Highly evolvable malaria vectors: The genomes of 16 Anopheles mosquitoes

© 2015, american association for the advancement of science. All rigths reserved. Variation in vectorial capacity for human malaria among Anopheles mosquito species is determined by many factors, including behavior, immunity, and life history. To investigate the genomic basis of vectorial capacity a...

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Main Authors:	Neafsey,D.E., Waterhouse,R.M., Abai,M.R., Aganezov,S.S., Alekseyev,M.A., Allen,J.E., Amon,J., Arcà,B., Arensburger,P., Artemov,G.N., Assour,L.A., Baseri,H., Berlin,A.M., Birren,B.W., Blandin,S.A., Brockman,A.I., Burkot,T.R., Burt,A., Chan,C.S., Chauve,C., Chiu,J.C., Christensen,M.B., Costantini,C., Davidson,V.L.M., Deligianni,E., Dottorini,T., Dritsou,V., Gabriel,S.B., Guelbéogo,W.M., Hall,A.B., Han,M., Hlaing,T., Hughes,D.S.T., Jenkins,A.M., Jiang,X., Jungreis,I., Kakani,E.G., Kamali,M., Kemppainen,P., Kennedy,R.C., Kirmitzoglou,I.K., Koekemoer,L.L., Laban,N., Langridge,N., Lawniczak,M.K.N., Lirakis,M., Lobo,N.F., Lowy,E., MacCallum,R.M., Mao,C., Maslen,G.L., Mbogo,C.M., McCarthy,J.D., Michel,K., Mitchell,S.N., Moore,W., Murphy,K.A., Naumenko,A.N., Nolan,T., Novoa,E.M., O'Loughlin,S.M., Oringanje,C.M., Oshaghi,M.A., Pakpour,N., Papathanos,P.A., Peery,A.N., Povelones,M., Prakash,A., Price,D.P., Rajaraman,A., Reimer,L.J., Rinker,D.C., Rokas,A., Russell,T.L., Sagnon,N.F., Sharakhova,M.V., Shea,T.P., Simão,F.A., Simard,F., Slotman,M.A., Somboon,P., Stegniy,V., Struchiner,C.J., Thomas,G.W.C., Tojo,M., Topalis,P., Tubío,J.M.C., Unger,M.F., Vontas,J.G., Walton,C., Wilding,C.S., Willis,J.H., Wu,Y., Yan,G., Zdobnov,E.M., Zhou,X., Catteruccia,F., Christophides,G.K., Collins,F.H., Cornman,R.S., Crisanti,A., Donnelly,M.J., Emrich,S.J., Fontaine,M.C., Gelbart,W.M., Hahn,M.W., Hansen,I.A., Howell,P.I., Kafatos,F.C., Kellis,M., Lawson,D., Louis,C.S., Luckhart,S., Muskavitch,M.A.T., Ribeiro,J.M.C., Riehle,M.A., Sharakhov,I.V., Tu,Z., Zwiebel,L.J., Besansky,N.J.
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Published:	American Association for the Advancement of Science 2015
Subjects:	Medicine (all) History and Philosophy of Science Multidisciplinary
Online Access:	http://www.scopus.com/inward/record.url?partnerID=HzOxMe3b&scp=84922482170&origin=inward http://cmuir.cmu.ac.th/handle/6653943832/38385
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spelling	th-cmuir.6653943832-383852015-06-16T07:47:07Z Highly evolvable malaria vectors: The genomes of 16 Anopheles mosquitoes Neafsey,D.E. Waterhouse,R.M. Abai,M.R. Aganezov,S.S. Alekseyev,M.A. Allen,J.E. Amon,J. Arcà,B. Arensburger,P. Artemov,G.N. Assour,L.A. Baseri,H. Berlin,A.M. Birren,B.W. Blandin,S.A. Brockman,A.I. Burkot,T.R. Burt,A. Chan,C.S. Chauve,C. Chiu,J.C. Christensen,M.B. Costantini,C. Davidson,V.L.M. Deligianni,E. Dottorini,T. Dritsou,V. Gabriel,S.B. Guelbéogo,W.M. Hall,A.B. Han,M. Hlaing,T. Hughes,D.S.T. Jenkins,A.M. Jiang,X. Jungreis,I. Kakani,E.G. Kamali,M. Kemppainen,P. Kennedy,R.C. Kirmitzoglou,I.K. Koekemoer,L.L. Laban,N. Langridge,N. Lawniczak,M.K.N. Lirakis,M. Lobo,N.F. Lowy,E. MacCallum,R.M. Mao,C. Maslen,G.L. Mbogo,C.M. McCarthy,J.D. Michel,K. Mitchell,S.N. Moore,W. Murphy,K.A. Naumenko,A.N. Nolan,T. Novoa,E.M. O'Loughlin,S.M. Oringanje,C.M. Oshaghi,M.A. Pakpour,N. Papathanos,P.A. Peery,A.N. Povelones,M. Prakash,A. Price,D.P. Rajaraman,A. Reimer,L.J. Rinker,D.C. Rokas,A. Russell,T.L. Sagnon,N.F. Sharakhova,M.V. Shea,T.P. Simão,F.A. Simard,F. Slotman,M.A. Somboon,P. Stegniy,V. Struchiner,C.J. Thomas,G.W.C. Tojo,M. Topalis,P. Tubío,J.M.C. Unger,M.F. Vontas,J.G. Walton,C. Wilding,C.S. Willis,J.H. Wu,Y. Yan,G. Zdobnov,E.M. Zhou,X. Catteruccia,F. Christophides,G.K. Collins,F.H. Cornman,R.S. Crisanti,A. Donnelly,M.J. Emrich,S.J. Fontaine,M.C. Gelbart,W.M. Hahn,M.W. Hansen,I.A. Howell,P.I. Kafatos,F.C. Kellis,M. Lawson,D. Louis,C.S. Luckhart,S. Muskavitch,M.A.T. Ribeiro,J.M.C. Riehle,M.A. Sharakhov,I.V. Tu,Z. Zwiebel,L.J. Besansky,N.J. Medicine (all) History and Philosophy of Science Multidisciplinary © 2015, american association for the advancement of science. All rigths reserved. Variation in vectorial capacity for human malaria among Anopheles mosquito species is determined by many factors, including behavior, immunity, and life history. To investigate the genomic basis of vectorial capacity and explore new avenues for vector control, we sequenced the genomes of 16 anopheline mosquito species from diverse locations spanning ∼100 million years of evolution. Comparative analyses show faster rates of gene gain and loss, elevated gene shuffling on the X chromosome, and more intron losses, relative to Drosophila. Some determinants of vectorial capacity, such as chemosensory genes, do not show elevated turnover but instead diversify through protein-sequence changes. This dynamism of anopheline genes and genomes may contribute to their flexible capacity to take advantage of new ecological niches, including adapting to humans as primary hosts. 2015-06-16T07:47:07Z 2015-06-16T07:47:07Z 2015-01-02 Article 00368075 2-s2.0-84922482170 10.1126/science.1258522 25554792 http://www.scopus.com/inward/record.url?partnerID=HzOxMe3b&scp=84922482170&origin=inward http://cmuir.cmu.ac.th/handle/6653943832/38385 American Association for the Advancement of Science
institution	Chiang Mai University
building	Chiang Mai University Library
country	Thailand
collection	CMU Intellectual Repository
topic	Medicine (all) History and Philosophy of Science Multidisciplinary
spellingShingle	Medicine (all) History and Philosophy of Science Multidisciplinary Neafsey,D.E. Waterhouse,R.M. Abai,M.R. Aganezov,S.S. Alekseyev,M.A. Allen,J.E. Amon,J. Arcà,B. Arensburger,P. Artemov,G.N. Assour,L.A. Baseri,H. Berlin,A.M. Birren,B.W. Blandin,S.A. Brockman,A.I. Burkot,T.R. Burt,A. Chan,C.S. Chauve,C. Chiu,J.C. Christensen,M.B. Costantini,C. Davidson,V.L.M. Deligianni,E. Dottorini,T. Dritsou,V. Gabriel,S.B. Guelbéogo,W.M. Hall,A.B. Han,M. Hlaing,T. Hughes,D.S.T. Jenkins,A.M. Jiang,X. Jungreis,I. Kakani,E.G. Kamali,M. Kemppainen,P. Kennedy,R.C. Kirmitzoglou,I.K. Koekemoer,L.L. Laban,N. Langridge,N. Lawniczak,M.K.N. Lirakis,M. Lobo,N.F. Lowy,E. MacCallum,R.M. Mao,C. Maslen,G.L. Mbogo,C.M. McCarthy,J.D. Michel,K. Mitchell,S.N. Moore,W. Murphy,K.A. Naumenko,A.N. Nolan,T. Novoa,E.M. O'Loughlin,S.M. Oringanje,C.M. Oshaghi,M.A. Pakpour,N. Papathanos,P.A. Peery,A.N. Povelones,M. Prakash,A. Price,D.P. Rajaraman,A. Reimer,L.J. Rinker,D.C. Rokas,A. Russell,T.L. Sagnon,N.F. Sharakhova,M.V. Shea,T.P. Simão,F.A. Simard,F. Slotman,M.A. Somboon,P. Stegniy,V. Struchiner,C.J. Thomas,G.W.C. Tojo,M. Topalis,P. Tubío,J.M.C. Unger,M.F. Vontas,J.G. Walton,C. Wilding,C.S. Willis,J.H. Wu,Y. Yan,G. Zdobnov,E.M. Zhou,X. Catteruccia,F. Christophides,G.K. Collins,F.H. Cornman,R.S. Crisanti,A. Donnelly,M.J. Emrich,S.J. Fontaine,M.C. Gelbart,W.M. Hahn,M.W. Hansen,I.A. Howell,P.I. Kafatos,F.C. Kellis,M. Lawson,D. Louis,C.S. Luckhart,S. Muskavitch,M.A.T. Ribeiro,J.M.C. Riehle,M.A. Sharakhov,I.V. Tu,Z. Zwiebel,L.J. Besansky,N.J. Highly evolvable malaria vectors: The genomes of 16 Anopheles mosquitoes
description	© 2015, american association for the advancement of science. All rigths reserved. Variation in vectorial capacity for human malaria among Anopheles mosquito species is determined by many factors, including behavior, immunity, and life history. To investigate the genomic basis of vectorial capacity and explore new avenues for vector control, we sequenced the genomes of 16 anopheline mosquito species from diverse locations spanning ∼100 million years of evolution. Comparative analyses show faster rates of gene gain and loss, elevated gene shuffling on the X chromosome, and more intron losses, relative to Drosophila. Some determinants of vectorial capacity, such as chemosensory genes, do not show elevated turnover but instead diversify through protein-sequence changes. This dynamism of anopheline genes and genomes may contribute to their flexible capacity to take advantage of new ecological niches, including adapting to humans as primary hosts.
format	Article
author	Neafsey,D.E. Waterhouse,R.M. Abai,M.R. Aganezov,S.S. Alekseyev,M.A. Allen,J.E. Amon,J. Arcà,B. Arensburger,P. Artemov,G.N. Assour,L.A. Baseri,H. Berlin,A.M. Birren,B.W. Blandin,S.A. Brockman,A.I. Burkot,T.R. Burt,A. Chan,C.S. Chauve,C. Chiu,J.C. Christensen,M.B. Costantini,C. Davidson,V.L.M. Deligianni,E. Dottorini,T. Dritsou,V. Gabriel,S.B. Guelbéogo,W.M. Hall,A.B. Han,M. Hlaing,T. Hughes,D.S.T. Jenkins,A.M. Jiang,X. Jungreis,I. Kakani,E.G. Kamali,M. Kemppainen,P. Kennedy,R.C. Kirmitzoglou,I.K. Koekemoer,L.L. Laban,N. Langridge,N. Lawniczak,M.K.N. Lirakis,M. Lobo,N.F. Lowy,E. MacCallum,R.M. Mao,C. Maslen,G.L. Mbogo,C.M. McCarthy,J.D. Michel,K. Mitchell,S.N. Moore,W. Murphy,K.A. Naumenko,A.N. Nolan,T. Novoa,E.M. O'Loughlin,S.M. Oringanje,C.M. Oshaghi,M.A. Pakpour,N. Papathanos,P.A. Peery,A.N. Povelones,M. Prakash,A. Price,D.P. Rajaraman,A. Reimer,L.J. Rinker,D.C. Rokas,A. Russell,T.L. Sagnon,N.F. Sharakhova,M.V. Shea,T.P. Simão,F.A. Simard,F. Slotman,M.A. Somboon,P. Stegniy,V. Struchiner,C.J. Thomas,G.W.C. Tojo,M. Topalis,P. Tubío,J.M.C. Unger,M.F. Vontas,J.G. Walton,C. Wilding,C.S. Willis,J.H. Wu,Y. Yan,G. Zdobnov,E.M. Zhou,X. Catteruccia,F. Christophides,G.K. Collins,F.H. Cornman,R.S. Crisanti,A. Donnelly,M.J. Emrich,S.J. Fontaine,M.C. Gelbart,W.M. Hahn,M.W. Hansen,I.A. Howell,P.I. Kafatos,F.C. Kellis,M. Lawson,D. Louis,C.S. Luckhart,S. Muskavitch,M.A.T. Ribeiro,J.M.C. Riehle,M.A. Sharakhov,I.V. Tu,Z. Zwiebel,L.J. Besansky,N.J.
author_facet	Neafsey,D.E. Waterhouse,R.M. Abai,M.R. Aganezov,S.S. Alekseyev,M.A. Allen,J.E. Amon,J. Arcà,B. Arensburger,P. Artemov,G.N. Assour,L.A. Baseri,H. Berlin,A.M. Birren,B.W. Blandin,S.A. Brockman,A.I. Burkot,T.R. Burt,A. Chan,C.S. Chauve,C. Chiu,J.C. Christensen,M.B. Costantini,C. Davidson,V.L.M. Deligianni,E. Dottorini,T. Dritsou,V. Gabriel,S.B. Guelbéogo,W.M. Hall,A.B. Han,M. Hlaing,T. Hughes,D.S.T. Jenkins,A.M. Jiang,X. Jungreis,I. Kakani,E.G. Kamali,M. Kemppainen,P. Kennedy,R.C. Kirmitzoglou,I.K. Koekemoer,L.L. Laban,N. Langridge,N. Lawniczak,M.K.N. Lirakis,M. Lobo,N.F. Lowy,E. MacCallum,R.M. Mao,C. Maslen,G.L. Mbogo,C.M. McCarthy,J.D. Michel,K. Mitchell,S.N. Moore,W. Murphy,K.A. Naumenko,A.N. Nolan,T. Novoa,E.M. O'Loughlin,S.M. Oringanje,C.M. Oshaghi,M.A. Pakpour,N. Papathanos,P.A. Peery,A.N. Povelones,M. Prakash,A. Price,D.P. Rajaraman,A. Reimer,L.J. Rinker,D.C. Rokas,A. Russell,T.L. Sagnon,N.F. Sharakhova,M.V. Shea,T.P. Simão,F.A. Simard,F. Slotman,M.A. Somboon,P. Stegniy,V. Struchiner,C.J. Thomas,G.W.C. Tojo,M. Topalis,P. Tubío,J.M.C. Unger,M.F. Vontas,J.G. Walton,C. Wilding,C.S. Willis,J.H. Wu,Y. Yan,G. Zdobnov,E.M. Zhou,X. Catteruccia,F. Christophides,G.K. Collins,F.H. Cornman,R.S. Crisanti,A. Donnelly,M.J. Emrich,S.J. Fontaine,M.C. Gelbart,W.M. Hahn,M.W. Hansen,I.A. Howell,P.I. Kafatos,F.C. Kellis,M. Lawson,D. Louis,C.S. Luckhart,S. Muskavitch,M.A.T. Ribeiro,J.M.C. Riehle,M.A. Sharakhov,I.V. Tu,Z. Zwiebel,L.J. Besansky,N.J.
author_sort	Neafsey,D.E.
title	Highly evolvable malaria vectors: The genomes of 16 Anopheles mosquitoes
title_short	Highly evolvable malaria vectors: The genomes of 16 Anopheles mosquitoes
title_full	Highly evolvable malaria vectors: The genomes of 16 Anopheles mosquitoes
title_fullStr	Highly evolvable malaria vectors: The genomes of 16 Anopheles mosquitoes
title_full_unstemmed	Highly evolvable malaria vectors: The genomes of 16 Anopheles mosquitoes
title_sort	highly evolvable malaria vectors: the genomes of 16 anopheles mosquitoes
publisher	American Association for the Advancement of Science
publishDate	2015
url	http://www.scopus.com/inward/record.url?partnerID=HzOxMe3b&scp=84922482170&origin=inward http://cmuir.cmu.ac.th/handle/6653943832/38385
_version_	1681421464052432896

Highly evolvable malaria vectors: The genomes of 16 Anopheles mosquitoes

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