The ABCs of flower development: mutational analysis of AP1/FUL‐like genes in rice provides evidence for a homeotic (A)‐function in grasses

Summary The well‐known ABC model describes the combinatorial interaction of homeotic genes in specifying floral organ identities. While the B‐ and C‐functions are highly conserved throughout flowering plants and even in gymnosperms, the A‐function, which specifies the identity of perianth organs (se...

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Published in	The Plant journal : for cell and molecular biology Vol. 89; no. 2; pp. 310 - 324
Main Authors	Wu, Feng, Shi, Xiaowei, Lin, Xuelei, Liu, Yuan, Chong, Kang, Theißen, Günter, Meng, Zheng
Format	Journal Article
Language	English
Published	England Blackwell Publishing Ltd 01.01.2017
Subjects	(A)‐function AP1‐like genes Arabidopsis Arabidopsis - genetics Botany calyx Combinatorial analysis corolla Flowering Flowering plants Flowers - genetics Flowers - growth & development Gene Expression Regulation, Plant Genes Genetic Complementation Test Genetics Grasses Gymnospermae Gymnosperms homeotic gene homeotic genes Homology Inflorescence - genetics MADS Domain Proteins - genetics MADS Domain Proteins - metabolism MADS‐box gene Meristem - genetics Meristem - growth & development meristems mutants Mutation mutational analysis Oryza - genetics Oryza - growth & development Oryza sativa Oryza sativa ssp. L Petals Phylogeny Plant Proteins - genetics Plant Proteins - metabolism Plants (botany) Plants, Genetically Modified Poaceae - genetics Rice Sepals Transcription factors (A)-function Oryza sativa ssp. L AP1-like genes MADS-box gene homeotic gene
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Abstract	Summary The well‐known ABC model describes the combinatorial interaction of homeotic genes in specifying floral organ identities. While the B‐ and C‐functions are highly conserved throughout flowering plants and even in gymnosperms, the A‐function, which specifies the identity of perianth organs (sepals and petals in eudicots), remains controversial. One reason for this is that in most plants that have been investigated thus far, with Arabidopsis being a remarkable exception, one does not find recessive mutants in which the identity of both types of perianth organs is affected. Here we report a comprehensive mutational analysis of all four members of the AP1/FUL‐like subfamily of MADS‐box genes in rice (Oryza sativa). We demonstrate that OsMADS14 and OsMADS15, in addition to their function of specifying meristem identity, are also required to specify palea and lodicule identities. Because these two grass‐specific organs are very likely homologous to sepals and petals of eudicots, respectively, we conclude that there is a floral homeotic (A)‐function in rice as defined previously. Together with other recent findings, our data suggest that AP1/FUL‐like genes were independently recruited to fulfil the (A)‐function in grasses and some eudicots, even though other scenarios cannot be excluded and are discussed. Significance Statement Although the well‐known ABC model for specifying floral whorl identity was published 25 years ago, the A‐function (specifying sepals and petals) remains highly controversial. Here we functionally characterized all rice AP1/FUL subfamily genes and provide strong evidence that, in addition to their ancestral function in specifying floral meristem identity, two AP/FUL genes act together to fulfill an (A)‐function, specifying palea and lodicule identities.
AbstractList	Summary The well-known ABC model describes the combinatorial interaction of homeotic genes in specifying floral organ identities. While the B- and C-functions are highly conserved throughout flowering plants and even in gymnosperms, the A-function, which specifies the identity of perianth organs (sepals and petals in eudicots), remains controversial. One reason for this is that in most plants that have been investigated thus far, with Arabidopsis being a remarkable exception, one does not find recessive mutants in which the identity of both types of perianth organs is affected. Here we report a comprehensive mutational analysis of all four members of the AP1/FUL-like subfamily of MADS-box genes in rice (Oryza sativa). We demonstrate that OsMADS14 and OsMADS15, in addition to their function of specifying meristem identity, are also required to specify palea and lodicule identities. Because these two grass-specific organs are very likely homologous to sepals and petals of eudicots, respectively, we conclude that there is a floral homeotic (A)-function in rice as defined previously. Together with other recent findings, our data suggest that AP1/FUL-like genes were independently recruited to fulfil the (A)-function in grasses and some eudicots, even though other scenarios cannot be excluded and are discussed. Significance Statement Although the well-known ABC model for specifying floral whorl identity was published 25 years ago, the A-function (specifying sepals and petals) remains highly controversial. Here we functionally characterized all rice AP1/FUL subfamily genes and provide strong evidence that, in addition to their ancestral function in specifying floral meristem identity, two AP/FUL genes act together to fulfill an (A)-function, specifying palea and lodicule identities. The well‐known ABC model describes the combinatorial interaction of homeotic genes in specifying floral organ identities. While the B‐ and C‐functions are highly conserved throughout flowering plants and even in gymnosperms, the A‐function, which specifies the identity of perianth organs (sepals and petals in eudicots), remains controversial. One reason for this is that in most plants that have been investigated thus far, with Arabidopsis being a remarkable exception, one does not find recessive mutants in which the identity of both types of perianth organs is affected. Here we report a comprehensive mutational analysis of all four members of the AP1/FUL‐like subfamily of MADS‐box genes in rice (Oryza sativa). We demonstrate that OsMADS14 and OsMADS15, in addition to their function of specifying meristem identity, are also required to specify palea and lodicule identities. Because these two grass‐specific organs are very likely homologous to sepals and petals of eudicots, respectively, we conclude that there is a floral homeotic (A)‐function in rice as defined previously. Together with other recent findings, our data suggest that AP1/FUL‐like genes were independently recruited to fulfil the (A)‐function in grasses and some eudicots, even though other scenarios cannot be excluded and are discussed. Summary The well‐known ABC model describes the combinatorial interaction of homeotic genes in specifying floral organ identities. While the B‐ and C‐functions are highly conserved throughout flowering plants and even in gymnosperms, the A‐function, which specifies the identity of perianth organs (sepals and petals in eudicots), remains controversial. One reason for this is that in most plants that have been investigated thus far, with Arabidopsis being a remarkable exception, one does not find recessive mutants in which the identity of both types of perianth organs is affected. Here we report a comprehensive mutational analysis of all four members of the AP1/FUL‐like subfamily of MADS‐box genes in rice (Oryza sativa). We demonstrate that OsMADS14 and OsMADS15, in addition to their function of specifying meristem identity, are also required to specify palea and lodicule identities. Because these two grass‐specific organs are very likely homologous to sepals and petals of eudicots, respectively, we conclude that there is a floral homeotic (A)‐function in rice as defined previously. Together with other recent findings, our data suggest that AP1/FUL‐like genes were independently recruited to fulfil the (A)‐function in grasses and some eudicots, even though other scenarios cannot be excluded and are discussed. Significance Statement Although the well‐known ABC model for specifying floral whorl identity was published 25 years ago, the A‐function (specifying sepals and petals) remains highly controversial. Here we functionally characterized all rice AP1/FUL subfamily genes and provide strong evidence that, in addition to their ancestral function in specifying floral meristem identity, two AP/FUL genes act together to fulfill an (A)‐function, specifying palea and lodicule identities. The well-known ABC model describes the combinatorial interaction of homeotic genes in specifying floral organ identities. While the B- and C-functions are highly conserved throughout flowering plants and even in gymnosperms, the A-function, which specifies the identity of perianth organs (sepals and petals in eudicots), remains controversial. One reason for this is that in most plants that have been investigated thus far, with Arabidopsis being a remarkable exception, one does not find recessive mutants in which the identity of both types of perianth organs is affected. Here we report a comprehensive mutational analysis of all four members of the AP1/FUL-like subfamily of MADS-box genes in rice (Oryza sativa). We demonstrate that OsMADS14 and OsMADS15, in addition to their function of specifying meristem identity, are also required to specify palea and lodicule identities. Because these two grass-specific organs are very likely homologous to sepals and petals of eudicots, respectively, we conclude that there is a floral homeotic (A)-function in rice as defined previously. Together with other recent findings, our data suggest that AP1/FUL-like genes were independently recruited to fulfil the (A)-function in grasses and some eudicots, even though other scenarios cannot be excluded and are discussed. Significance Statement Although the well-known ABC model for specifying floral whorl identity was published 25 years ago, the A-function (specifying sepals and petals) remains highly controversial. Here we functionally characterized all rice AP1/FUL subfamily genes and provide strong evidence that, in addition to their ancestral function in specifying floral meristem identity, two AP/FUL genes act together to fulfill an (A)-function, specifying palea and lodicule identities.
Author	Shi, Xiaowei Wu, Feng Liu, Yuan Theißen, Günter Chong, Kang Meng, Zheng Lin, Xuelei
Author_xml	– sequence: 1 givenname: Feng surname: Wu fullname: Wu, Feng organization: Chinese Academy of Sciences – sequence: 2 givenname: Xiaowei surname: Shi fullname: Shi, Xiaowei organization: Beijing – sequence: 3 givenname: Xuelei surname: Lin fullname: Lin, Xuelei organization: Chinese Academy of Sciences – sequence: 4 givenname: Yuan surname: Liu fullname: Liu, Yuan organization: Chinese Academy of Sciences – sequence: 5 givenname: Kang surname: Chong fullname: Chong, Kang organization: Chinese Academy of Sciences – sequence: 6 givenname: Günter surname: Theißen fullname: Theißen, Günter organization: Friedrich Schiller University Jena – sequence: 7 givenname: Zheng surname: Meng fullname: Meng, Zheng email: zhmeng@ibcas.ac.cn organization: Chinese Academy of Sciences
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Snippet	Summary The well‐known ABC model describes the combinatorial interaction of homeotic genes in specifying floral organ identities. While the B‐ and C‐functions... The well-known ABC model describes the combinatorial interaction of homeotic genes in specifying floral organ identities. While the B- and C-functions are... Summary The well-known ABC model describes the combinatorial interaction of homeotic genes in specifying floral organ identities. While the B- and C-functions... The well‐known ABC model describes the combinatorial interaction of homeotic genes in specifying floral organ identities. While the B‐ and C‐functions are...
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SubjectTerms	(A)‐function AP1‐like genes Arabidopsis Arabidopsis - genetics Botany calyx Combinatorial analysis corolla Flowering Flowering plants Flowers - genetics Flowers - growth & development Gene Expression Regulation, Plant Genes Genetic Complementation Test Genetics Grasses Gymnospermae Gymnosperms homeotic gene homeotic genes Homology Inflorescence - genetics MADS Domain Proteins - genetics MADS Domain Proteins - metabolism MADS‐box gene Meristem - genetics Meristem - growth & development meristems mutants Mutation mutational analysis Oryza - genetics Oryza - growth & development Oryza sativa Oryza sativa ssp. L Petals Phylogeny Plant Proteins - genetics Plant Proteins - metabolism Plants (botany) Plants, Genetically Modified Poaceae - genetics Rice Sepals Transcription factors
Title	The ABCs of flower development: mutational analysis of AP1/FUL‐like genes in rice provides evidence for a homeotic (A)‐function in grasses
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