The Spirodela polyrhiza genome reveals insights into its neotenous reduction fast growth and aquatic lifestyle

The subfamily of the Lemnoideae belongs to a different order than other monocotyledonous species that have been sequenced and comprises aquatic plants that grow rapidly on the water surface. Here we select Spirodela polyrhiza for whole-genome sequencing. We show that Spirodela has a genome with no s...

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Autores principales: Wang, W., Haberer, G., Gundlach, H., Gläßer, C., Nussbaumer, T., Luo, M.C., Lomsadze, A., Borodovsky, M., Kerstetter, R.A., Shanklin, J., Byrant, D.W., Mockler, T.C., Appenroth, K.J., Grimwood, J., Jenkins, J., Chow, J., Choi, C., Adam, C., Cao, X.-H., Fuchs, J., Schubert, I., Rokhsar, D., Schmutz, J., Michael, T.P., Mayer, K.F.X., Messing, J
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Nature Pub. Group 2014
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3948053/
https://www.ncbi.nlm.nih.gov/pubmed/24548928
http://dx.doi.org/10.1038/ncomms4311
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author Wang, W.
Haberer, G.
Gundlach, H.
Gläßer, C.
Nussbaumer, T.
Luo, M.C.
Lomsadze, A.
Borodovsky, M.
Kerstetter, R.A.
Shanklin, J.
Byrant, D.W.
Mockler, T.C.
Appenroth, K.J.
Grimwood, J.
Jenkins, J.
Chow, J.
Choi, C.
Adam, C.
Cao, X.-H.
Fuchs, J.
Schubert, I.
Rokhsar, D.
Schmutz, J.
Michael, T.P.
Mayer, K.F.X.
Messing, J
author_facet Wang, W.
Haberer, G.
Gundlach, H.
Gläßer, C.
Nussbaumer, T.
Luo, M.C.
Lomsadze, A.
Borodovsky, M.
Kerstetter, R.A.
Shanklin, J.
Byrant, D.W.
Mockler, T.C.
Appenroth, K.J.
Grimwood, J.
Jenkins, J.
Chow, J.
Choi, C.
Adam, C.
Cao, X.-H.
Fuchs, J.
Schubert, I.
Rokhsar, D.
Schmutz, J.
Michael, T.P.
Mayer, K.F.X.
Messing, J
author_sort Wang, W.
collection PubMed
description The subfamily of the Lemnoideae belongs to a different order than other monocotyledonous species that have been sequenced and comprises aquatic plants that grow rapidly on the water surface. Here we select Spirodela polyrhiza for whole-genome sequencing. We show that Spirodela has a genome with no signs of recent retrotranspositions but signatures of two ancient whole-genome duplications, possibly 95 million years ago (mya), older than those in Arabidopsis and rice. Its genome has only 19,623 predicted protein-coding genes, which is 28% less than the dicotyledonous Arabidopsis thaliana and 50% less than monocotyledonous rice. We propose that at least in part, the neotenous reduction of these aquatic plants is based on readjusted copy numbers of promoters and repressors of the juvenile-to-adult transition. The Spirodela genome, along with its unique biology and physiology, will stimulate new insights into environmental adaptation, ecology, evolution and plant development, and will be instrumental for future bioenergy applications.
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spelling pubmed-39480532014-03-10 The Spirodela polyrhiza genome reveals insights into its neotenous reduction fast growth and aquatic lifestyle Wang, W. Haberer, G. Gundlach, H. Gläßer, C. Nussbaumer, T. Luo, M.C. Lomsadze, A. Borodovsky, M. Kerstetter, R.A. Shanklin, J. Byrant, D.W. Mockler, T.C. Appenroth, K.J. Grimwood, J. Jenkins, J. Chow, J. Choi, C. Adam, C. Cao, X.-H. Fuchs, J. Schubert, I. Rokhsar, D. Schmutz, J. Michael, T.P. Mayer, K.F.X. Messing, J Nat Commun Article The subfamily of the Lemnoideae belongs to a different order than other monocotyledonous species that have been sequenced and comprises aquatic plants that grow rapidly on the water surface. Here we select Spirodela polyrhiza for whole-genome sequencing. We show that Spirodela has a genome with no signs of recent retrotranspositions but signatures of two ancient whole-genome duplications, possibly 95 million years ago (mya), older than those in Arabidopsis and rice. Its genome has only 19,623 predicted protein-coding genes, which is 28% less than the dicotyledonous Arabidopsis thaliana and 50% less than monocotyledonous rice. We propose that at least in part, the neotenous reduction of these aquatic plants is based on readjusted copy numbers of promoters and repressors of the juvenile-to-adult transition. The Spirodela genome, along with its unique biology and physiology, will stimulate new insights into environmental adaptation, ecology, evolution and plant development, and will be instrumental for future bioenergy applications. Nature Pub. Group 2014-02-19 /pmc/articles/PMC3948053/ /pubmed/24548928 http://dx.doi.org/10.1038/ncomms4311 Text en Copyright © 2014, Nature Publishing Group, a division of Macmillan Publishers Limited. All Rights Reserved. http://creativecommons.org/licenses/by-nc-sa/3.0/ This work is licensed under a Creative Commons Attribution-NonCommercial-ShareAlike 3.0 Unported License. To view a copy of this license, visit http://creativecommons.org/licenses/by-nc-sa/3.0/
spellingShingle Article
Wang, W.
Haberer, G.
Gundlach, H.
Gläßer, C.
Nussbaumer, T.
Luo, M.C.
Lomsadze, A.
Borodovsky, M.
Kerstetter, R.A.
Shanklin, J.
Byrant, D.W.
Mockler, T.C.
Appenroth, K.J.
Grimwood, J.
Jenkins, J.
Chow, J.
Choi, C.
Adam, C.
Cao, X.-H.
Fuchs, J.
Schubert, I.
Rokhsar, D.
Schmutz, J.
Michael, T.P.
Mayer, K.F.X.
Messing, J
The Spirodela polyrhiza genome reveals insights into its neotenous reduction fast growth and aquatic lifestyle
title The Spirodela polyrhiza genome reveals insights into its neotenous reduction fast growth and aquatic lifestyle
title_full The Spirodela polyrhiza genome reveals insights into its neotenous reduction fast growth and aquatic lifestyle
title_fullStr The Spirodela polyrhiza genome reveals insights into its neotenous reduction fast growth and aquatic lifestyle
title_full_unstemmed The Spirodela polyrhiza genome reveals insights into its neotenous reduction fast growth and aquatic lifestyle
title_short The Spirodela polyrhiza genome reveals insights into its neotenous reduction fast growth and aquatic lifestyle
title_sort spirodela polyrhiza genome reveals insights into its neotenous reduction fast growth and aquatic lifestyle
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3948053/
https://www.ncbi.nlm.nih.gov/pubmed/24548928
http://dx.doi.org/10.1038/ncomms4311
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