (nucleic acid or amino acid sequences) provided hereinbelow.
The nucleic acid agent will be selected according to the target larvae and hence target genes. Exemplary target genes of the invention include adulticide/larvicide targets and fertility/fecundity targets.
Exemplary target genes of the invention are listed in Tables 1-5 below.
Table 1
Seq ID Gene Symbol
302 AAEL001340
303 AAEL001606
304 AAEL002425
305 AAEL002792
306 AAEL003660
307 AAEL004696
308 AAEL004974
309 AAEL006254
310 AAEL006488
311 AAEL006492
312 AAEL008042
313 AAEL008587
314 AAEL008844
315 AAEL008924
316 AAEL008958
317 AAEL009114
318 AAEL009174
319 AAEL009340
320 AAEL009969
321 AAEL010565
322 AAEL010789
323 AAEL010792
324 AAEL011474
325 AAEL011478
326 AAEL011663
327 AAEL011757
328 AAEL011921
329 AAEL014330
330 AGAP000460
331 AGAP000460
332 AGAP000460
333 AGAP000471
334 AGAP000471
335 AGAP000471
336 AGAP000662
337 AGAP000662
338 AGAP000662
339 AGAP001177
340 AGAP001177
341 AGAP001177
342 AGAP001179
343 AGAP001179
344 AGAP001179
345 AGAP001271
346 AGAP001271
347 AGAP001271
348 AGAP001278
349 AGAP001278
350 AGAP001278
351 AGAP001293
352 AGAP001293
353 AGAP001293
354 AGAP001335
355 AGAP001335
356 AGAP001335
357 AGAP001337
358 AGAP001337
359 AGAP001337
360 AGAP001339
361 AGAP001339
362 AGAP001339
363 AGAP001367
364 AGAP001367
365 AGAP001367
366 AGAP001388
367 AGAP001388
368 AGAP001388
369 AGAP001463
370 AGAP001463
371 AGAP001463
372 AGAP001478
373 AGAP001478
374 AGAP001478 375 AGAP001481
376 AGAP001481
377 AGAP001481
378 AGAP001498
379 AGAP001498
380 AGAP001498
381 AGAP002471
382 AGAP002471
383 AGAP002471
384 AGAP002801
385 AGAP004050
386 AGAP004416
387 AGAP004416
388 AGAP004416
389 AGAP004645
390 AGAP004930
391 AGAP006887
392 AGAP006887
393 AGAP006887
394 AGAP007963
395 AGAP008806
396 CPIJ001185
397 CPIJ001186
398 CPIJ001187
399 CPIJ001560
400 CPIJ003158
401 CPIJ003766
402 CPIJ004057
403 CPIJ004058
404 CPIJ004318
405 CPIJ005975
406 CPIJ005976
407 CPIJ007071
408 CPIJ007072
409 CPIJ007101
410 CPIJ007172
411 CPIJ007789
412 CPIJ008481
413 CPIJ008673
414 CPIJ009011
415 CPIJ009270
416 CPIJ011557
417 CPIJ011558 418 CPIJO 11708
419 CPIJ012810
420 CPIJ013126
421 CPIJ015620
422 CPIJ015622
423 CPIJO 17065
424 CPIJ017887
425 CPIJO 19248
426 CPIJO 19249
427 FBgn0127180
Table 1, cont.
Table 2A
Seq ID Gene Symbol Annotation
Enzymes 55 AAELO 12664 prolylcarboxypeptidase, putative
56 AAEL002909 lysosomal acid lipase, putative
57 AAEL005127 ribonuclease UK114, putative
58 AAEL012636 cytochrome b5, putative
59 AAELO 10276 aminomethyltransferase
60 AAEL013640 lung carbonyl reductase
61 AAEL005416 oxidase/peroxidase
62 AAELO 13499 prophenoloxidase
63 AAEL003716 ribonuclease UK114, putative
64 AAELO 12579 aspartate aminotransferase
65 AAEL002600 serine protease
mitochondrial ATP synthase b
66 AAEL005610 chain
67 AAEL006446 trehalose-6-phosphate synthase
68 AAEL008770 proteasome subunit beta type
69 AAEL001427 short-chain dehydrogenase
peptidyl-prolyl cis-trans isomerase
70 AAELO 13279 (cyclophilin)
71 AAEL009875 alanine aminotransferase
72 AAEL005793 AMP dependent ligase
ubiquinol-cytochrome c reductase
73 AAEL007868 complex 14 kd protein
NADH-plastoquinone
74 AAEL008072 oxidoreductase
75 AAEL009324 hydroxyacyl dehydrogenase
76 AAEL008217 serine -type enodpeptidase,
77 AAELO 14944 cytochrome c oxidase polypeptide
78 AAELO 10819 vacuolar ATP synthase subunit H
79 AAELO 10500 glutathione-s-transferase theta, gst Transport 80 AAEL005929 ATP-binding cassette transporter
81 AAEL008381 oligopeptide transporter
82 AAEL001626 zinc/iron transporter
ATP-binding cassette sub-family
83 AAEL012702 A member 3, putative
others 84 AAEL015515 antibacterial peptide, putative leucine -rich transmembrane
85 AAEL002295 protein
86 AAEL009556 Niemann-Pick Type C-2, putative
87 AAEL005159 latent nuclear antigen, putative
88 AAEL007325 Mob3B protein, putative
89 AAEL000679 NEDD8, putative
galactose-specific C-type lectin,
90 AAEL009209 putative
odorant-binding protein 56a,
91 AAEL001826 putative
92 AAEL002961 Osiris, putative
93 AAEL006830 yellow protein precursor
odorant-binding protein 99c,
94 AAEL005772 putative
95 AAEL002813 coupling factor, putative
96 AAEL011090 complement component
97 AAEL012230 flagellar protein, putative
Hypothetical
proteins 98 AAEL011252 conserved hypothetical protein
99 AAEL014506 conserved hypothetical protein
100 AAEL003216 conserved hypothetical protein
101 AAEL003241 conserved hypothetical protein
102 AAEL007507 conserved hypothetical protein
103 AAEL003064 conserved hypothetical protein
104 AAEL010678 conserved hypothetical protein
105 AAEL000269 conserved hypothetical protein
106 AAEL006053 conserved hypothetical protein
107 AAEL008750 conserved hypothetical protein
108 AAEL010128 conserved hypothetical protein
109 AAEL002898 conserved hypothetical protein
110 AAEL007631 conserved hypothetical protein
111 AAEL003479 conserved hypothetical protein
112 AAEL013777 conserved hypothetical protein
113 AAEL003428 conserved hypothetical protein
114 AAELO 14529 conserved hypothetical protein
115 AAELO 12645 conserved hypothetical protein
116 AAEL004809 conserved hypothetical protein
117 AAEL004343 conserved hypothetical protein
118 AAEL003160 conserved hypothetical protein 119 AAEL012357 conserved hypothetical protein
120 AAEL009009 conserved hypothetical protein
121 AAELO 13793 conserved hypothetical protein
122 AAEL002623 conserved hypothetical protein
123 AAEL010163 conserved hypothetical protein
124 AAEL002449 conserved hypothetical protein
125 AAEL002302 conserved hypothetical protein
126 AAEL008039 conserved hypothetical protein
127 AAEL008073 conserved hypothetical protein
128 AAEL007444 conserved hypothetical protein
129 AAEL005171 conserved hypothetical protein
130 AAEL006771 conserved hypothetical protein
131 AAEL015140 conserved hypothetical protein
132 AAEL001851 conserved hypothetical protein
133 AAEL005558 conserved hypothetical protein
134 AAEL002933 conserved hypothetical protein
135 AAEL003225 conserved hypothetical protein
136 AAEL001692 conserved hypothetical protein
137 AAEL007592 conserved hypothetical protein
138 AAEL005457 conserved hypothetical protein
139 AAEL006494 conserved hypothetical protein
140 AAEL013780 conserved hypothetical protein
141 AAEL009257 conserved hypothetical protein
142 AAEL000445 conserved hypothetical protein
143 AAEL002955 conserved hypothetical protein
144 AAEL002875 conserved hypothetical protein
145 AAEL000304 conserved hypothetical protein
146 AAEL000792 conserved hypothetical protein
147 AAEL003936 conserved hypothetical protein
148 AAEL006686 conserved hypothetical protein
149 AAEL001677 conserved hypothetical protein
150 AAEL000419 conserved hypothetical protein
151 AAEL007648 conserved hypothetical protein
152 AAEL006270 conserved hypothetical protein
153 AAEL013377 conserved hypothetical protein
154 AAEL002619 conserved hypothetical protein
155 AAEL012866 conserved hypothetical protein
156 AAELO 14445 conserved hypothetical protein
157 AAEL001065 conserved hypothetical protein
158 AAEL011333 conserved hypothetical protein
159 AAEL011078 conserved hypothetical protein
160 AAELO 10315 conserved hypothetical protein
161 AAEL005270 conserved hypothetical protein 162 AAEL004449 conserved hypothetical protein
163 AAEL000896 conserved hypothetical protein
164 AAELO 10724 conserved hypothetical protein
165 AAEL008802 conserved hypothetical protein
Table 2A, cont.
Table 2B
Gene symbol Gene Name
430 AAEL000043 gustatory receptor 64e, putative
431 AAEL000020 conserved hypothetical protein
432 AAEL000005 hypothetical protein
433 AAEL000049 three prime repair exonuclease 1 , putative
434 AAEL000053 myotubularin
435 AAEL000033 conserved hypothetical protein
436 AAEL000046 conserved hypothetical protein
437 AAEL000054 mixed-lineage leukemia protein, mil
438 AAEL000011 conserved hypothetical protein
439 AAEL000055 conserved hypothetical protein
440 AAEL000543 C-Type Lectin (CTL) - mannose binding.
441 AAEL000559 glycosyl transferase
442 AAEL000562 conserved hypothetical protein
443 AAEL000554 fasciclin, putative
444 AAELO 14092 conserved hypothetical protein
445 AAEL014105 hypothetical protein
446 AAEL014110 sulfite reductase
447 AAEL003935 conserved hypothetical protein
448 AAEL003940 hypothetical protein
449 AAEL014125 nk homeobox protein
450 AAEL014128 hypothetical protein
451 AAEL003971 conserved hypothetical protein
452 AAEL003959 short-chain dehydrogenase
453 AAEL014161 amino acids transporter
454 AAEL014163 conserved hypothetical protein
455 AAEL014183 hypothetical protein
456 AAEL003983 adenylate cyclase
AAEL003979 deadenylation factor EDEN-BP, putative
AAEL014196 conserved hypothetical protein
AAEL003988 hypothetical protein
AAEL003986 conserved hypothetical protein
AAELO 14222 low-density lipoprotein receptor (ldl)
AAELO 14229 conserved hypothetical protein
AAELO 14237 conserved hypothetical protein
AAELO 14250 insect replication protein a
AAEL004030 conserved hypothetical protein
AAEL004018 conserved hypothetical protein
AAELO 14257 hypothetical protein
AAEL014268 hypothetical protein
AAELO 14271 conserved hypothetical protein
AAELO 14272 molybdopterin cofactor sulfurase (mosc)
AAELO 14276 conserved hypothetical protein
AAEL014283 conserved hypothetical protein
AAELO 14291 hypothetical protein
AAEL004055 conserved hypothetical protein
AAEL004076 Ubiquitin-like modifier-activating enzyme 5 (Ubiquitin-activating enzyme 5)
AAEL004068 hypothetical protein
AAELO 14302 conserved hypothetical protein
AAELO 14306 hypothetical protein
AAELO 14304 hypothetical protein
AAELO 14318 conserved hypothetical protein
AAELO 14314 DNA primase
AAELO 14317 conserved hypothetical protein
AAELO 14316 conserved hypothetical protein
AAELO 14319 hypothetical protein
485 AAEL004084 conserved hypothetical protein
486 AAEL004094 pou domain
487 AAEL004104 hypothetical protein
488 AAELO 14324 conserved hypothetical protein
489 AAEL004130 conserved hypothetical protein
490 AAEL004129 conserved hypothetical protein
491 AAELO 14341 metallocarboxypeptidase, putative
492 AAELO 14342 hypothetical protein
493 AAEL004190 hypothetical protein
494 AAEL004178 ribose-phosphate pyrophosphokinase 1 ,
495 AAEL004172 tubulin alpha chain
496 AAEL004176 microtubule binding protein, putative
497 AAEL004150 fibrinogen and fibronectin
498 AAEL004188 conserved hypothetical protein
499 AAEL004191 selenocysteine-specific elongation factor
500 AAEL014367 hypothetical protein
501 AAELO 14373 GPCR Dopamine Family
502 AAELO 14389 conserved hypothetical protein
503 AAEL000584 sex-determining region y protein, sry
504 AAEL000589 serine/threonine protein kinase
505 AAEL000585 hypothetical protein
506 AAELO 17305 odorant receptor
507 AAELO 14402 conserved hypothetical protein
508 AAELO 14411 cytochrome P450
509 AAEL004234 conserved hypothetical protein
510 AAELO 14428 ABC transporter
511 AAELO 14431 conserved hypothetical protein
512 AAELO 14441 conserved hypothetical protein
513 AAEL004253 hypothetical protein
514 AAEL004300 conserved hypothetical protein
515 AAEL004302 conserved hypothetical protein
516 AAEL004296 conserved hypothetical protein
517 AAEL004317 hypothetical protein
518 AAEL004315 hypothetical protein
519 AAEL004348 NF-180, putative
520 AAEL004328 origin recognition complex subunit
521 AAELO 14524 DNA replication licensing factor MCM4
522 AAEL014533 conserved hypothetical protein
523 AAEL014536 embryonic ectoderm development protein
524 AAELO 14548 Thioredoxin Peroxidase.
525 AAEL014557 homeobox protein cdx
526 AAEL004386 heme peroxidase
527 AAEL004390 heme peroxidase
528 AAEL004399 GPCR Glycoprotein Hormone Family
529 AAELO 17431 hypothetical protein
530 AAEL004388 heme peroxidase
531 AAEL004396 GPCR Octopamine/Tyramine Family
532 AAELO 14572 tetraspanin 97e
533 AAEL017559 hypothetical protein
534 AAELO 14577 conserved hypothetical protein
535 AAELO 14589 reticulocalbin
536 AAEL004416 histone deacetylase
537 AAEL004443 nitrilase, putative
538 AAEL004437 dual-specificity protein phosphatase, putative
539 AAEL004429 conserved hypothetical protein
540 AAELO 14627 short-chain dehydrogenase
541 AAEL014633 conserved hypothetical protein
542 AAEL000604 hypothetical protein
543 AAEL000601 hypothetical protein
544 AAEL004482 conserved hypothetical protein
545 AAEL004462 hypothetical protein
546 AAEL004468 hypothetical protein
547 AAEL004479 organic cation transporter
548 AAEL004486 valacyclovir hydrolase
549 AAEL004510 hypothetical protein
550 AAEL004493 ribosome biogenesis protein tsrl (20S rRNA accumulation protein 1)
551 AAELO 17243 hypothetical protein
552 AAEL004518 Clip-Domain Serine Protease family C
553 AAEL004537 hypothetical protein
554 AAEL004539 hypothetical protein
555 AAELO 14693 conserved hypothetical protein
556 AAEL004559 synaptosomal associated protein
557 AAEL004562 DNA polymerase eta
558 AAEL004592 tyrosine -protein kinase src64b
559 AAEL004598 hypothetical protein
560 AAELO 14744 conserved hypothetical protein
561 AAEL004627 hypothetical protein
562 AAEL004635 hypothetical protein
563 AAEL004638 conserved hypothetical protein
564 AAEL004645 hypothetical protein
565 AAEL004650 hypothetical protein
566 AAEL017478 hypothetical protein
567 AAEL004623 band 4.1 -like protein 5, putative
568 AAEL004642 hypothetical protein
569 AAEL014756 hypothetical protein
570 AAEL004680 nuclear lamin LI alpha, putative
571 AAEL004698 DNA primase large subunit
572 AAEL004697 synoviolin
573 AAELO 14791 hypothetical protein
574 AAELO 14800 conserved hypothetical protein
575 AAELO 14814 conserved hypothetical protein
576 AAEL017122 hypothetical protein
577 AAEL017102 hypothetical protein
578 AAELO 14823 conserved hypothetical protein
579 AAELO 14825 conserved hypothetical protein
580 AAEL014835 conserved hypothetical protein
581 AAEL004777 Glycoprotein Hormone Family
582 AAEL017453 hypothetical protein
583 AAEL004748 pupal cuticle protein, putative
584 AAEL004771 pupal cuticle protein, putative
585 AAEL004782 pupal cuticle protein, putative
586 AAELO 14844 conserved hypothetical protein
587 AAEL000666 pmp22 peroxisomal membrane protein, putative
588 AAEL000672 cyclin a
589 AAEL000664 hypothetical protein
590 AAEL000662 conserved hypothetical protein
591 AAEL000649 conserved hypothetical protein
592 AAEL000658 conserved hypothetical protein
593 AAEL000675 hypothetical protein
594 AAEL004796 hypothetical protein
595 AAEL004789 hypothetical protein
596 AAEL004818 conserved hypothetical protein
597 AAEL004805 potassium-dependent sodium-calcium exchanger, putative
598 AAEL004821 potassium-dependent sodium-calcium exchanger, putative
599 AAEL004842 conserved hypothetical protein
600 AAEL004837 hypothetical protein
601 AAEL004850 hypothetical protein
602 AAEL004835 conserved hypothetical protein
603 AAEL004858 conserved hypothetical protein
604 AAEL004841 conserved hypothetical protein
605 AAEL004882 conserved hypothetical protein
606 AAEL004892 conserved hypothetical protein
607 AAEL004864 hypothetical protein
608 AAELO 14904 DEAD box ATP-dependent RNA helicase
609 AAELO 14908 conserved hypothetical protein
610 AAELO 14911 synaptic vesicle protein
611 AAEL017811 RNase MRP
612 AAELO 14918 lysosomal acid lipase, putative
613 AAELO 14924 cytochrome P450
614 AAELO 14925 conserved hypothetical protein
615 AAEL004914 conserved hypothetical protein
616 AAEL004903 conserved hypothetical protein
617 AAELO 14927 sodium/chloride dependent transporter
618 AAEL016998 hypothetical protein
619 AAELO 14946 protease U48 caax prenyl protease reel
620 AAEL014956 internalin A, putative
621 AAEL004955 hypothetical protein
622 AAEL004949 elongase, putative
623 AAEL004976 conserved hypothetical protein
624 AAEL004970 conserved hypothetical protein
625 AAEL005006 cytochrome P450
626 AAEL005000 conserved hypothetical protein
627 AAEL005007 hypothetical protein
628 AAEL005009 groucho protein (enhancer of split)
629 AAEL014984 adult cuticle protein, putative
630 AAEL014986 conserved hypothetical protein
631 AAELO 14992 rab gdp/GTP exchange factor
632 AAEL014989 peptidoglycan recognition protein- 1, putative
633 AAEL005040 conserved hypothetical protein
634 AAEL005033 conserved hypothetical protein
635 AAELO 15011 hypothetical protein
636 AAEL000692 partner of sld5
637 AAEL005078 zinc finger protein
638 AAEL005049 heterogeneous nuclear ribonucleoprotein
639 AAEL005070 conserved hypothetical protein
640 AAEL005087 hypothetical protein
641 AAELO 15018 toll
642 AAEL015035 transcription enhancer factor, putative
643 AAELO 15038 palmitoyl-protein thioesterase
644 AAELO 15047 hypothetical protein
645 AAEL005123 hypothetical protein
646 AAEL005110 conserved hypothetical protein
647 AAEL005115 hypothetical protein
648 AAEL005128 hypothetical protein
649 AAEL005103 conserved hypothetical protein
650 AAEL005145 conserved hypothetical protein
651 AAELO 15071 gustatory receptor 64a, putative
652 AAEL005212 hypothetical protein

681 AAEL005452 conserved hypothetical protein
682 AAEL005474 hypothetical protein
683 AAEL000773 kinesin heavy chain
684 AAEL000754 conserved hypothetical protein
685 AAEL000779 hypothetical protein
686 AAEL000776 conserved hypothetical protein
687 AAEL000790 conserved hypothetical protein
688 AAEL000793 venom allergen
689 AAEL000769 arginine/serine-rich splicing factor
690 AAEL005513 mothers against dpp protein
691 AAELO 15222 adult cuticle protein, putative
692 AAELO 15232 GTP-binding protein rit
693 AAEL005549 hypothetical protein
694 AAEL005588 conserved hypothetical protein
695 AAEL005584 hypothetical protein
696 AAELO 15243 hypothetical protein
697 AAEL005638 conserved hypothetical protein
698 AAEL005637 vegetatible incompatibility protein HET-E-1, putative
699 AAELO 17446 gustatory receptor Gr33a
700 AAEL005656 myosin heavy chain, nonmuscle or smooth muscle
701 AAELO 15270 hypothetical protein
702 AAEL005668 conserved hypothetical protein
703 AAEL000816 carbonic anhydrase
704 AAEL000805 conserved hypothetical protein
705 AAEL000819 hypothetical protein
706 AAEL000800 microsomal dipeptidase
707 AAEL005707 gonadotropin inducible transcription factor
708 AAEL005684 chitinase
AAEL005724 conserved hypothetical protein
AAEL005716 conserved hypothetical protein
AAEL005721 conserved hypothetical protein
AAELO 15293 zinc finger protein
AAEL005786 conserved hypothetical protein
AAEL005775 cytochrome P450
AAEL005796 eukaryotic translation initiation factor 4e type
AAEL005804 hypothetical protein
AAEL005805 alanyl aminopeptidase
AAEL005808 alanyl aminopeptidase
AAEL005853 amino acid transporter
AAEL005856 signal recognition particle receptor alpha subunit (sr-alpha)
AAEL005859 amino acid transporter
AAEL000903 Enhancer of yellow 2 transcription factor
AAEL000912 conserved hypothetical protein
AAEL000889 hypothetical protein
AAEL000884 eukaryotic translation initiation factor 2 alpha kinase 1 (heme- regulated eukaryotic initiation factor eif-2-alpha kinase)
AAEL000905 hypothetical protein
AAEL000923 conserved hypothetical protein
AAEL005938 hypothetical protein
AAEL005936 conserved hypothetical protein
AAEL005932 conserved hypothetical protein
AAEL005924 hypothetical protein
AAELO 17009 odorant receptor
AAEL005922 hypothetical protein
AAEL005916 hypothetical protein
AAEL015327 conserved hypothetical protein
AAEL015330 hypothetical protein
737 AAEL015336 conserved hypothetical protein
738 AAEL005990 adrenodoxin reductase, putative
739 AAEL006010 conserved hypothetical protein
740 AAEL005998 rap GTPase-activating protein
741 AAEL006031 conserved hypothetical protein
742 AAEL006023 Vanin-like protein 1 precursor, putative
743 AAEL006030 hypothetical protein
744 AAEL006037 hypothetical protein
745 AAEL006045 reticulon/nogo receptor
746 AAEL006055 potassium channel interacting protein
747 AAEL006084 conserved hypothetical protein
748 AAEL006091 rab6
749 AAEL006098 conserved hypothetical protein
750 AAEL000938 conserved hypothetical protein
751 AAEL000945 conserved hypothetical protein
752 AAEL000971 smile protein
753 AAEL000973 conserved hypothetical protein
754 AAEL000932 conserved hypothetical protein
755 AAEL000953 conserved hypothetical protein
756 AAEL000964 regulatory factor X-associated ankyrin-containing protein, putative
757 AAEL000934 clathrin light chain
758 AAEL006111 hypothetical protein
759 AAEL006140 mitosis inhibitor protein kinase
760 AAEL006138 hypothetical protein
761 AAEL006130 hypothetical protein
762 AAEL006208 conserved hypothetical protein
763 AAEL006211 conserved hypothetical protein
764 AAEL006219 heparan sulphate 2-o-sulfotransferase
765 AAEL006239 glycerol kinase
766 AAEL006243 hypothetical protein
767 AAEL006241 sugar transporter
768 AAEL015376 conserved hypothetical protein
769 AAEL006258 pickpocket
770 AAEL015380 conserved hypothetical protein
771 AAEL006277 conserved hypothetical protein
772 AAEL006279 hypothetical protein
773 AAEL006262 mitochondrial carrier protein
774 AAEL006298 conserved hypothetical protein
775 AAEL006303 integral membrane protein, Tmp21-I (p23), putative
776 AAEL006286 conserved hypothetical protein
111 AAEL000113 conserved hypothetical protein
778 AAEL000128 P130
779 AAEL000141 immunophilin FKBP46, putative
780 AAEL000154 conserved hypothetical protein
781 AAEL000999 DNA replication licensing factor MCM7
782 AAELO 17422 hypothetical protein
783 AAEL000974 zinc finger protein
784 AAEL000980 hypothetical protein
785 AAEL006308 px serine/threonine kinase (pxk)
786 AAEL006321 1 -acylglycerol-3 -phosphate acyltransferase
787 AAEL006309 conserved hypothetical protein
788 AAEL006341 conserved hypothetical protein
789 AAEL006326 deoxyribonuclease I, putative
790 AAEL006340 conserved hypothetical protein
791 AAEL006360 conserved hypothetical protein
792 AAEL006370 amsh
AAEL006371 oviductin
AAEL006392 hypothetical protein
AAEL006405 hypothetical protein
AAEL006450 integral membrane protein, putative
AAEL006447 GATA transcription factor (GATAb)
AAEL006460 par-6 gamma
AAEL006455 calcium-activated potassium channel
AAEL006498 long wavelength sensitive opsin
AAEL006523 crk
AAEL006538 peroxisomal membrane protein 2, pxmp2
AAEL006556 hypothetical protein
AAEL006564 mitochondrial RNA splicing protein
AAEL006581 juvenile hormone-inducible protein, putative
AAEL015414 hypothetical protein
AAEL006603 conserved hypothetical protein
AAEL006660 conserved hypothetical protein
AAEL006657 hypothetical protein
AAEL006656 conserved hypothetical protein
AAEL006654 conserved hypothetical protein
AAEL006662 hypothetical protein
AAEL006672 conserved hypothetical protein
AAEL006684 Putative oxidoreductase GLYRl homolog (EC l.-.-.-)(Glyoxylate reductase 1 homolog)(Nuclear protein NP60 homolog)
AAEL006704 fibrinogen and fibronectin
AAEL006694 hypothetical protein
AAELO 17095 hypothetical protein
AAEL006706 conserved hypothetical protein
AAEL006713 U2 snrnp auxiliary factor, small subunit
AAEL006727 multisynthetase complex, auxiliary protein, p38, putative AAEL001093 PHD finger protein
AAEL001053 hypothetical protein
AAEL001088 beta-1 ,3-galactosyltransferase
AAEL001067 hypothetical protein
AAEL006761 hypothetical protein
AAEL006766 hypothetical protein
AAEL006777 hypothetical protein
AAEL006759 hypothetical protein
AAEL006768 hypothetical protein
AAEL006801 conserved hypothetical protein
AAEL017112 hypothetical protein
AAEL006823 AMP dependent ligase
AAEL006847 conserved hypothetical protein
AAEL006876 igf2 mRNA binding protein, putative
AAEL006906 NBP2b protein, putative
AAEL006923 conserved hypothetical protein
AAEL006931 hypothetical protein
AAEL006934 Mediator of RNA polymerase II transcription subunit 19 (Mediator complex subunit 19)
AAEL006939 smaug protein
AAEL001148 homeobox protein
AAEL001137 hypothetical protein
AAEL001121 n-acetylgalactosaminyltransferase
AAEL001116 hypothetical protein
AAEL001125 pl5-2b protein, putative
AAEL001113 inorganic phosphate cotransporter, putative
AAEL006972 hepatocellular carcinoma-associated antigen
AAEL006961 lipase
AAEL006982 lipase
849 AAEL006998 conserved hypothetical protein
850 AAEL006997 hypothetical protein
851 AAEL006986 conserved hypothetical protein
852 AAEL007007 DNA replication licensing factor MCM2
853 AAEL007053 hypothetical protein
854 AAEL007046 mitochondrial brown fat uncoupling protein
855 AAEL007056 btf
856 AAEL007073 hypothetical protein
857 AAEL007075 conserved hypothetical protein
858 AAEL007071 conserved hypothetical protein
859 AAEL017835 18S_rRNA
860 AAEL007095 adult cuticle protein, putative
861 AAEL007101 adult cuticle protein, putative
862 AAEL007091 single-stranded DNA-binding protein mssp-1
863 AAEL007093 conserved hypothetical protein
864 AAEL007097 4-nitrophenylphosphatase
865 AAEL007128 sugar transporter
866 AAELO 17220 hypothetical protein
867 AAEL007134 hypothetical protein
868 AAEL001176 s-adenosylmethionine decarboxylase
869 AAEL017083 hypothetical protein
870 AAEL001180 hypothetical protein
871 AAEL001162 conserved hypothetical protein
872 AAEL001169 Ribosome biogenesis protein BOPl homolog
873 AAELO 17069 hypothetical protein
874 AAEL001158 fructose-1 ,6-bisphosphatase
875 AAEL001157 light protein
876 AAEL007171 protein phosphatase 2c
877 AAEL007152 hypothetical protein
878 AAEL007158 nnp-1 protein (novel nuclear protein 1) (nop52)
879 AAEL007162 autophagy related gene
880 AAEL007173 conserved hypothetical protein
881 AAEL007198 Osiris, putative
882 AAEL007221 brain-specific homeobox protein, putative
883 AAEL007229 conserved hypothetical protein
884 AAEL007262 hypothetical protein
885 AAEL007261 conserved hypothetical protein
886 AAEL007270 hypothetical protein
887 AAELO 15464 histone HI, putative
888 AAEL007287 conserved hypothetical protein
889 AAEL007290 conserved hypothetical protein
890 AAEL007308 glycosyltransferase
891 AAEL007298 conserved hypothetical protein
892 AAEL007323 deoxyuridine 5'-triphosphate nucleotidohydrolase
893 AAEL007339 conserved hypothetical protein
894 AAEL007333 hypothetical protein
895 AAEL001201 hypothetical protein
896 AAEL007399 conserved hypothetical protein
897 AAEL007432 serine collagenase 1 precursor, putative
898 AAEL007427 zinc finger protein
899 AAEL007438 dipeptidyl-peptidase
900 AAEL007448 dipeptidyl-peptidase
901 AAELO 17387 hypothetical protein
902 AAEL007445 conserved hypothetical protein
903 AAEL007441 translocon-associated protein, gamma subunit
904 AAEL007447 hypothetical protein
AAEL007457 insect origin recognition complex subunit
AAEL007456 zinc finger protein, putative
AAEL007464 hypothetical protein
AAEL007470 staufen
AAEL007458 amino acid transporter
AAEL007476 makorin
AAEL007484 protein transport protein sec23
AAEL001231 MIND-MELD/ADAM
AAEL001226 conserved hypothetical protein
AAEL007523 peroxisomal nl-acetyl-spermine/spermidine oxidase
AAEL007543 hypothetical protein
AAEL007554 conserved hypothetical protein
AAEL007563 Dual Oxidase: Peroxidase and NADPH-Oxidase domains.
AAEL007581 Rfc5p, putative
AAEL007584 conserved hypothetical protein
AAEL007604 odorant-binding protein 56a, putative
AAEL007612 hypothetical protein
AAEL007611 hypothetical protein
AAEL001240 GPCR Orphan/Putative Class B Family
AAEL007639 conserved hypothetical protein
AAEL007657 low-density lipoprotein receptor (ldl)
AAEL007656 receptor for activated C kinase, putative
AAEL007658 partitioning defective 3, par-3
AAEL007674 conserved hypothetical protein
AAEL007677 phospholysine phosphohistidine inorganic pyrophosphate phosphatase
AAEL007692 conserved hypothetical protein
AAEL007726 hypothetical protein
AAELO 17004 hypothetical protein
933 AAEL007737 hypothetical protein
934 AAEL007757 conserved hypothetical protein
935 AAEL007761 chloride intracellular channel
936 AAEL007769 hypothetical protein
937 AAEL007768 TOLL pathway signaling.
938 AAEL007767 Protein kintoun
939 AAEL001246 Thymidylate kinase, putative
940 AAEL007813 hypothetical protein
941 AAELO 17497 hypothetical protein
942 AAEL007810 conserved hypothetical protein
943 AAEL007819 hypothetical protein
944 AAELO 17434 hypothetical protein
945 AAEL007835 serine/threonine protein kinase
946 AAEL007828 palmitoyl-protein thioesterase
947 AAEL015517 conserved hypothetical protein
948 AAEL007859 conserved hypothetical protein
949 AAEL007862 conserved hypothetical protein
950 AAEL007855 hypothetical protein
951 AAEL007867 hypothetical protein
952 AAEL007870 hypothetical protein
953 AAEL007873 hypothetical protein
954 AAEL007875 hypothetical protein
955 AAEL007907 serine/threonine protein kinase
956 AAEL007899 spermatogenesis associated factor
957 AAEL007896 hypothetical protein
958 AAEL007912 conserved hypothetical protein
959 AAEL007926 retinoid-inducible serine carboxypeptidase (serine carboxypeptidase
960 AAEL007922 conserved hypothetical protein
961 AAEL007921 zinc finger protein
962 AAEL001321 transcription factor dp
963 AAEL001296 hypothetical protein
964 AAEL007932 hypothetical protein
965 AAEL007939 conserved hypothetical protein
966 AAEL007959 conserved hypothetical protein
967 AAEL007977 hypothetical protein
968 AAEL007991 conserved hypothetical protein
969 AAEL007987 SEC63 protein, putative
970 AAEL007997 conserved hypothetical protein
971 AAEL008001 conserved hypothetical protein
972 AAEL008020 sorting nexin
973 AAEL017171 hypothetical protein
974 AAEL008043 PNR-like nuclear receptor
975 AAEL008041 bleomycin hydrolase
976 AAEL008050 hypothetical protein
977 AAEL008074 hypothetical protein
978 AAEL008057 myosin light chain kinase
979 AAEL008065 hypothetical protein
980 AAEL000208 copii-coated vesicle membrane protein P24
981 AAEL000186 conserved hypothetical protein
982 AAEL000193 histone -lysine n-methyltransferase
983 AAEL000185 eukaryotic translation initiation factor
984 AAEL001327 conserved hypothetical protein
985 AAEL001348 conserved hypothetical protein
986 AAEL001357 hypothetical protein
987 AAELO 17348 hypothetical protein
988 AAEL008088 conserved hypothetical protein
989 AAEL017518 hypothetical protein
990 AAEL008101 hypothetical protein
991 AAEL008099 procollagen-lysine,2-oxoglutarate 5-dioxygenase
992 AAEL008126 GPCR Latrophilin Family
993 AAEL008137 hypothetical protein
994 AAEL008150 hypothetical protein
995 AAEL008182 conserved hypothetical protein
996 AAEL008184 conserved hypothetical protein
997 AAEL008183 t complex protein
998 AAEL008185 conserved hypothetical protein
999 AAEL008189 conserved hypothetical protein
1000 AAEL008220 conserved hypothetical protein
1001 AAEL008233 conserved hypothetical protein
1002 AAEL008236 sidestep protein
1003 AAEL008224 hypothetical protein
1004 AAEL008257 heterogeneous nuclear ribonucleoprotein 27c
1005 AAEL008256 cyclin A3, putative
1006 AAEL001372 sentrin/sumo-specific protease senp7
1007 AAEL008261 hypothetical protein
1008 AAEL008320 conserved hypothetical protein
1009 AAEL008322 GPCR Frizzled/Smoothened Family
1010 AAEL008351 POSSIBLE INTEGRAL MEMBRANE EFFLUX PROTEIN EFPA, putative
1011 AAEL008356 hypothetical protein
1012 AAEL008359 hypothetical protein
1013 AAEL015551 conserved hypothetical protein
1014 AAEL001399 conserved hypothetical protein
1015 AAEL001437 conserved hypothetical protein
1016 AAEL001439 mitochondrial ribosomal protein, L22, putative 1017 AAEL008379 P38 mapk
1018 AAEL008387 atrial natriuretic peptide receptor
1019 AAEL008406 cationic amino acid transporter
1020 AAEL008421 cadherin
1021 AAEL017350 hypothetical protein
1022 AAEL008444 conserved hypothetical protein
1023 AAEL008461 surfeit locus protein
1024 AAEL008476 conserved hypothetical protein
1025 AAEL008500 DEAD box ATP-dependent RNA helicase
1026 AAEL008503 hypothetical protein
1027 AAEL001451 DNA repair protein Rad62, putative
1028 AAEL001464 conserved hypothetical protein
1029 AAEL008510 sphingosine kinase a, b
1030 AAEL008511 hypothetical protein
1031 AAEL008555 conserved hypothetical protein
1032 AAEL008522 conserved hypothetical protein
1033 AAEL008544 zinc finger protein, putative
1034 AAEL008537 transcription factor grauzone, putative
1035 AAEL008535 conserved hypothetical protein
1036 AAEL008521 conserved hypothetical protein
1037 AAELO 17089 hypothetical protein
1038 AAEL008533 conserved hypothetical protein
1039 AAEL008547 conserved hypothetical protein
1040 AAEL008526 conserved hypothetical protein
1041 AAEL008570 glycoprotein, putative
1042 AAEL008557 conserved hypothetical protein
1043 AAEL008583 conserved hypothetical protein
1044 AAEL008580 conserved hypothetical protein
1045 AAEL008579 zinc finger protein
1046 AAEL015565 hypothetical protein
1047 AAEL008602 conserved hypothetical protein
1048 AAEL008593 NAD dependent epimerase/dehydratase
1049 AAEL008623 conserved hypothetical protein
1050 AAEL008638 cytochrome P450
1051 AAEL001490 acylphosphatase, putative
1052 AAEL001505 conserved hypothetical protein
1053 AAEL001506 U3 small nucleolar ribonucleoprotein protein mpplO
1054 AAEL001481 hypothetical protein
1055 AAEL015571 conserved hypothetical protein
1056 AAEL008678 conserved hypothetical protein
1057 AAEL008675 hypothetical protein
1058
AAEL008722 hypothetical protein
1059 AAEL008724 conserved hypothetical protein
1060 AAEL008729 hypothetical protein
1061 AAEL008748 hypothetical protein
1062 AAEL008759 hypothetical protein
1063 AAEL008777 proto-oncogene tyrosine-protein kinase abll
1064 AAEL008781 serine -type enodpeptidase,
1065 AAEL008794 conserved hypothetical protein
1066 AAEL008817 hexamerin 2 beta
1067 AAEL008822 conserved hypothetical protein
1068 AAEL008809 pickpocket, putative
1069 AAEL008797 hypothetical protein
1070 AAEL001525 conserved hypothetical protein
1071 AAEL008839 hypothetical protein
1072 AAEL008842 hypothetical protein
1073 AAEL008863 protein regulator of cytokinesis 1 prcl
1074 AAEL008868 conserved hypothetical protein
1075 AAEL008875 conserved hypothetical protein
1076 AAEL008886 conserved hypothetical protein
1077 AAEL008884 hypothetical protein
1078 AAEL008900 pl5-2a protein, putative
1079 AAEL008894 conserved hypothetical protein
1080 AAEL008915 sodium-and chloride-activated ATP-sensitive potassium channel
1081 AAEL008923 ring finger protein
1082 AAEL001545 conserved hypothetical protein
1083 AAEL001585 predicted protein
1084 AAEL001595 conserved hypothetical protein
1085 AAEL001569 conserved hypothetical protein
1086 AAEL001576 conserved hypothetical protein

1115 AAEL009260 conserved hypothetical protein
1116 AAEL009261 hypothetical protein
1117 AAEL009263 conserved hypothetical protein
1118 AAEL009262 hypothetical protein
1119 AAEL009277 hypothetical protein
1120 AAEL009290 hypothetical protein
1121 AAEL009296 histone H3, putative
1122 AAEL009309 lipid depleted protein
1123 AAEL009322 hypothetical protein
1124 AAEL001684 boule protein, putative
1125 AAEL001700 hypothetical protein
1126 AAEL001697 adenylate cyclase, putative
1127 AAEL001703 serine -type enodpeptidase,
1128 AAEL001691 adenylate cyclase
1129 AAEL001693 serine -type enodpeptidase,
1130 AAEL009335 adhesion regulating molecule 1 (110 kda cell membrane glycoprotein)
1131 AAEL009348 conserved hypothetical protein
1132 AAEL009393 conserved hypothetical protein
1133 AAEL009411 DNA-binding protein smubp-2
1134 AAEL009425 hypothetical protein
1135 AAEL009442 hypothetical protein
1136 AAEL015633 conserved hypothetical protein
1137 AAEL009452 hypothetical protein
1138 AAEL009456 hypothetical protein
1139 AAEL009454 conserved hypothetical protein
1140 AAEL009470 conserved hypothetical protein
1141 AAEL009465 replication factor c / DNA polymerase iii gamma-tau subunit
1142 AAEL009463 hypothetical protein
1143 AAEL009484 conserved hypothetical protein
1144 AAEL000224 serine protease
1145 AAEL000223 alpha-glucosidase
1146 AAEL000235 hypothetical protein
1147 AAEL001711 activin receptor type I, putative
1148 AAEL001727 hypothetical protein
1149 AAEL009510 glucosamine -fructose-6-phosphate aminotransferase
1150 AAEL009500 conserved hypothetical protein
1151 AAEL009508 zinc finger protein
1152 AAELO 17066 hypothetical protein
1153 AAEL009518 timeout/timeless-2
1154 AAEL009522 hypothetical protein
1155 AAEL009533 conserved hypothetical protein
1156 AAEL009551 Toll-like receptor
1157 AAEL009576 conserved hypothetical protein
1158 AAEL015640 transcription factor IIIA, putative
1159 AAEL001745 candidate tumor suppressor protein
1160 AAEL001734 bric-a-brac
1161 AAEL009586 hypothetical protein
1162 AAEL009600 Ecdysone receptor isoform A Nuclear receptor
1163 AAEL009602 conserved hypothetical protein
1164 AAEL009646 conserved hypothetical protein
1165 AAEL009667 conserved hypothetical protein
1166 AAELO 17306 hypothetical protein
1167 AAEL001781 origin recognition complex subunit
1168 AAEL001785 origin recognition complex subunit
1169 AAEL001788 hypothetical protein
1170 AAEL009710 adhesion regulating molecule 1 (110 kda cell membrane glycoprotein)
1171 AAEL009709 hypothetical protein
1172 AAEL009727 conserved hypothetical protein
1173 AAEL009716 hypothetical protein
1174 AAEL009729 conserved hypothetical protein
1175 AAEL009739 cbl-d
1176 AAEL009742 Homeobox protein abdominal-A homolog
1177 AAEL009755 conserved hypothetical protein
1178 AAEL009753 sodium-dependent phosphate transporter
1179 AAEL009773 geminin, putative
1180 AAEL009772 conserved hypothetical protein
1181 AAEL009770 ubiquitin-conjugating enzyme E2 i
1182 AAEL009798 transcription factor IIIA, putative
1183 AAEL009799 hypothetical protein
1184 AAEL001809 conserved hypothetical protein
1185 AAELO 17094 hypothetical protein
1186 AAEL001795 orfY, putative
1187 AAEL009854 conserved hypothetical protein
1188 AAEL009834 hypothetical protein
1189 AAEL009842 galectin
1190 AAEL009845 galectin
1191 AAEL009836 conserved hypothetical protein
1192 AAEL009861 conserved hypothetical protein
1193 AAEL009896 hypothetical protein
1194 AAEL009894 leucine -rich immune protein (Coil-less)
1195 AAEL009886 kidney-specific Na-K-Cl cotransport protein splice isoform A, putative
1196 AAEL009918 conserved hypothetical protein
1197 AAEL009912 conserved hypothetical protein
1198 AAEL009935 conserved hypothetical protein

conserve ypot etca proten 1227 AAEL010112 conserved hypothetical protein
1228 AAELO 10097 conserved hypothetical protein
1229 AAEL010113 conserved hypothetical protein
1230 AAEL010109 conserved hypothetical protein
1231 AAEL010117 fibrinogen and fibronectin
1232 AAEL010118 kelch repeat protein
1233 AAEL010136 hypothetical protein
1234 AAEL010155 hypothetical protein
1235 AAEL010176 conserved hypothetical protein
1236 AAEL010189 Band 7 protein AAEL010189
1237 AAEL001927 hypothetical protein
1238 AAEL001917 ribosome biogenesis protein brix
1239 AAEL001939 hypothetical protein
1240 AAEL001933 membrane associated ring finger 1,8
1241 AAEL010194 hypothetical protein
1242 AAELO 10242 conserved hypothetical protein
1243 AAELO 10226 daughterless
1244 AAELO 10229 hypothetical protein
1245 AAEL010253 conserved hypothetical protein
AAELO 10244
1246 abrupt protein
1247 AAELO 10246 conserved hypothetical protein
1248 AAELO 10249 conserved hypothetical protein
1249 AAELO 10290 short-chain dehydrogenase
1250 AAELO 10289 beta nu integrin subunit
1251 AAELO 10292 conserved hypothetical protein
1252 AAELO 10294 membrane-associated guanylate kinase (maguk)
1253 AAEL015673 nucleolar complex protein
1254 AAEL002032 hypothetical protein
1255 AAEL002033 hypothetical protein
1256 AAEL002010 conserved hypothetical protein
1257 AAEL001972 TATA box binding protein (TBP)-associated factor,, putative
1258 AAEL002006 conserved hypothetical protein
1259 AAEL010311 conserved hypothetical protein
1260 AAEL010318 polyadenylate-binding protein
1261 AAELO 10309 hypothetical protein
1262 AAEL010319 heat shock transcription factor (hsf)
1263 AAELO 10343 aryl hydrocarbon receptor nuclear translocator (arnt protein)
(hypoxia-inducible factor 1 beta)
1264 AAEL017368 hypothetical protein
1265 AAEL010378 conserved hypothetical protein
1266 AAELO 10381 glucosyl/glucuronosyl transferases
1267 AAELO 10370 aldehyde oxidase
1268 AAELO 10420 hypothetical protein
1269 AAELO 10422 replication-associated histone mRNA stem loop-binding protein, putative
1270 AAELO 10417 conserved hypothetical protein
1271 AAELO 10434 Vitellogenin- A 1 Precursor (VG)(PVG1) [Contains Vitellin light chain(VL);Vitellin heavy chain(VH)]
1272 AAELO 10437 heparan n-sulfatase
1273 AAELO 10447 hypothetical protein
1274 AAELO 10446 protein phosphatase 2c
1275 AAELO 10454 hypothetical protein
1276 AAELO 10473 NAD dependent epimerase/dehydratase
1277 AAEL002079 TATA binding protein, putative
1278 AAEL002054 hypothetical protein
1279 AAEL002058 hypothetical protein
1280 AAEL002063 cationic amino acid transporter
1281 AAELO 10501 zinc finger protein
1282 AAELO 10490 hypothetical protein
1283 AAELO 10495 hypothetical protein
1284 AAELO 10509 bridging integrator
1285 AAELO 10503 hypothetical protein
1286 AAELO 10507 hypothetical protein
1287 AAELO 10510 conserved hypothetical protein
1288 AAEL010538 conserved hypothetical protein
1289 AAELO 10546 heat shock factor binding protein, putative
1290 AAEL010562 hypothetical protein
1291 AAELO 10587 conserved hypothetical protein
1292 AAELO 10588 striatin, putative
1293 AAEL010578 mixed-lineage leukemia protein, mil
1294 AAEL002128 serine protease
1295 AAELO 10631 conserved hypothetical protein
1296 AAELO 10623 conserved hypothetical protein
1297 AAELO 10627 conserved hypothetical protein
1298 AAELO 10638 histone HI, putative
1299 AAELO 10644 ribonucleoside-diphosphate reductase large chain
1300 AAELO 10664 actin binding protein, putative
1301 AAELO 10670 lethal(2)essential for life protein, 12efl
1302 AAELO 10679 monocyte to macrophage differentiation protein
1303 AAELO 10665 developmentally regulated RNA -binding protein
1304 AAELO 10674 hypothetical protein
1305 AAELO 10660 alpha-B-crystallin, putative
1306 AAEL017191 hypothetical protein
1307 AAELO 10692 OCP-II protein, putative
1308 AAELO 10708 hypothetical protein
1309 AAELO 10709 hypothetical protein
1310 AAEL000289 conserved hypothetical protein
1311 AAEL000272 conserved hypothetical protein
conserved hypothetical protein
1312 AAEL000260
1313 AAEL002136 hypothetical protein
1314 AAELO 17571 hypothetical protein
1315 AAEL010715 hypothetical protein
1316 AAEL017338 hypothetical protein
1317 AAEL010755 hypothetical protein
1318 AAELO 10748 hypothetical protein
1319 AAELO 10766 inositol triphosphate 3 -kinase c
1320 AAEL010784 conserved hypothetical protein
1321 AAEL002184 F-actin capping protein beta subunit
1322 AAEL002181 cuticle protein, putative
1323 AAEL002219 zinc finger protein, putative
1324 AAELO 10829 protein arginine n-methyltransferase
1325 AAELO 10808 conserved hypothetical protein
1326 AAELO 10827 programmed cell death protein 11 (pre-rRNA processing protein rrp5)
1327 AAELO 10841 lupus la ribonucleoprotein
1328 AAEL010855 cdc6
1329 AAELO 10877 conserved hypothetical protein
1330 AAELO 10901 mannose binding lectin, putative
1331 AAELO 10904 rothmund-thomson syndrome DNA helicase recq4
1332 AAELO 10907 conserved hypothetical protein
1333 AAELO 10908 hypothetical protein
1334 AAELO 10912 dipeptidyl-peptidase
1335 AAEL002250 terminal deoxycytidyl transferase revl
1336 AAELO 10930 1-asparaginase
1337 AAELO 10945 conserved hypothetical protein
1338 AAELO 10965 cubulin
1339 AAEL002303 conserved hypothetical protein
1340 AAEL002319 hypothetical protein
1341 AAEL002320 hypothetical protein
1342 AAEL002307 leucine -rich transmembrane protein
1343 AAELO 11003 hypothetical protein
1344 AAEL011013 single-minded
1345 AAELO 11043 conserved hypothetical protein
1346 AAELO 11062 hypothetical protein
1347 AAEL002332 hypothetical protein
1348 AAEL002354 heme peroxidase
1349 AAEL011085 conserved hypothetical protein
1350 AAEL011124 PHD finger protein
1351 AAEL011138 hypothetical protein
1352 AAEL011145 ribosomal protein S6 kinase, 90kD, polypeptide
1353 AAEL011161 conserved hypothetical protein
1354 AAEL011173 conserved hypothetical protein
1355 AAEL011172 conserved hypothetical protein
1356 AAEL011175 alkaline phosphatase
1357 AAEL011176 hypothetical protein
1358 AAEL011178 posterior sex combs protein
1359 AAEL002403 hypothetical protein
1360 AAEL002376 hypothetical protein
1361 AAEL002375 NBP2b protein, putative
1362 AAEL011199 conserved hypothetical protein
1363 AAEL011215 F-box and WD40 domain protein 7 (fbw7)
1364 AAEL002423 conserved hypothetical protein
1365 AAEL002417 troponin t, invertebrate
1366 AAEL002429 hypothetical protein
1367 AAELO 11248 innexin
1368 AAEL011253 rho-GTPase-activating protein
1369 AAELO 11264 phosphatidylethanolamine-binding protein
1370 AAELO 11276 mitochondrial glutamate carrier protein
1371 AAELO 11280 voltage -dependent p/q type calcium channel
1372 AAELO 11291 protease ml zinc metalloprotease
1373 AAEL011298 hypothetical protein
1374 AAELO 11303 cell division protein ftsj
1375 AAEL011313 epoxide hydrolase
1376 AAEL011330 conserved hypothetical protein
1377 AAELO 11326 conserved hypothetical protein
1378 AAEL002453 conserved hypothetical protein
1379 AAEL002442 conserved hypothetical protein
1380 AAEL002443 conserved hypothetical protein
1381 AAEL002454 conserved hypothetical protein
1382 AAEL011358 origin recognition complex subunit
1383 AAEL011357 maintenance of killer 16 (makl6) protein
1384 AAEL011362 hypothetical protein
1385 AAELO 11400 conserved hypothetical protein
1386 AAELO 11422 conserved hypothetical protein
1387 AAEL002473 hypothetical protein
1388 AAEL002462 hypothetical protein
1389 AAEL002477 hypothetical protein
1390 AAELO 17575 hypothetical protein
1391 AAELO 11473 chromatin regulatory protein sir2
1392 AAEL011498 copper-zinc (Cu-Zn) superoxide dismutase
1393 AAELO 11496 chitinase
1394 AAELO 16971 hypothetical protein
1395 AAEL011516 conserved hypothetical protein
1396 AAEL011515 hypothetical protein
1397 AAELO 11520 sucrose transport protein
1398 AAEL011536 phosphoglucomutase
1399 AAELO 11527 eukaryotic translation initiation factor
1400 AAEL011533 hypothetical protein
1401 AAEL011532 hypothetical protein
1402 AAEL011537 hypothetical protein
1403 AAEL002529 conserved hypothetical protein
1404 AAEL002503 yippee protein
1405 AAEL002522 adenosine deaminase acting on RNA (adar)-2
1406 AAEL002497 hypothetical protein
1407 AAEL011586 hypothetical protein
1408 AAELO 11592 secreted mucin MUC17, putative
1409 AAEL011598 hypothetical protein
1410 AAELO 11596 mitotic checkpoint serine/threonine-protein kinase bubl and bubrl
1411 AAELO 11597 conserved hypothetical protein
1412 AAEL011615 rab gdp/GTP exchange factor
1413 AAEL011633 fibrinogen and fibronectin
1414 AAELO 11631 hypothetical protein
1415 AAELO 11640 hypothetical protein
1416 AAEL011635 conserved hypothetical protein
1417 AAELO 11648 cyclin d
1418 AAEL011655 aspartyl-tRNA synthetase
1419 AAELO 11664 conserved hypothetical protein
1420 AAEL011653 thyroid hormone receptor interactor
1421 AAEL000322 hypothetical protein
1422 AAEL000352 hypothetical protein
1423 AAELO 17203 hypothetical protein
1424 AAEL000356 cysteine-rich venom protein, putative
1425 AAEL000302 cysteine-rich venom protein, putative
1426 AAEL000375 cysteine-rich venom protein, putative
1427 AAEL000317 cysteine-rich venom protein, putative
1428 AAEL000348 conserved hypothetical protein
1429 AAEL000327 Ecdysone-induced protein 78C Nuclear receptor
1430 AAEL000324 tyrosine -protein kinase drl
1431 AAEL002557 cationic amino acid transporter
1432 AAEL002541 cystinosin
1433 AAEL002569 serine/threonine kinase
1434 AAELO 11696 conserved hypothetical protein
1435 AAEL011686 starch branching enzyme ii
1436 AAELO 11695 guanine nucleotide exchange factor
1437 AAEL011712 diacylglycerol kinase, alpha, beta, gamma
1438 AAELO 11726 hypothetical protein
1439 AAEL011735 conserved hypothetical protein
1440 AAELO 11743 hypothetical protein
1441 AAELO 11754 conserved hypothetical protein
1442 AAELO 11765 conserved hypothetical protein
1443 AAELO 11767 hypothetical protein
1444 AAELO 11761 cytochrome P450
1445 AAELO 11769 cytochrome P450
1446 AAEL011780 DNA mismatch repair protein muts
1447 AAELO 11809 glucose dehydrogenase
1448 AAEL011811 DNA replication licensing factor MCM3
1449 AAEL002652 hypothetical protein
1450 AAEL002635 conserved hypothetical protein
1451 AAELO 11846 hypothetical protein
1452 AAEL011852 hypothetical protein
1453 AAEL011859 conserved hypothetical protein
1454 AAEL011862 conserved hypothetical protein
1455 AAEL011868 conserved hypothetical protein
1456 AAELO 11870 rap55
AAELO 11875
1457 conserved hypothetical protein
1458 AAELO 11872 conserved hypothetical protein
1459 AAELO 11892 receptor for activated C kinase, putative
1460 AAELO 11895 odorant receptor
1461 AAELO 17451 hypothetical protein
1462 AAEL017179 hypothetical protein
1463 AAELO 17200 hypothetical protein
1464 AAELO 11958 conserved hypothetical protein
1465 AAELO 11979 calmodulin
1466 AAEL017253 hypothetical protein
1467 AAEL002690 beat protein
1468 AAEL002681 Vanin-like protein 1 precursor, putative
1469 AAEL011989 signal peptide peptidase
1470 AAELO 12014 1-lactate dehydrogenase
1471 AAELO 12020 conserved hypothetical protein
1472 AAELO 12013 hypothetical protein
1473 AAELO 12015 DEAD box ATP-dependent RNA helicase
1474 AAELO 12012 conserved hypothetical protein
1475 AAELO 12032 hypothetical protein
1476 AAELO 12028 proacrosin, putative
1477 AAELO 12030 preproacrosin, putative
1478 AAELO 12041 sulphate transporter
1479 AAEL012055 dfglO protein
1480 AAELO 12057 enhancer of polycomb
1481 AAEL002719 conserved hypothetical protein
1482 AAEL002700 conserved hypothetical protein
1483 AAEL012130 ordml, arthropod
1484 AAEL012142 timeout/timeless-2
1485 AAEL012137 conserved hypothetical protein
1486 AAEL012141 odorant receptor
1487 AAEL012155 conserved hypothetical protein
1488 AAEL012164 spaetzle-like cytokine
1489 AAELO 12209 ring finger protein
1490 AAELO 17392 hypothetical protein
1491 AAELO 12214 hypothetical protein
1492 AAELO 12273 conserved hypothetical protein
1493 AAELO 12279 Eukaryotic translation initiation factor 3 subunit J (eIF3j)
1494 AAELO 12288 sugar transporter
1495 AAELO 12295 conserved hypothetical protein
1496 AAELO 12293 conserved hypothetical protein
1497 AAELO 12300 conserved hypothetical protein
1498 AAELO 12312 proliferation-associated 2g4 (pa2g4/ebpl)
1499 AAELO 12314 conserved hypothetical protein
1500 AAEL002793 conserved hypothetical protein
1501 AAEL002785 DNA polymerase epsilon subunit b
1502 AAEL002811 conserved hypothetical protein
1503 AAEL002814 hypothetical protein
1504 AAEL002810 DNA replication licensing factor MCM5
1505 AAEL002774 slender lobes, putative
1506 AAEL012378 serine -type protease inhibitor
1507 AAELO 12392 conserved hypothetical protein
1508 AAEL012388 predicted protein
1509 AAEL002843 conserved hypothetical protein
1510 AAEL002836 carbon catabolite repressor protein
1511 AAEL002848 tubulin beta chain
1512 AAEL002849 zinc finger protein, putative
1513 AAELO 12418 deoxyribonuclease ii
1514 AAELO 12427 conserved hypothetical protein
1515 AAELO 12430 AMP dependent ligase
1516 AAELO 12437 hypothetical protein
1517 AAELO 12441 conserved hypothetical protein
1518 AAELO 12458 hypothetical protein
1519 AAELO 12461 monocarboxylate transporter
1520 AAEL012455 alcohol dehydrogenase
1521 AAEL000402 conserved hypothetical protein
1522 AAEL002867 phenylalanyl-tRNA synthetase alpha chain
1523 AAEL002856 conserved hypothetical protein
1524 AAEL002863 zinc finger protein
1525 AAEL002855 hypothetical protein
1526 AAEL002882 conserved hypothetical protein
1527 AAEL002872 cytochrome P450
1528 AAELO 12473 vavl
1529 AAELO 12480 sodium/calcium exchanger
1530 AAELO 12499 histone H2A
1531 AAELO 12504 hypothetical protein
1532 AAELO 12526 hypothetical protein
1533 AAELO 12527 conserved hypothetical protein
1534 AAELO 12546 DNA replication licensing factor MCM6
1535 AAEL002889 hypothetical protein
1536 AAEL002884 hypothetical protein
1537 AAEL002905 conserved hypothetical protein
1538 AAEL012566 conserved hypothetical protein
conserved hypothetical protein
1539 AAEL012586
1540 AAELO 12600 hypothetical protein
1541 AAELO 12610 conserved hypothetical protein
1542 AAELO 12618 conserved hypothetical protein
1543 AAELO 12629 deoxyuridine 5'-triphosphate nucleotidohydrolase
1544 AAEL002932 conserved hypothetical protein
1545 AAEL002942 hypothetical protein
1546 AAEL002947 AMP dependent ligase
1547 AAELO 12644 conserved hypothetical protein
1548 AAELO 12647 conserved hypothetical protein
1549 AAELO 12650 conserved hypothetical protein
1550 AAELO 12658 rgs-gaip interacting protein gipc
1551 AAEL012684 conserved hypothetical protein
1552 AAEL012682 hypothetical protein
1553 AAELO 12676 conserved hypothetical protein
1554 AAELO 12708 conserved hypothetical protein
1555 AAELO 12714 hypothetical protein
1556 AAELO 17254 hypothetical protein
1557 AAEL002949 Osiris, putative
1558 AAEL002958 conserved hypothetical protein
1559 AAEL002991 hypothetical protein
1560 AAEL003003 glutamate-gated chloride channel
1561 AAEL002989 hypothetical protein
1562 AAEL012811 mitochondrial peptide chain release factor
1563 AAEL012810 conserved hypothetical protein
1564 AAELO 12802 conserved hypothetical protein
1565 AAEL012812 exosome complex exonuclease RRP41, putative
1566 AAEL012830 anti-silencing protein
1567 AAEL012832 cytochrome B 561
1568 AAEL012836 cytochrome B 561
1569 AAEL012838 conserved hypothetical protein
1570 AAELO 12876 conserved hypothetical protein
1571 AAELO 12875 snare protein sec22
1572 AAEL003058 glucosyl/glucuronosyl transferases
1573 AAEL003051 conserved hypothetical protein
1574 AAELO 12927 hypothetical protein
1575 AAELO 12927 hypothetical protein
1576 AAELO 12960 importin alpha
1577 AAELO 12979 conserved hypothetical protein
1578 AAELO 17272 GPCR Serotonin Family
1579 AAELO 12996 rho guanine dissociation factor
1580 AAELO 13004 conserved hypothetical protein
1581 AAELO 13024 hypothetical protein
1582 AAEL003112 conserved hypothetical protein
1583 AAEL013036 conserved hypothetical protein
1584 AAELO 13037 conserved hypothetical protein
1585 AAELO 13038 hypothetical protein
1586 AAELO 13051 conserved hypothetical protein
1587 AAELO 13054 conserved hypothetical protein
1588 AAELO 13045 exosome complex exonuclease RRP41, putative
1589 AAEL013078 glycosyltransferase
1590 AAELO 13091 hypothetical protein
1591 AAELO 17424 hypothetical protein
1592 AAEL003130 bcr-associated protein, bap
1593 AAEL013112 Peptidoglycan Recognition Protein (Long)
1594 AAEL013110 conserved hypothetical protein
1595 AAEL013149 conserved hypothetical protein
1596 AAEL013156 hypothetical protein
1597 AAEL013148 predicted protein
1598 AAEL013154 hypothetical protein
1599 AAEL013160 GPCR Frizzled/Smoothened Family
1600 AAEL013168 arrowhead
1601 AAEL000470 hypothetical protein
1602 AAEL000426 hypothetical protein
1603 AAEL003172 transcription factor IIIA, putative
1604 AAEL003158 conserved hypothetical protein
1605 AAEL003168 hypothetical protein
1606 AAEL013174 conserved hypothetical protein
1607 AAEL013179 8-oxoguanine DNA glycosylase
1608 AAEL013190 gustatory receptor Gr22
1609 AAELO 13212 prefoldin, subunit, putative
1610 AAELO 13216 conserved hypothetical protein
1611 AAELO 13226 conserved hypothetical protein
1612 AAEL003186 hypothetical protein
1613 AAEL003207 hypothetical protein
1614 AAELO 13240 conserved hypothetical protein
1615 AAELO 13248 hypothetical protein
1616 AAELO 13252 hypothetical protein
1617 AAELO 13249 hypothetical protein
1618 AAELO 13251 hypothetical protein
1619 AAELO 13291 conserved hypothetical protein
1620 AAELO 13288 conserved hypothetical protein
1621 AAEL013285 hypothetical protein
tetraspanin 29fa
1622 AAEL003210
1623 AAEL003214 salivary gland growth factor
1624 AAEL003267 hypothetical protein
1625 AAEL013311 hypothetical protein
1626 AAEL013312 dual-specificity protein phosphatase, putative
1627 AAEL013325 conserved hypothetical protein
1628 AAEL013344 lethal(2)essential for life protein, 12efl
1629 AAEL013338 lethal(2)essential for life protein, 12efl
1630 AAEL003312 hypothetical protein
1631 AAEL003321 hypothetical protein
1632 AAEL003285 translocation associated membrane protein
1633 AAELO 13400 DEAD box ATP-dependent RNA helicase
1634 AAELO 17652 18S_rRNA
1635 AAEL003355 conserved hypothetical protein
1636 AAEL003343 hypothetical protein
1637 AAEL003346 heparan sulphate 2-o-sulfotransferase
1638 AAEL003327 zinc finger protein
1639 AAELO 13412 conserved hypothetical protein
1640 AAEL013453 sarcolemmal associated protein, putative
1641 AAELO 13463 nucleolar protein 10
1642 AAELO 17276 hypothetical protein
1643 AAEL003377 signal recognition particle
1644 AAEL003382 Ro ribonucleoprotein autoantigen, putative
1645 AAELO 13465 conserved hypothetical protein
1646 AAELO 13471 hypothetical protein
1647 AAELO 13490 conserved hypothetical protein
1648 AAEL003435 conserved hypothetical protein
1649 AAEL003404 hypothetical protein
1650 AAEL013510 smaug protein
1651 AAEL013521 tryptophanyl-tRNA synthetase
1652 AAEL013539 SH2/SH3 adaptor protein
1653 AAEL013546 estrogen-related receptor (ERR)
1654 AAEL013562 zinc finger protein, putative
1655 AAEL003454 phocein protein, putative
1656 AAEL013564 conserved hypothetical protein
1657 AAEL013569 conserved hypothetical protein
1658 AAEL013593 hypothetical protein
1659 AAEL003494 goodpasture antigen-binding protein
1660 AAEL003493 GDI interacting protein, putative
1661 AAEL003502 hypothetical protein
1662 AAEL003507 Toll-like receptor
1663 AAEL013601 short-chain dehydrogenase
1664 AAEL013608 sugar transporter
1665 AAEL013616 hypothetical protein
1666 AAEL013635 conserved hypothetical protein
1667 AAEL003544 conserved hypothetical protein
1668 AAEL017367 hypothetical protein
1669 AAEL003542 conserved hypothetical protein
1670 AAEL003547 hypothetical protein
1671 AAEL013653 tata-box binding protein
1672 AAELO 17342 hypothetical protein
1673 AAEL013690 DNA mismatch repair protein pms2 1674 AAEL000487 hypothetical protein
1675 AAEL000500 conserved hypothetical protein
1676 AAEL003554 leucine rich repeat protein
1677 AAELO 13701 meiotic recombination protein spol 1
1678 AAELO 13724 conserved hypothetical protein
1679 AAELO 13726 epsin 4/enthoprotin
1680 AAEL017141 hypothetical protein
1681 AAEL013733 Protein distal antenna
1682 AAELO 13734 hypothetical protein
1683 AAELO 13738 hypothetical protein
1684 AAEL003574 hypothetical protein
1685 AAEL003571 factor for adipocyte differentiation
1686 AAELO 13761 ADP-ribosylation factor, arf
1687 AAEL013778 F-actin capping protein alpha
1688 AAEL013784 hypothetical protein
1689 AAEL017560 hypothetical protein
1690 AAEL003595 protein serine/threonine kinase, putative
1691 AAEL013789 conserved hypothetical protein
1692 AAELO 13796 conserved hypothetical protein
1693 AAELO 13799 hypothetical protein
1694 AAELO 13805 conserved hypothetical protein
1695 AAELO 13806 conserved hypothetical protein
1696 AAELO 13809 conserved hypothetical protein
1697 AAEL013813 conserved hypothetical protein
1698 AAEL013830 bmp-induced factor
1699 AAEL013832 Homeobox protein abdominal-A homolog
1700 AAEL013838 hypothetical protein
1701 AAEL003646 conserved hypothetical protein
1702 AAEL003663 hypothetical protein
1703 AAEL003688 conserved hypothetical protein
1704 AAEL015684 hypothetical protein
1705 AAEL003657 zinc finger protein
1706 AAEL013852 conserved hypothetical protein
1707 AAEL013850 conserved hypothetical protein
1708 AAEL013860 hypothetical protein
1709 AAEL013872 hypothetical protein
1710 AAEL013896 smad4
1711 AAEL003767 hypothetical protein
1712 AAELO 13940 chromatin assembly factor i P60 subunit
1713 AAEL013955 conserved hypothetical protein
1714 AAEL003797 hypothetical protein
1715 AAEL003804 conserved hypothetical protein
1716 AAEL003775 hypothetical protein
1717 AAEL003793 hypothetical protein
1718 AAEL003791 conserved hypothetical protein
1719 AAEL003792 conserved hypothetical protein
1720 AAEL003807 conserved hypothetical protein
1721 AAELO 13958 NBP2b protein, putative
1722 AAEL013968 conserved hypothetical protein
1723 AAELO 13965 conserved hypothetical protein
1724 AAELO 13975 transcription factor IIIA, putative
1725 AAEL013989 protein translocation complex beta subunit, putative
1726 AAEL013998 conserved hypothetical protein
1727 AAELO 14001 yellow protein precursor, putative
1728 AAEL003817 kappa b-ras
1729 AAEL003824 conserved hypothetical protein
1730 AAEL003861 bmp-induced factor
1731 AAELO 14020 hypothetical protein
1732 AAELO 14025 cell division cycle 20 (cdc20) (fizzy)
1733 AAEL014033 conserved hypothetical protein
1734 AAEL014036 hypothetical protein
1735 AAELO 14047 hypothetical protein
1736 AAEL014055 thymidine kinase
1737 AAEL014583 60S acidic ribosomal protein P2
1738 AAEL005722 60S ribosomal protein L7a
1739 AAELO 17931 Ul spliceosomal RNA
1740 AAELO 17646 Ul spliceosomal RNA
1741 AAEL005266 40S ribosomal protein S14
1742 AAEL004175 40S ribosomal protein S17
1743 AAEL014562 60S ribosomal protein L12
1744 AAEL006785 60S ribosomal protein LI 8a
1745 AAEL007715 60S ribosomal protein L21
1746 AAEL007771 60S ribosomal protein L22
1747 AAEL005817 60S ribosomal protein L26
1748 AAEL006698 60S ribosomal protein L31
1749 AAEL003942 60S ribosomal protein L44 L41
1750 AAEL000987 60S ribosomal protein L8
1751 AAEL007699 60S ribosomal protein L9
1752 AAEL006511 anopheles stephensi ubiquitin
1753 AAEL007698 AUB
1754 AAEL005097 cold induced protein (BnC24A)
1755 AAEL004851
1756 AAELO 11424 histone H3
1757 AAEL000529 hypothetical protein
1758 AAEL004060 hypothetical protein
1759 AAEL004151 hypothetical protein
1760 AAEL004249 hypothetical protein
1761 AAEL004503 hypothetical protein
1762 AAEL005451 hypothetical protein
1763 AAEL001274 hypothetical protein
1764 AAEL000766
1765 AAEL008969
1766 AAEL008994
1767
AAEL009151
1768 AAEL009185
1769 AAEL017468
1770 AAEL009188
1771 AAEL009201
1772 AAEL001673
1773 AAEL009341
1774 AAEL009403
1775 AAEL009496
1776 AAEL009825
1777 AAELO 17413
1778 AAELO 10299
1779 AAEL002047
1780 AAELO 10573
1781 AAEL002372
1782 AAELO 17231
1783 AAELO 11447
1784 AAELO 11471
1785 AAELO 11504
1786 AAEL011587
1787 AAEL011656
1788 AAEL002639
1789 AAEL002832
1790 AAEL002881
1791 AAELO 12944
1792 AAELO 13221
1793 AAELO 13272
1794 AAEL003396
1795 AAEL013533 1796 AAEL013536
1797 AAEL003582
1798 AAEL005027
1799 AAEL017536
1800 AAEL008353
1801 AAEL017198
1802 AAELO 16995
1803 AAELO 17590 Ref Transcript AaegL3.1_AAEL017868-RA
1804 AAEL017868 Ref Transcript AaegL3.1_AAEL017868-RA
1805 AAEL005629 ribosomal protein L35
1806 AAEL000010 ribosomal protein L36
1807 AAEL004325 ribosomal protein L5
1808 AAEL000068 ribosomal protein S25
1809 AAEL007824 ribosomal protein S29
1810 AAEL008297 Sodium channel
1811 AAELO 16638 tRNA
1812 AAEL017826 Ul spliceosomal RNA
1813 AAELO 17609 Ul spliceosomal RNA
1826 AAELO 10379 P-glycoprotein (PgP)
1827 AAEL007823 Argonaute-3
1828 JF924909.1 Cytochrome p450 (CYP9J26)
Table 2B, cont.
Table 3 (male sterility)
WHAT IS CLAIMED IS:
1. A composition-of-matter for mosquito control, comprising a cell comprising an exogenous naked dsRNA which specifically down-regulates expression of a gene being endogenous to a mosquito or which specifically down-regulated expression of a gene being endogenous to a mosquito pathogen.
2. A composition-of-matter for mosquito control, comprising a cell comprising a nucleic acid larvicide.
3. A composition-of-matter for mosquito control, comprising a cell comprising a nucleic acid larvicide affecting fertility or fecundity of a female mosquito.
4. A composition-of-matter for mosquito control comprising a nucleic acid larvicide that targets a piRNA pathway gene and/or a sterility gene.
5. A composition-of-matter for mosquito control comprising a nucleic acid larvicide that targets a gene comprising Aub (AAEL007698) and Argonaute-3 (AAEL007823).
6. The composition-of-matter of claim 4 or 5, wherein said nucleic acid larvicide comprises at least one dsRNA.
7. The composition-of-matter of claim 6, comprising a dsRNA which comprises SEQ ID NO: 1858 and a dsRNA which comprises SEQ ID NO: 1823.
8. A method of producing a larvicidal composition, the method comprising introducing into a cell a nucleic acid larvicide, thereby producing the larvicide.
9. A method of producing a larvicidal composition, the method comprising introducing into a cell a nucleic acid larvicide affecting fertility or fecundity of a female mosquito, thereby producing the larvicide.
10. The method of claim 8 or 9, wherein said introducing is effected by electroporation.
11. The method of claim 8 or 9, wherein said introducing is effected by particle bombardment.
12. The method of claim 8 or 9, wherein said introducing is effected by chemical-based transfection.
13. The composition-of-matter of claim 2 or method of claim 8, wherein said nucleic acid larvicide down-regulates a target gene selected from the group consisting of:
(i) affecting larval survival;
(ii) interfering with metamorphosis of larval stage to adulthood;
(iii) affecting susceptibility of mosquito larvae to a larvicide;
(iv) affecting susceptibility of an adult mosquito to an adulticide/insecticide; and
(v) affecting fertility or fecundity of a male or female mosquito.
14. The composition-of-matter of claim 13, wherein said target gene is selected from the group consisting of 1-427, 430-1813, 1826-1832.
15. The composition-of-matter of claim 13, wherein said target gene is selected from the group consisting of P-glycoprotein (AAEL010379), Argonaute-3 (AAEL007823), Cytochrome p450 (CYP9J26), Sodium channel (AAEL008297), Aub (AAEL007698), AeSCP-2 (AF510492.1), AeAct-4 (A Y531222.2), AAEL002000, AAEL005747, AAEL005656, AAEL017015, AAEL005212, AAEL005922, AAEL000903 and AAEL005049.
16. The composition-of-matter of claim 13, wherein said target gene comprises Aub (AAEL007698) and Argonaute-3 (AAEL007823).
17. The composition-of-matter of claim 16, wherein said nucleic acid larvicide which down-regulates said target gene is a dsRNA.
18. The composition-of-matter of claim 17, wherein said dsRNA comprises SEQ ID NOs: 1858 and 1823.
19. The composition-of-matter of any one of claims 1-3, or method of claim 8-9, wherein said cell is an algal cell.
20. The composition-of-matter of any one of claims 1-3, or method of claim 8-9, wherein said cell is a microbial cell.
21. The composition-of-matter or method of claim 20, wherein said cell is a bacterial cell.
22. The composition-of-matter or method of any one of claims 1-21, wherein the composition further comprises a food-bait.
23. The composition-of-matter or method of any one of claims 1-22, wherein the composition is formulated in a formulation selected from the group consisting of technical powder, wettable powder, dust, pellet, briquette, tablet and granule.
24. The composition-of-matter or method of claim 23, wherein said granule is selected from the group consisting of an impregnated granule, dry flowable, wettable granule and water dispersible granule.
25. The composition-of-matter or method of any one of claims 1-22, wherein the composition is formulated as a non-aqueous or aqueous suspension concentrate.
26. The composition-of-matter or method of any one of claims 1-22, wherein the composition is formulated as a semi-solid form.
27. The composition-of-matter or method of claim 26, wherein said semisolid form comprises an agarose.
28. The composition-of-matter or method of any one of claims 1-26, wherein the cell is lyophilized.
29. The composition-of-matter or method of any one of claims 1-28, wherein the cell is non-transgenic.
30. The composition-of-matter or method of any one of claims 1-28 further comprising an RNA-binding protein.
31. The composition-of-matter or method of any one of claims 2-29, wherein said nucleic acid larvicide comprises a dsRNA.
32. The composition-of-matter or method of claim 31, wherein said dsRNA is a naked dsRNA.
33. The composition-of-matter or method of claim 31, wherein said dsRNA comprises a carrier.
34. The composition-of-matter or method of claim 33, wherein said carrier comprises a polyethyleneimine (PEI).
35. The composition-of-matter or method of claim 31, wherein said dsRNA is effected at a dose of 0.001-1 μg/μL for soaking or at a dose of 1 pg to 10 μg/larvae for feeding.
36. The composition-of-matter or method of any one of claims 31-35, wherein said dsRNA is selected from the group consisting of SEQ ID NOs: 1822-1825 and 1857-1868.
37. The composition-of-matter or method of claim 1 or 31, wherein said dsRNA is selected from the group consisting of siRNA, shRNA and miRNA.
38. The composition-of-matter or method of any one of claims 1-37, wherein said cell is devoid of a heterologous promoter for driving expression of said dsRNA in the plant.
39. The composition-of-matter or method of any one of claims 1-29, wherein said nucleic acid larvicide is greater than 15 base pairs in length.
40. The composition-of-matter or method of any one of claims 1-29, wherein said nucleic acid larvicide is 19 to 25 base pairs in length.
41. The composition-of-matter or method of any one of claims 1-29, wherein said nucleic acid larvicide is 30-100 base pairs in length.
42. The composition-of-matter or method of any one of claims 1-29, wherein said nucleic acid larvicide is 100-800 base pairs in length.
43. The composition-of-matter or method of any one of claims 1-29, wherein the composition further comprises at least one of a surface-active agent, an inert carrier vehicle, a preservative, a humectant, a feeding stimulant, an attractant, an encapsulating agent, a binder, an emulsifier, a dye, an ultra-violet protector, a buffer, a flow agent or fertilizer, micronutrient donors, or other preparations that influence the growth of the plant.
44. The composition-of-matter of any one of claims 1-43 having an inferior impact on an adult mosquito as compared to said larvae.
45. The composition-of-matter or method of any one of claims 1-28, wherein the composition further comprises a chemical larvicide or a biochemical larvicide or a combination of same.
46. The composition-of-matter or method of claim 45, wherein said larvicide is selected from the group consisting of Temephos, Diflubenzuron, methoprene, Bacillus sphaericus, and Bacillus thuringiensis israelensis.
47. The composition-of-matter or method of claim 45, wherein said larvicide comprises an adulticide.
48. The composition-of-matter or method of claim 47, wherein said adulticide is selected from the group consisting of deltamethrin, malathion, naled, chlorpyrifos, permethrin, resmethrin and sumithrin.
49. A method of controlling or exterminating mosquitoes, the method comprising feeding larvae of the mosquitoes with an effective amount of the composition-of-matter of any one of claims 1-48, thereby controlling or exterminating the mosquitoes.
50. The method of claim 49, wherein said mosquitoes comprise female mosquitoes capable of transmitting a disease to a mammalian organism.
51. The method of any one of claims 45-48 or 49, wherein said mosquitoes are of a species selected from the group consisting of Aedes aegypti and Anopheles gambiae.