Neo-sex chromosomes and adaptive potential in tortricid pests
Changes in genome architecture often have a significant effect on ecological specialization and speciation. This effect may be further enhanced by involvement of sex chromosomes playing a disproportionate role in reproductive isolation. We have physically mapped the Z chromosome of the major pome fr...
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| Published in | Proceedings of the National Academy of Sciences - PNAS Vol. 110; no. 17; pp. 6931 - 6936 |
|---|---|
| Main Authors | , , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
United States
National Academy of Sciences
23.04.2013
National Acad Sciences |
| Subjects | |
| Online Access | Get full text |
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| Abstract | Changes in genome architecture often have a significant effect on ecological specialization and speciation. This effect may be further enhanced by involvement of sex chromosomes playing a disproportionate role in reproductive isolation. We have physically mapped the Z chromosome of the major pome fruit pest, the codling moth, Cydia pomonella (Tortricidae), and show that it arose by fusion between an ancestral Z chromosome and an autosome corresponding to chromosome 15 in the Bombyx mori reference genome. We further show that the fusion originated in a common ancestor of the main tortricid subfamilies, Olethreutinae and Tortricinae, comprising almost 700 pest species worldwide. The Z–autosome fusion brought two major genes conferring insecticide resistance and clusters of genes involved in detoxification of plant secondary metabolites under sex-linked inheritance. We suggest that this fusion significantly increased the adaptive potential of tortricid moths and thus contributed to their radiation and subsequent speciation. |
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| AbstractList | Changes in genome architecture often have a significant effect on ecological specialization and speciation. This effect may be further enhanced by involvement of sex chromosomes playing a disproportionate role in reproductive isolation. We have physically mapped the Z chromosome of the major pome fruit pest, the codling moth,
Cydia pomonella
(Tortricidae), and show that it arose by fusion between an ancestral Z chromosome and an autosome corresponding to chromosome 15 in the
Bombyx mori
reference genome. We further show that the fusion originated in a common ancestor of the main tortricid subfamilies, Olethreutinae and Tortricinae, comprising almost 700 pest species worldwide. The Z–autosome fusion brought two major genes conferring insecticide resistance and clusters of genes involved in detoxification of plant secondary metabolites under sex-linked inheritance. We suggest that this fusion significantly increased the adaptive potential of tortricid moths and thus contributed to their radiation and subsequent speciation. Changes in genome architecture often have a significant effect on ecological specialization and speciation. This effect may be further enhanced by involvement of sex chromosomes playing a disproportionate role in reproductive isolation. We have physically mapped the Z chromosome of the major pome fruit pest, the codling moth, Cydia pomonella (Tortricidae), and show that it arose by fusion between an ancestral Z chromosome and an autosome corresponding to chromosome 15 in the Bombyx mori reference genome. We further show that the fusion originated in a common ancestor of the main tortricid subfamilies, Olethreutinae and Tortricinae, comprising almost 700 pest species worldwide. The Z-autosome fusion brought two major genes conferring insecticide resistance and clusters of genes involved in detoxification of plant secondary metabolites under sex-linked inheritance. We suggest that this fusion significantly increased the adaptive potential of tortricid moths and thus contributed to their radiation and subsequent speciation. Changes in genome architecture often have a significant effect on ecological specialization and speciation. This effect may be further enhanced by involvement of sex chromosomes playing a disproportionate role in reproductive isolation. We have physically mapped the Z chromosome of the major pome fruit pest, the codling moth, Cydia pomonella (Tortricidae), and show that it arose by fusion between an ancestral Z chromosome and an autosome corresponding to chromosome 15 in the Bombyx mori reference genome. We further show that the fusion originated in a common ancestor of the main tortricid subfamilies, Olethreutinae and Tortricinae, comprising almost 700 pest species worldwide. The Z-autosome fusion brought two major genes conferring insecticide resistance and clusters of genes involved in detoxification of plant secondary metabolites under sex-linked inheritance. We suggest that this fusion significantly increased the adaptive potential of tortricid moths and thus contributed to their radiation and subsequent speciation. [PUBLICATION ABSTRACT] |
| Author | Daliková, Martina Neven, Lisa G. Nguyen, Petr Marec, František Sýkorová, Miroslava Kůta, Václav Šíchova, Jindra Sahara, Ken Frydrychová, Radmila Čapková |
| Author_xml | – sequence: 1 givenname: Petr surname: Nguyen fullname: Nguyen, Petr – sequence: 2 givenname: Miroslava surname: Sýkorová fullname: Sýkorová, Miroslava – sequence: 3 givenname: Jindra surname: Šíchova fullname: Šíchova, Jindra – sequence: 4 givenname: Václav surname: Kůta fullname: Kůta, Václav – sequence: 5 givenname: Martina surname: Daliková fullname: Daliková, Martina – sequence: 6 givenname: Radmila Čapková surname: Frydrychová fullname: Frydrychová, Radmila Čapková – sequence: 7 givenname: Lisa G. surname: Neven fullname: Neven, Lisa G. – sequence: 8 givenname: Ken surname: Sahara fullname: Sahara, Ken – sequence: 9 givenname: František surname: Marec fullname: Marec, František |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/23569222$$D View this record in MEDLINE/PubMed |
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| Notes | http://dx.doi.org/10.1073/pnas.1220372110 Edited by May R. Berenbaum, University of Illinois at Urbana–Champaign, Urbana, IL, and approved March 12, 2013 (received for review November 22, 2012) Author contributions: P.N., K.S., and F.M. designed research; P.N., M.S., J.Š., V.K., and M.D. performed research; R.Č.F., L.G.N., and K.S. contributed new reagents/analytic tools; P.N., M.S., J.Š., V.K., M.D., R.Č.F., and F.M. analyzed data; and P.N., L.G.N., and F.M. wrote the paper. |
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| SubjectTerms | Adaptation, Biological - genetics Animals Base Sequence Biological Sciences Butterflies & moths Chromosomes Chromosomes, Artificial, Bacterial Evolution Evolution, Molecular Flowers & plants Gene dosage Genes Genomes In Situ Hybridization, Fluorescence Metabolites Molecular Sequence Data Moths Moths - genetics Pests Physical Chromosome Mapping Resistance to control Sequence Analysis, DNA Sex chromosomes Sex Chromosomes - genetics Speciation Translocation, Genetic - genetics Z chromosome |
| Title | Neo-sex chromosomes and adaptive potential in tortricid pests |
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