Skip to main content
Download PDF
- Main
Genome analysis of a major urban malaria vector mosquito, Anopheles stephensi
- Jiang, Xiaofang;
- Peery, Ashley;
- Hall, A Brantley;
- Sharma, Atashi;
- Chen, Xiao-Guang;
- Waterhouse, Robert M;
- Komissarov, Aleksey;
- Riehle, Michelle M;
- Shouche, Yogesh;
- Sharakhova, Maria V;
- Lawson, Dan;
- Pakpour, Nazzy;
- Arensburger, Peter;
- Davidson, Victoria LM;
- Eiglmeier, Karin;
- Emrich, Scott;
- George, Phillip;
- Kennedy, Ryan C;
- Mane, Shrinivasrao P;
- Maslen, Gareth;
- Oringanje, Chioma;
- Qi, Yumin;
- Settlage, Robert;
- Tojo, Marta;
- Tubio, Jose MC;
- Unger, Maria F;
- Wang, Bo;
- Vernick, Kenneth D;
- Ribeiro, Jose MC;
- James, Anthony A;
- Michel, Kristin;
- Riehle, Michael A;
- Luckhart, Shirley;
- Sharakhov, Igor V;
- Tu, Zhijian
- et al.
Published Web Location
https://doi.org/10.1186/s13059-014-0459-2Abstract
Background
Anopheles stephensi is the key vector of malaria throughout the Indian subcontinent and Middle East and an emerging model for molecular and genetic studies of mosquito-parasite interactions. The type form of the species is responsible for the majority of urban malaria transmission across its range.Results
Here, we report the genome sequence and annotation of the Indian strain of the type form of An. stephensi. The 221 Mb genome assembly represents more than 92% of the entire genome and was produced using a combination of 454, Illumina, and PacBio sequencing. Physical mapping assigned 62% of the genome onto chromosomes, enabling chromosome-based analysis. Comparisons between An. stephensi and An. gambiae reveal that the rate of gene order reshuffling on the X chromosome was three times higher than that on the autosomes. An. stephensi has more heterochromatin in pericentric regions but less repetitive DNA in chromosome arms than An. gambiae. We also identify a number of Y-chromosome contigs and BACs. Interspersed repeats constitute 7.1% of the assembled genome while LTR retrotransposons alone comprise more than 49% of the Y contigs. RNA-seq analyses provide new insights into mosquito innate immunity, development, and sexual dimorphism.Conclusions
The genome analysis described in this manuscript provides a resource and platform for fundamental and translational research into a major urban malaria vector. Chromosome-based investigations provide unique perspectives on Anopheles chromosome evolution. RNA-seq analysis and studies of immunity genes offer new insights into mosquito biology and mosquito-parasite interactions.Many UC-authored scholarly publications are freely available on this site because of the UC's open access policies. Let us know how this access is important for you.
Main Content
For improved accessibility of PDF content, download the file to your device.
Enter the password to open this PDF file:
File name:
-
File size:
-
Title:
-
Author:
-
Subject:
-
Keywords:
-
Creation Date:
-
Modification Date:
-
Creator:
-
PDF Producer:
-
PDF Version:
-
Page Count:
-
Page Size:
-
Fast Web View:
-
Preparing document for printing…
0%