Conservation and canalization of gene expression during angiosperm diversification accompany the origin and evolution of the flower

André S. Chanderbali; Mi Jeong Yoo; Laura M. Zahn; Samuel F. Brockington; P. Kerr Wall; Matthew A. Gitzendanner; Victor A. Albert; James Leebens-Mack; Naomi S. Altman; Ma Hong; Claude W. DePamphilis; Douglas E. Soltis; Pamela S. Soltis

doi:10.1073/pnas.1013395108

Conservation and canalization of gene expression during angiosperm diversification accompany the origin and evolution of the flower

André S. Chanderbali, Mi Jeong Yoo, Laura M. Zahn, Samuel F. Brockington, P. Kerr Wall, Matthew A. Gitzendanner, Victor A. Albert, James Leebens-Mack, Naomi S. Altman, Ma Hong, Claude W. DePamphilis, Douglas E. Soltis, Pamela S. Soltis

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67 Scopus citations

Abstract

The origin and rapid diversification of the angiosperms (Darwin's "Abominable Mystery") has engaged generations of researchers. Here, we examine the floral genetic programs of phylogenetically pivotal angiosperms (water lily, avocado, California poppy, and Arabidopsis) and a nonflowering seed plant (a cycad) to obtain insight into the origin and subsequent evolution of the flower. Transcriptional cascades with broadly overlapping spatial domains, resembling the hypothesized ancestral gymnosperm program, are deployed across morphologically intergrading organs in water lily and avocado flowers. In contrast, spatially discrete transcriptional programs in distinct floral organs characterize the more recently derived angiosperm lineages represented by California poppy and Arabidopsis. Deep evolutionary conservation in the genetic programs of putatively homologous floral organs traces to those operating in gymnosperm reproductive cones. Female gymnosperm cones and angiosperm carpels share conserved genetic features, which may be associated with the ovule developmental program common to both organs. However, male gymnosperm cones share genetic features with both perianth (sterile attractive and protective) organs and stamens, supporting the evolutionary origin of the floral perianth from the male genetic program of seed plants.

Original language	English (US)
Pages (from-to)	22570-22575
Number of pages	6
Journal	Proceedings of the National Academy of Sciences of the United States of America
Volume	107
Issue number	52
DOIs	https://doi.org/10.1073/pnas.1013395108
State	Published - Dec 28 2010

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Chanderbali, A. S., Yoo, M. J., Zahn, L. M., Brockington, S. F., Wall, P. K., Gitzendanner, M. A., Albert, V. A., Leebens-Mack, J., Altman, N. S., Hong, M., DePamphilis, C. W., Soltis, D. E., & Soltis, P. S. (2010). Conservation and canalization of gene expression during angiosperm diversification accompany the origin and evolution of the flower. Proceedings of the National Academy of Sciences of the United States of America, 107(52), 22570-22575. https://doi.org/10.1073/pnas.1013395108

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title = "Conservation and canalization of gene expression during angiosperm diversification accompany the origin and evolution of the flower",

abstract = "The origin and rapid diversification of the angiosperms (Darwin's {"}Abominable Mystery{"}) has engaged generations of researchers. Here, we examine the floral genetic programs of phylogenetically pivotal angiosperms (water lily, avocado, California poppy, and Arabidopsis) and a nonflowering seed plant (a cycad) to obtain insight into the origin and subsequent evolution of the flower. Transcriptional cascades with broadly overlapping spatial domains, resembling the hypothesized ancestral gymnosperm program, are deployed across morphologically intergrading organs in water lily and avocado flowers. In contrast, spatially discrete transcriptional programs in distinct floral organs characterize the more recently derived angiosperm lineages represented by California poppy and Arabidopsis. Deep evolutionary conservation in the genetic programs of putatively homologous floral organs traces to those operating in gymnosperm reproductive cones. Female gymnosperm cones and angiosperm carpels share conserved genetic features, which may be associated with the ovule developmental program common to both organs. However, male gymnosperm cones share genetic features with both perianth (sterile attractive and protective) organs and stamens, supporting the evolutionary origin of the floral perianth from the male genetic program of seed plants.",

author = "Chanderbali, {Andr{\'e} S.} and Yoo, {Mi Jeong} and Zahn, {Laura M.} and Brockington, {Samuel F.} and Wall, {P. Kerr} and Gitzendanner, {Matthew A.} and Albert, {Victor A.} and James Leebens-Mack and Altman, {Naomi S.} and Ma Hong and DePamphilis, {Claude W.} and Soltis, {Douglas E.} and Soltis, {Pamela S.}",

year = "2010",

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doi = "10.1073/pnas.1013395108",

language = "English (US)",

volume = "107",

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Chanderbali, AS, Yoo, MJ, Zahn, LM, Brockington, SF, Wall, PK, Gitzendanner, MA, Albert, VA, Leebens-Mack, J, Altman, NS, Hong, M , DePamphilis, CW, Soltis, DE & Soltis, PS 2010, 'Conservation and canalization of gene expression during angiosperm diversification accompany the origin and evolution of the flower', Proceedings of the National Academy of Sciences of the United States of America, vol. 107, no. 52, pp. 22570-22575. https://doi.org/10.1073/pnas.1013395108

Conservation and canalization of gene expression during angiosperm diversification accompany the origin and evolution of the flower. / Chanderbali, André S.; Yoo, Mi Jeong; Zahn, Laura M. et al.
In: Proceedings of the National Academy of Sciences of the United States of America, Vol. 107, No. 52, 28.12.2010, p. 22570-22575.

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

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T1 - Conservation and canalization of gene expression during angiosperm diversification accompany the origin and evolution of the flower

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AU - Yoo, Mi Jeong

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AU - Brockington, Samuel F.

AU - Wall, P. Kerr

AU - Gitzendanner, Matthew A.

AU - Albert, Victor A.

AU - Leebens-Mack, James

AU - Altman, Naomi S.

AU - Hong, Ma

AU - DePamphilis, Claude W.

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AU - Soltis, Pamela S.

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AB - The origin and rapid diversification of the angiosperms (Darwin's "Abominable Mystery") has engaged generations of researchers. Here, we examine the floral genetic programs of phylogenetically pivotal angiosperms (water lily, avocado, California poppy, and Arabidopsis) and a nonflowering seed plant (a cycad) to obtain insight into the origin and subsequent evolution of the flower. Transcriptional cascades with broadly overlapping spatial domains, resembling the hypothesized ancestral gymnosperm program, are deployed across morphologically intergrading organs in water lily and avocado flowers. In contrast, spatially discrete transcriptional programs in distinct floral organs characterize the more recently derived angiosperm lineages represented by California poppy and Arabidopsis. Deep evolutionary conservation in the genetic programs of putatively homologous floral organs traces to those operating in gymnosperm reproductive cones. Female gymnosperm cones and angiosperm carpels share conserved genetic features, which may be associated with the ovule developmental program common to both organs. However, male gymnosperm cones share genetic features with both perianth (sterile attractive and protective) organs and stamens, supporting the evolutionary origin of the floral perianth from the male genetic program of seed plants.

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Conservation and canalization of gene expression during angiosperm diversification accompany the origin and evolution of the flower

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