Rice actin binding protein RMD controls crown root angle in response to external phosphate

Root angle has a major impact on acquisition of nutrients like phosphate that accumulate in topsoil and in many species; low phosphate induces shallower root growth as an adaptive response. Identifying genes and mechanisms controlling root angle is therefore of paramount importance to plant breeding...

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Published inNature communications Vol. 9; no. 1; pp. 2346 - 9
Main Authors Huang, Guoqiang, Liang, Wanqi, Sturrock, Craig J., Pandey, Bipin K., Giri, Jitender, Mairhofer, Stefan, Wang, Daoyang, Muller, Lukas, Tan, Hexin, York, Larry M., Yang, Jing, Song, Yu, Kim, Yu-Jin, Qiao, Yang, Xu, Jian, Kepinski, Stefan, Bennett, Malcolm J., Zhang, Dabing
Format Journal Article
LanguageEnglish
Published London Nature Publishing Group UK 11.06.2018
Nature Publishing Group
Nature Portfolio
Subjects
13/1
14/19
14/35
631/449/2661/2665
631/80/128
Actin
Actin Cytoskeleton
Actins - chemistry
Filaments
Gravitropism
Gravity
Gravity Sensing
Green Fluorescent Proteins - metabolism
Humanities and Social Sciences
Indoleacetic Acids - metabolism
Microfilament Proteins - metabolism
Morphology
multidisciplinary
Mutation
Nutrients
Organelles
Oryza - physiology
Phosphate
Phosphates
Phosphates - chemistry
Plant Breeding
Plant growth
Plant Proteins - metabolism
Plant Roots - physiology
Proteins
Science
Science (multidisciplinary)
Seeds
Temperature
Topsoil
Up-Regulation
X-Ray Microtomography
Online AccessGet full text
ISSN2041-1723
2041-1723
DOI10.1038/s41467-018-04710-x

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Abstract Root angle has a major impact on acquisition of nutrients like phosphate that accumulate in topsoil and in many species; low phosphate induces shallower root growth as an adaptive response. Identifying genes and mechanisms controlling root angle is therefore of paramount importance to plant breeding. Here we show that the actin-binding protein Rice Morphology Determinant (RMD) controls root growth angle by linking actin filaments and gravity-sensing organelles termed statoliths. RMD is upregulated in response to low external phosphate and mutants lacking of RMD have steeper crown root growth angles that are unresponsive to phosphate levels. RMD protein localizes to the surface of statoliths, and rmd mutants exhibit faster gravitropic response owing to more rapid statoliths movement. We conclude that adaptive changes to root angle in response to external phosphate availability are RMD dependent, providing a potential target for breeders. The orientation of plant roots responds to gravity and influences nutrient acquisition. Here the authors show that the formin RMD buffers movement of specialized gravity-sensing organelles and report enhanced RMD expression during phosphate deficiency that could alter root angle to improve phosphate uptake.
AbstractList The orientation of plant roots responds to gravity and influences nutrient acquisition. Here the authors show that the formin RMD buffers movement of specialized gravity-sensing organelles and report enhanced RMD expression during phosphate deficiency that could alter root angle to improve phosphate uptake.
Root angle has a major impact on acquisition of nutrients like phosphate that accumulate in topsoil and in many species; low phosphate induces shallower root growth as an adaptive response. Identifying genes and mechanisms controlling root angle is therefore of paramount importance to plant breeding. Here we show that the actin-binding protein Rice Morphology Determinant (RMD) controls root growth angle by linking actin filaments and gravity-sensing organelles termed statoliths. RMD is upregulated in response to low external phosphate and mutants lacking of RMD have steeper crown root growth angles that are unresponsive to phosphate levels. RMD protein localizes to the surface of statoliths, and rmd mutants exhibit faster gravitropic response owing to more rapid statoliths movement. We conclude that adaptive changes to root angle in response to external phosphate availability are RMD dependent, providing a potential target for breeders.
Root angle has a major impact on acquisition of nutrients like phosphate that accumulate in topsoil and in many species; low phosphate induces shallower root growth as an adaptive response. Identifying genes and mechanisms controlling root angle is therefore of paramount importance to plant breeding. Here we show that the actin-binding protein Rice Morphology Determinant (RMD) controls root growth angle by linking actin filaments and gravity-sensing organelles termed statoliths. RMD is upregulated in response to low external phosphate and mutants lacking of RMD have steeper crown root growth angles that are unresponsive to phosphate levels. RMD protein localizes to the surface of statoliths, and rmd mutants exhibit faster gravitropic response owing to more rapid statoliths movement. We conclude that adaptive changes to root angle in response to external phosphate availability are RMD dependent, providing a potential target for breeders. The orientation of plant roots responds to gravity and influences nutrient acquisition. Here the authors show that the formin RMD buffers movement of specialized gravity-sensing organelles and report enhanced RMD expression during phosphate deficiency that could alter root angle to improve phosphate uptake.
Root angle has a major impact on acquisition of nutrients like phosphate that accumulate in topsoil and in many species; low phosphate induces shallower root growth as an adaptive response. Identifying genes and mechanisms controlling root angle is therefore of paramount importance to plant breeding. Here we show that the actin-binding protein Rice Morphology Determinant (RMD) controls root growth angle by linking actin filaments and gravity-sensing organelles termed statoliths. RMD is upregulated in response to low external phosphate and mutants lacking of RMD have steeper crown root growth angles that are unresponsive to phosphate levels. RMD protein localizes to the surface of statoliths, and rmd mutants exhibit faster gravitropic response owing to more rapid statoliths movement. We conclude that adaptive changes to root angle in response to external phosphate availability are RMD dependent, providing a potential target for breeders.Root angle has a major impact on acquisition of nutrients like phosphate that accumulate in topsoil and in many species; low phosphate induces shallower root growth as an adaptive response. Identifying genes and mechanisms controlling root angle is therefore of paramount importance to plant breeding. Here we show that the actin-binding protein Rice Morphology Determinant (RMD) controls root growth angle by linking actin filaments and gravity-sensing organelles termed statoliths. RMD is upregulated in response to low external phosphate and mutants lacking of RMD have steeper crown root growth angles that are unresponsive to phosphate levels. RMD protein localizes to the surface of statoliths, and rmd mutants exhibit faster gravitropic response owing to more rapid statoliths movement. We conclude that adaptive changes to root angle in response to external phosphate availability are RMD dependent, providing a potential target for breeders.
Root angle has a major impact on acquisition of nutrients like phosphate that accumulate in topsoil and in many species; low phosphate induces shallower root growth as an adaptive response. Identifying genes and mechanisms controlling root angle is therefore of paramount importance to plant breeding. Here we show that the actin-binding protein Rice Morphology Determinant (RMD) controls root growth angle by linking actin filaments and gravity-sensing organelles termed statoliths. RMD is upregulated in response to low external phosphate and mutants lacking of RMD have steeper crown root growth angles that are unresponsive to phosphate levels. RMD protein localizes to the surface of statoliths, and rmd mutants exhibit faster gravitropic response owing to more rapid statoliths movement. We conclude that adaptive changes to root angle in response to external phosphate availability are RMD dependent, providing a potential target for breeders.
ArticleNumber 2346
Author Pandey, Bipin K.
Muller, Lukas
Kim, Yu-Jin
York, Larry M.
Xu, Jian
Sturrock, Craig J.
Qiao, Yang
Kepinski, Stefan
Liang, Wanqi
Wang, Daoyang
Song, Yu
Mairhofer, Stefan
Giri, Jitender
Tan, Hexin
Yang, Jing
Zhang, Dabing
Bennett, Malcolm J.
Huang, Guoqiang
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BackLink https://www.ncbi.nlm.nih.gov/pubmed/29892032$$D View this record in MEDLINE/PubMed
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Snippet Root angle has a major impact on acquisition of nutrients like phosphate that accumulate in topsoil and in many species; low phosphate induces shallower root...
The orientation of plant roots responds to gravity and influences nutrient acquisition. Here the authors show that the formin RMD buffers movement of...
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SubjectTerms 13/1
14/19
14/35
631/449/2661/2665
631/80/128
Actin
Actin Cytoskeleton
Actins - chemistry
Filaments
Gravitropism
Gravity
Gravity Sensing
Green Fluorescent Proteins - metabolism
Humanities and Social Sciences
Indoleacetic Acids - metabolism
Microfilament Proteins - metabolism
Morphology
multidisciplinary
Mutation
Nutrients
Organelles
Oryza - physiology
Phosphate
Phosphates
Phosphates - chemistry
Plant Breeding
Plant growth
Plant Proteins - metabolism
Plant Roots - physiology
Proteins
Science
Science (multidisciplinary)
Seeds
Temperature
Topsoil
Up-Regulation
X-Ray Microtomography
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Title Rice actin binding protein RMD controls crown root angle in response to external phosphate
URI https://link.springer.com/article/10.1038/s41467-018-04710-x
https://www.ncbi.nlm.nih.gov/pubmed/29892032
https://www.proquest.com/docview/2053310508
https://www.proquest.com/docview/2054957275
https://pubmed.ncbi.nlm.nih.gov/PMC5995806
https://doaj.org/article/3856262c2ac24f938ba78322ac261fa1
Volume 9
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