Genome resources for three modern cotton lines guide future breeding efforts

Avinash Sreedasyam; John T. Lovell; Sujan Mamidi; Sameer Khanal; Jerry W. Jenkins; Christopher Plott; Kempton B. Bryan; Zhigang Li; Shengqiang Shu; Joseph Carlson; David Goodstein; Luis De Santiago; Ryan C. Kirkbride; Sebastian Calleja; Todd Campbell; Jenny C. Koebernick; Jane K. Dever; Jodi A. Scheffler; Duke Pauli; Johnie N. Jenkins; Jack C. McCarty; Melissa Williams; Lori Beth Boston; Jenell Webber; Joshua A. Udall; Z. Jeffrey Chen; Fred Bourland; Warwick N. Stiller; Christopher A. Saski; Jane Grimwood; Peng W. Chee; Don C. Jones; Jeremy Schmutz

doi:10.1038/s41477-024-01713-z

Genome resources for three modern cotton lines guide future breeding efforts

Avinash Sreedasyam, John T. Lovell, Sujan Mamidi, Sameer Khanal, Jerry W. Jenkins, Christopher Plott, Kempton B. Bryan, Zhigang Li, Shengqiang Shu, Joseph Carlson, David Goodstein, Luis De Santiago, Ryan C. Kirkbride, Sebastian Calleja, Todd Campbell, Jenny C. Koebernick, Jane K. Dever, Jodi A. Scheffler, Duke Pauli, Johnie N. JenkinsJack C. McCarty, Melissa Williams, Lori Beth Boston, Jenell Webber, Joshua A. Udall, Z. Jeffrey Chen, Fred Bourland, Warwick N. Stiller, Christopher A. Saski, Jane Grimwood, Peng W. Chee, Don C. Jones, Jeremy Schmutz

Plant Sciences, School of

Research output: Contribution to journal › Article › peer-review

2 Scopus citations

Abstract

Cotton (Gossypium hirsutum L.) is the key renewable fibre crop worldwide, yet its yield and fibre quality show high variability due to genotype-specific traits and complex interactions among cultivars, management practices and environmental factors. Modern breeding practices may limit future yield gains due to a narrow founding gene pool. Precision breeding and biotechnological approaches offer potential solutions, contingent on accurate cultivar-specific data. Here we address this need by generating high-quality reference genomes for three modern cotton cultivars (‘UGA230’, ‘UA48’ and ‘CSX8308’) and updating the ‘TM-1’ cotton genetic standard reference. Despite hypothesized genetic uniformity, considerable sequence and structural variation was observed among the four genomes, which overlap with ancient and ongoing genomic introgressions from ‘Pima’ cotton, gene regulatory mechanisms and phenotypic trait divergence. Differentially expressed genes across fibre development correlate with fibre production, potentially contributing to the distinctive fibre quality traits observed in modern cotton cultivars. These genomes and comparative analyses provide a valuable foundation for future genetic endeavours to enhance global cotton yield and sustainability.

Original language	English (US)
Pages (from-to)	1039-1051
Number of pages	13
Journal	Nature plants
Volume	10
Issue number	6
DOIs	https://doi.org/10.1038/s41477-024-01713-z
State	Published - Jun 2024

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Plant Science

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Sreedasyam, A., Lovell, J. T., Mamidi, S., Khanal, S., Jenkins, J. W., Plott, C., Bryan, K. B., Li, Z., Shu, S., Carlson, J., Goodstein, D., De Santiago, L., Kirkbride, R. C., Calleja, S., Campbell, T., Koebernick, J. C., Dever, J. K., Scheffler, J. A., Pauli, D., ... Schmutz, J. (2024). Genome resources for three modern cotton lines guide future breeding efforts. Nature plants, 10(6), 1039-1051. https://doi.org/10.1038/s41477-024-01713-z

Sreedasyam, A, Lovell, JT, Mamidi, S, Khanal, S, Jenkins, JW, Plott, C, Bryan, KB, Li, Z, Shu, S, Carlson, J, Goodstein, D, De Santiago, L, Kirkbride, RC, Calleja, S, Campbell, T, Koebernick, JC, Dever, JK, Scheffler, JA, Pauli, D, Jenkins, JN, McCarty, JC, Williams, M, Boston, LB, Webber, J, Udall, JA, Chen, ZJ, Bourland, F, Stiller, WN, Saski, CA, Grimwood, J, Chee, PW, Jones, DC & Schmutz, J 2024, 'Genome resources for three modern cotton lines guide future breeding efforts', Nature plants, vol. 10, no. 6, pp. 1039-1051. https://doi.org/10.1038/s41477-024-01713-z

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title = "Genome resources for three modern cotton lines guide future breeding efforts",

abstract = "Cotton (Gossypium hirsutum L.) is the key renewable fibre crop worldwide, yet its yield and fibre quality show high variability due to genotype-specific traits and complex interactions among cultivars, management practices and environmental factors. Modern breeding practices may limit future yield gains due to a narrow founding gene pool. Precision breeding and biotechnological approaches offer potential solutions, contingent on accurate cultivar-specific data. Here we address this need by generating high-quality reference genomes for three modern cotton cultivars ({\textquoteleft}UGA230{\textquoteright}, {\textquoteleft}UA48{\textquoteright} and {\textquoteleft}CSX8308{\textquoteright}) and updating the {\textquoteleft}TM-1{\textquoteright} cotton genetic standard reference. Despite hypothesized genetic uniformity, considerable sequence and structural variation was observed among the four genomes, which overlap with ancient and ongoing genomic introgressions from {\textquoteleft}Pima{\textquoteright} cotton, gene regulatory mechanisms and phenotypic trait divergence. Differentially expressed genes across fibre development correlate with fibre production, potentially contributing to the distinctive fibre quality traits observed in modern cotton cultivars. These genomes and comparative analyses provide a valuable foundation for future genetic endeavours to enhance global cotton yield and sustainability.",

author = "Avinash Sreedasyam and Lovell, {John T.} and Sujan Mamidi and Sameer Khanal and Jenkins, {Jerry W.} and Christopher Plott and Bryan, {Kempton B.} and Zhigang Li and Shengqiang Shu and Joseph Carlson and David Goodstein and {De Santiago}, Luis and Kirkbride, {Ryan C.} and Sebastian Calleja and Todd Campbell and Koebernick, {Jenny C.} and Dever, {Jane K.} and Scheffler, {Jodi A.} and Duke Pauli and Jenkins, {Johnie N.} and McCarty, {Jack C.} and Melissa Williams and Boston, {Lori Beth} and Jenell Webber and Udall, {Joshua A.} and Chen, {Z. Jeffrey} and Fred Bourland and Stiller, {Warwick N.} and Saski, {Christopher A.} and Jane Grimwood and Chee, {Peng W.} and Jones, {Don C.} and Jeremy Schmutz",

note = "Publisher Copyright: {\textcopyright} The Author(s) 2024.",

year = "2024",

month = jun,

doi = "10.1038/s41477-024-01713-z",

language = "English (US)",

volume = "10",

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T1 - Genome resources for three modern cotton lines guide future breeding efforts

AU - Sreedasyam, Avinash

AU - Lovell, John T.

AU - Mamidi, Sujan

AU - Khanal, Sameer

AU - Jenkins, Jerry W.

AU - Plott, Christopher

AU - Bryan, Kempton B.

AU - Li, Zhigang

AU - Shu, Shengqiang

AU - Carlson, Joseph

AU - Goodstein, David

AU - De Santiago, Luis

AU - Kirkbride, Ryan C.

AU - Calleja, Sebastian

AU - Campbell, Todd

AU - Koebernick, Jenny C.

AU - Dever, Jane K.

AU - Scheffler, Jodi A.

AU - Pauli, Duke

AU - Jenkins, Johnie N.

AU - McCarty, Jack C.

AU - Williams, Melissa

AU - Boston, Lori Beth

AU - Webber, Jenell

AU - Udall, Joshua A.

AU - Chen, Z. Jeffrey

AU - Bourland, Fred

AU - Stiller, Warwick N.

AU - Saski, Christopher A.

AU - Grimwood, Jane

AU - Chee, Peng W.

AU - Jones, Don C.

AU - Schmutz, Jeremy

PY - 2024/6

Y1 - 2024/6

N2 - Cotton (Gossypium hirsutum L.) is the key renewable fibre crop worldwide, yet its yield and fibre quality show high variability due to genotype-specific traits and complex interactions among cultivars, management practices and environmental factors. Modern breeding practices may limit future yield gains due to a narrow founding gene pool. Precision breeding and biotechnological approaches offer potential solutions, contingent on accurate cultivar-specific data. Here we address this need by generating high-quality reference genomes for three modern cotton cultivars (‘UGA230’, ‘UA48’ and ‘CSX8308’) and updating the ‘TM-1’ cotton genetic standard reference. Despite hypothesized genetic uniformity, considerable sequence and structural variation was observed among the four genomes, which overlap with ancient and ongoing genomic introgressions from ‘Pima’ cotton, gene regulatory mechanisms and phenotypic trait divergence. Differentially expressed genes across fibre development correlate with fibre production, potentially contributing to the distinctive fibre quality traits observed in modern cotton cultivars. These genomes and comparative analyses provide a valuable foundation for future genetic endeavours to enhance global cotton yield and sustainability.

AB - Cotton (Gossypium hirsutum L.) is the key renewable fibre crop worldwide, yet its yield and fibre quality show high variability due to genotype-specific traits and complex interactions among cultivars, management practices and environmental factors. Modern breeding practices may limit future yield gains due to a narrow founding gene pool. Precision breeding and biotechnological approaches offer potential solutions, contingent on accurate cultivar-specific data. Here we address this need by generating high-quality reference genomes for three modern cotton cultivars (‘UGA230’, ‘UA48’ and ‘CSX8308’) and updating the ‘TM-1’ cotton genetic standard reference. Despite hypothesized genetic uniformity, considerable sequence and structural variation was observed among the four genomes, which overlap with ancient and ongoing genomic introgressions from ‘Pima’ cotton, gene regulatory mechanisms and phenotypic trait divergence. Differentially expressed genes across fibre development correlate with fibre production, potentially contributing to the distinctive fibre quality traits observed in modern cotton cultivars. These genomes and comparative analyses provide a valuable foundation for future genetic endeavours to enhance global cotton yield and sustainability.

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JO - Nature plants

JF - Nature plants

IS - 6

ER -

Genome resources for three modern cotton lines guide future breeding efforts

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