The evolutionary divergence of STAT transcription factor in different Anopheles species

Anopheles mosquito transmits Plasmodium, the malaria causing parasite. Different species of Anopheles mosquito dominate in a particular geographical location and are capable of transmitting specific strains of Plasmodium. It is important to understand the biology of different anophelines to control the parasite transmission. STAT is an evolutionary conserved transcription factor that regulates the parasite development in African malaria vector Anopheles gambiae. Unlike Drosophila and Aedes aegypti, where a single STAT gene plays an important role in immunity, An. gambiae contains one evolutionary conserved STAT-A and another retro-duplicated, introns-less STAT-B gene. To find out whether other species of Anopheles also have two STATs, the available genomic data of different anophelines were used to annotate their STATs through in silico analyses. Our results revealed that Indian malaria vector An. stephensi genome contains two STATs, AsSTAT-A and AsSTAT-B genes. These genes were cloned and confirmed by sequencing. Both AsSTATs were found to be expressed in different development stages of mosquito. However, the relative mRNA levels of evolutionary conserved AsSTAT-A gene were always higher than the retroduplicated AsSTAT-B gene. STAT pathway was activated upon Plasmodium berghei infection, indicated its role in immunity. Furthermore, comparative in silico analysis of eighteen Anopheles species revealed that five species: An. sinensis, An. albimanus, An. darlingi, An. dirus andAn. farauti do not contain STAT-B gene in their genome. Interestingly, thirteen species of the subgenus Anopheles and Cellia that contain both STATs were also mutually diverged. This consequence leads to sequence variability in some significant protein motifs within the STAT-B genes. Phylogenetic analyses indicated that an independent, lineage-specific duplication occurred in the subgenus Cellia after the diversification of series Neomyzomyia from its last common ancestor. In An. atroparvus (subgenus Anopheles), STAT gene underwent recent lineage-specific duplication and give rise to a highly similar STAT-B gene. This suggested that the genetic divergence in various Anopheles species might appeared due to their adaptations to the altered environmental conditions or pathogen encounters.