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Malaria Journal
Published in: Malaria Journal 1/2010

Open Access 01-12-2010 | Research

Breakpoint structure of the Anopheles gambiae 2Rb chromosomal inversion

Authors: Neil F Lobo, Djibril M Sangaré, Allison A Regier, Kyanne R Reidenbach, David A Bretz, Maria V Sharakhova, Scott J Emrich, Sekou F Traore, Carlo Costantini, Nora J Besansky, Frank H Collins

Published in: Malaria Journal | Issue 1/2010

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Abstract

Background

Alternative arrangements of chromosome 2 inversions in Anopheles gambiae are important sources of population structure, and are associated with adaptation to environmental heterogeneity. The forces responsible for their origin and maintenance are incompletely understood. Molecular characterization of inversion breakpoints provides insight into how they arose, and provides the basis for development of molecular karyotyping methods useful in future studies.

Methods

Sequence comparison of regions near the cytological breakpoints of 2Rb allowed the molecular delineation of breakpoint boundaries. Comparisons were made between the standard 2R+ b arrangement in the An. gambiae PEST reference genome and the inverted 2Rb arrangements in the An. gambiae M and S genome assemblies. Sequence differences between alternative 2Rb arrangements were exploited in the design of a PCR diagnostic assay, which was evaluated against the known chromosomal banding pattern of laboratory colonies and field-collected samples from Mali and Cameroon.

Results

The breakpoints of the 7.55 Mb 2Rb inversion are flanked by extensive runs of the same short (72 bp) tandemly organized sequence, which was likely responsible for chromosomal breakage and rearrangement. Application of the molecular diagnostic assay suggested that 2Rb has a single common origin in An. gambiae and its sibling species, Anopheles arabiensis, and also that the standard arrangement (2R+ b ) may have arisen twice through breakpoint reuse. The molecular diagnostic was reliable when applied to laboratory colonies, but its accuracy was lower in natural populations.

Conclusions

The complex repetitive sequence flanking the 2Rb breakpoint region may be prone to structural and sequence-level instability. The 2Rb molecular diagnostic has immediate application in studies based on laboratory colonies, but its usefulness in natural populations awaits development of complementary molecular tools.
Appendix
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Metadata
Title
Breakpoint structure of the Anopheles gambiae 2Rb chromosomal inversion
Authors
Neil F Lobo
Djibril M Sangaré
Allison A Regier
Kyanne R Reidenbach
David A Bretz
Maria V Sharakhova
Scott J Emrich
Sekou F Traore
Carlo Costantini
Nora J Besansky
Frank H Collins
Publication date
01-12-2010
Publisher
BioMed Central
Published in
Malaria Journal / Issue 1/2010
Electronic ISSN: 1475-2875
DOI
https://doi.org/10.1186/1475-2875-9-293

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