Omics of vector mosquitoes: a big data platform for vector biology and vector-borne diseases / 南方医科大学学报

Recently the studies on mosquito genomics, transcriptomics and small RNAomics developed rapidly with the novel biotechnologies of the next generation sequencing techniques. The genome sequences of several important vector mosquitoes including Anopheles gambiae, Culex quinquefasciatus, and Aedes aegypti have been published. The genome sizes vary among the different species of mosquitoes and are consistent with the number of the repeat regions. The released genome sequences facilitate gene cloning and identification as for OBP, OR and dsx genes. Transcriptomics provides a useful tool for functional analyses of the mosquito genes, and using this technique, the molecular basis of mosquito blooding, gland proteins and diapauses have been explored. Studies on small RNAomics suggest important roles of miRNAs and piRNAs in ovary development, blood digestion, and immunity against virus infection. The studies on mosquito omics have generated a big data platform for investigation of vector biology and vector-transmitted disease prevention.

Isolation and expression profiling of transformer 2 gene in Aedes aegypti / 南方医科大学学报

<p><b>OBJECTIVE</b>To isolate, identify and analyze the sex-determining gene Transformer 2 (Aaetra2) of the major vector mosquito Aedes aegypti.</p><p><b>METHODS</b>tBLASTn program, RT-PCR and RACE methods were used to obtain the full-length cDNA of Aaetra2. Multiple alignments of nucleotide and amino acid sequences were conducted, and the different domains in tra2 protein were indentified. RT-PCR of the total RNA extracted from different tissue from the mosquitoes in different developmental stages was performed using specific primers.</p><p><b>RESULTS</b>Two genes, namely Aaetra2-α and Aaetra2-β, were identified in different supercontig locations. The multi-transcripts were expressed by means of alternative promoters or terminators. The different domains in tra2 protein were defined as RS-rich N-terminal region, RNA recognition motif-RRM, linker region, and RS-rich C-terminal region. Both Aaetra2-α and Aaetra2-β showed sustained expression throughout the developmental stages of Ae.aegypti, and in all the tissues without a sex specificity.</p><p><b>CONCLUSION</b>Aaetra2 gene has multiple isoforms and is mapped to multiple locations in the genome. Aaetra2 has conservative functional domains of the sex-determining gene tra2. For Ae.agypti, Aaetra2 shows the potential as a new target for release of insects carrying a dominant lethal (RIDL) technology based on transgenic mosquitoes.</p>