The organization and rate of evolution of wheat genomes are correlated with recombination rates along chromosomes arms

Eduard D. Akhunov; Andrew W. Goodyear; Shu Geng; Li Li Qi; Benjamin Echalier; Bikram S. Gill; A. Miftahudin; J. Perry Gustafson; Gerard Lazo; Shiaoman Chao; Olin D. Anderson; Anna M. Linkiewicz; Jorge Dubcovsky; Mauricio La Rota; Mark E. Sorrells; Deshui Zhang; Henry T. Nguyen; Venugopal Kalavacharla; Khwaja Hossain; Shahryar F. Kianian; Junhua Peng; Nora L.V. Lapitan; Jose L. Gonzalez-Hernandez; James A. Anderson; Dong Woog Choi; Timothy J. Close; Muharrem Dilbirligi; Kulvinder S. Gill; M. Kay Walker-Simmons; Camille Steber; Patrick E. McGuire; Calvin O. Qualset; Jan Dvorak

doi:10.1101/gr.808603

The organization and rate of evolution of wheat genomes are correlated with recombination rates along chromosomes arms

Eduard D. Akhunov, Andrew W. Goodyear, Shu Geng, Li Li Qi, Benjamin Echalier, Bikram S. Gill, A. Miftahudin, J. Perry Gustafson, Gerard Lazo, Shiaoman Chao, Olin D. Anderson, Anna M. Linkiewicz, Jorge Dubcovsky, Mauricio La Rota, Mark E. Sorrells, Deshui Zhang, Henry T. Nguyen, Venugopal Kalavacharla, Khwaja Hossain, Shahryar F. KianianJunhua Peng, Nora L.V. Lapitan, Jose L. Gonzalez-Hernandez, James A. Anderson, Dong Woog Choi, Timothy J. Close, Muharrem Dilbirligi, Kulvinder S. Gill, M. Kay Walker-Simmons, Camille Steber, Patrick E. McGuire, Calvin O. Qualset, Jan Dvorak

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Abstract

Genes detected by wheat expressed sequence tags (ESTs) were mapped into chromosome bins delineated by breakpoints of 159 overlapping deletions. These data were used to assess the organizational and evolutionary aspects of wheat genomes. Relative gene density and recombination rate increased with the relative distance of a bin from the centromere. Single-gene loci present once in the wheat genomes were found predominantly in the proximal, low-recombination regions, while multigene loci tended to be more frequent in distal, high-recombination regions. One-quarter of all gene motifs within wheat genomes were represented by two or more duplicated loci (paralogous sets). For 40 such sets, ancestral loci and loci derived from them by duplication were identified. Loci derived by duplication were most frequently located in distal, high-recom bi nation chromosome regions whereas ancestral loci were most frequently located proximal to them. It is suggested that recombination has played a central role in the evolution of wheat genome structure and that gradients of recombination rates along chromosome arms promote more rapid rates of genome evolution in distal, high-recombination regions than in proximal, low-recombination regions.

Original language	English (US)
Pages (from-to)	753-763
Number of pages	11
Journal	Genome research
Volume	13
Issue number	5
DOIs	https://doi.org/10.1101/gr.808603
State	Published - May 1 2003

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Akhunov, E. D., Goodyear, A. W., Geng, S., Qi, L. L., Echalier, B., Gill, B. S., Miftahudin, A., Gustafson, J. P., Lazo, G., Chao, S., Anderson, O. D., Linkiewicz, A. M., Dubcovsky, J., La Rota, M., Sorrells, M. E., Zhang, D., Nguyen, H. T., Kalavacharla, V., Hossain, K., ... Dvorak, J. (2003). The organization and rate of evolution of wheat genomes are correlated with recombination rates along chromosomes arms. Genome research, 13(5), 753-763. https://doi.org/10.1101/gr.808603

Akhunov, ED, Goodyear, AW, Geng, S, Qi, LL, Echalier, B, Gill, BS, Miftahudin, A, Gustafson, JP, Lazo, G, Chao, S, Anderson, OD, Linkiewicz, AM, Dubcovsky, J, La Rota, M, Sorrells, ME, Zhang, D, Nguyen, HT, Kalavacharla, V, Hossain, K, Kianian, SF, Peng, J, Lapitan, NLV, Gonzalez-Hernandez, JL, Anderson, JA, Choi, DW, Close, TJ, Dilbirligi, M, Gill, KS, Walker-Simmons, MK, Steber, C, McGuire, PE, Qualset, CO & Dvorak, J 2003, 'The organization and rate of evolution of wheat genomes are correlated with recombination rates along chromosomes arms', Genome research, vol. 13, no. 5, pp. 753-763. https://doi.org/10.1101/gr.808603

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title = "The organization and rate of evolution of wheat genomes are correlated with recombination rates along chromosomes arms",

abstract = "Genes detected by wheat expressed sequence tags (ESTs) were mapped into chromosome bins delineated by breakpoints of 159 overlapping deletions. These data were used to assess the organizational and evolutionary aspects of wheat genomes. Relative gene density and recombination rate increased with the relative distance of a bin from the centromere. Single-gene loci present once in the wheat genomes were found predominantly in the proximal, low-recombination regions, while multigene loci tended to be more frequent in distal, high-recombination regions. One-quarter of all gene motifs within wheat genomes were represented by two or more duplicated loci (paralogous sets). For 40 such sets, ancestral loci and loci derived from them by duplication were identified. Loci derived by duplication were most frequently located in distal, high-recom bi nation chromosome regions whereas ancestral loci were most frequently located proximal to them. It is suggested that recombination has played a central role in the evolution of wheat genome structure and that gradients of recombination rates along chromosome arms promote more rapid rates of genome evolution in distal, high-recombination regions than in proximal, low-recombination regions.",

author = "Akhunov, {Eduard D.} and Goodyear, {Andrew W.} and Shu Geng and Qi, {Li Li} and Benjamin Echalier and Gill, {Bikram S.} and A. Miftahudin and Gustafson, {J. Perry} and Gerard Lazo and Shiaoman Chao and Anderson, {Olin D.} and Linkiewicz, {Anna M.} and Jorge Dubcovsky and {La Rota}, Mauricio and Sorrells, {Mark E.} and Deshui Zhang and Nguyen, {Henry T.} and Venugopal Kalavacharla and Khwaja Hossain and Kianian, {Shahryar F.} and Junhua Peng and Lapitan, {Nora L.V.} and Gonzalez-Hernandez, {Jose L.} and Anderson, {James A.} and Choi, {Dong Woog} and Close, {Timothy J.} and Muharrem Dilbirligi and Gill, {Kulvinder S.} and Walker-Simmons, {M. Kay} and Camille Steber and McGuire, {Patrick E.} and Qualset, {Calvin O.} and Jan Dvorak",

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T1 - The organization and rate of evolution of wheat genomes are correlated with recombination rates along chromosomes arms

AU - Akhunov, Eduard D.

AU - Goodyear, Andrew W.

AU - Geng, Shu

AU - Qi, Li Li

AU - Echalier, Benjamin

AU - Gill, Bikram S.

AU - Miftahudin, A.

AU - Gustafson, J. Perry

AU - Lazo, Gerard

AU - Chao, Shiaoman

AU - Anderson, Olin D.

AU - Linkiewicz, Anna M.

AU - Dubcovsky, Jorge

AU - La Rota, Mauricio

AU - Sorrells, Mark E.

AU - Zhang, Deshui

AU - Nguyen, Henry T.

AU - Kalavacharla, Venugopal

AU - Hossain, Khwaja

AU - Kianian, Shahryar F.

AU - Peng, Junhua

AU - Lapitan, Nora L.V.

AU - Gonzalez-Hernandez, Jose L.

AU - Anderson, James A.

AU - Choi, Dong Woog

AU - Close, Timothy J.

AU - Dilbirligi, Muharrem

AU - Gill, Kulvinder S.

AU - Walker-Simmons, M. Kay

AU - Steber, Camille

AU - McGuire, Patrick E.

AU - Qualset, Calvin O.

AU - Dvorak, Jan

PY - 2003/5/1

Y1 - 2003/5/1

N2 - Genes detected by wheat expressed sequence tags (ESTs) were mapped into chromosome bins delineated by breakpoints of 159 overlapping deletions. These data were used to assess the organizational and evolutionary aspects of wheat genomes. Relative gene density and recombination rate increased with the relative distance of a bin from the centromere. Single-gene loci present once in the wheat genomes were found predominantly in the proximal, low-recombination regions, while multigene loci tended to be more frequent in distal, high-recombination regions. One-quarter of all gene motifs within wheat genomes were represented by two or more duplicated loci (paralogous sets). For 40 such sets, ancestral loci and loci derived from them by duplication were identified. Loci derived by duplication were most frequently located in distal, high-recom bi nation chromosome regions whereas ancestral loci were most frequently located proximal to them. It is suggested that recombination has played a central role in the evolution of wheat genome structure and that gradients of recombination rates along chromosome arms promote more rapid rates of genome evolution in distal, high-recombination regions than in proximal, low-recombination regions.

AB - Genes detected by wheat expressed sequence tags (ESTs) were mapped into chromosome bins delineated by breakpoints of 159 overlapping deletions. These data were used to assess the organizational and evolutionary aspects of wheat genomes. Relative gene density and recombination rate increased with the relative distance of a bin from the centromere. Single-gene loci present once in the wheat genomes were found predominantly in the proximal, low-recombination regions, while multigene loci tended to be more frequent in distal, high-recombination regions. One-quarter of all gene motifs within wheat genomes were represented by two or more duplicated loci (paralogous sets). For 40 such sets, ancestral loci and loci derived from them by duplication were identified. Loci derived by duplication were most frequently located in distal, high-recom bi nation chromosome regions whereas ancestral loci were most frequently located proximal to them. It is suggested that recombination has played a central role in the evolution of wheat genome structure and that gradients of recombination rates along chromosome arms promote more rapid rates of genome evolution in distal, high-recombination regions than in proximal, low-recombination regions.

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JO - Genome research

JF - Genome research

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ER -

The organization and rate of evolution of wheat genomes are correlated with recombination rates along chromosomes arms

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