Rice microtubule‐associated protein IQ67‐DOMAIN14 regulates grain shape by modulating microtubule cytoskeleton dynamics

Summary Cortical microtubule (MT) arrays play a critical role in plant cell shape determination by defining the direction of cell expansion. As plants continuously adapt to ever‐changing environmental conditions, multiple environmental and developmental inputs need to be translated into changes of t...

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Veröffentlicht in:	Plant biotechnology journal 2020-05, Vol.18 (5), p.1141-1152
Hauptverfasser:	Yang, BaoJun, Wendrich, Jos R., De Rybel, Bert, Weijers, Dolf, Xue, Hong‐Wei
Format:	Artikel
Sprache:	eng
Schlagworte:	Agricultural production Arabidopsis Proteins Calcium-binding protein Calmodulin calmodulin (CaM) cell shape Cell size Cortex Crop yield Cytoskeleton Ectopic expression Environmental changes Environmental conditions Fruits Genes Grain size microtubule Microtubule-Associated Proteins Microtubules Morphogenesis Morphology Mutation Oryza - genetics OsIQD14 Proteins Rice Rice hulls Roles Seeds Statistical analysis
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creator	Yang, BaoJun Wendrich, Jos R. De Rybel, Bert Weijers, Dolf Xue, Hong‐Wei
description	Summary Cortical microtubule (MT) arrays play a critical role in plant cell shape determination by defining the direction of cell expansion. As plants continuously adapt to ever‐changing environmental conditions, multiple environmental and developmental inputs need to be translated into changes of the MT cytoskeleton. Here, we identify and functionally characterize an auxin‐inducible and MT‐localized protein OsIQ67‐DOMAIN14 (OsIQD14), which is highly expressed in rice seed hull cells. We show that while deficiency of OsIQD14 results in short and wide seeds and increases overall yield, overexpression leads to narrow and long seeds, caused by changed MT alignment. We further show that OsIQD14‐mediated MT reordering is regulated by specifically affecting MT dynamics, and ectopic expression of OsIQD14 in Arabidopsis could change the cell shape both in pavement cells and in hypocotyl cells. Additionally, OsIQD14 activity is tightly controlled by calmodulin proteins, providing an alternative way to modify the OsIQD14 activity. Our results indicate that OsIQD14 acts as a key factor in regulating MT rearrangements in rice hull cells and hence the grain shape, and allows effective local cell shape manipulation to improve the rice yield trait.
doi_str_mv	10.1111/pbi.13279
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As plants continuously adapt to ever‐changing environmental conditions, multiple environmental and developmental inputs need to be translated into changes of the MT cytoskeleton. Here, we identify and functionally characterize an auxin‐inducible and MT‐localized protein OsIQ67‐DOMAIN14 (OsIQD14), which is highly expressed in rice seed hull cells. We show that while deficiency of OsIQD14 results in short and wide seeds and increases overall yield, overexpression leads to narrow and long seeds, caused by changed MT alignment. We further show that OsIQD14‐mediated MT reordering is regulated by specifically affecting MT dynamics, and ectopic expression of OsIQD14 in Arabidopsis could change the cell shape both in pavement cells and in hypocotyl cells. Additionally, OsIQD14 activity is tightly controlled by calmodulin proteins, providing an alternative way to modify the OsIQD14 activity. Our results indicate that OsIQD14 acts as a key factor in regulating MT rearrangements in rice hull cells and hence the grain shape, and allows effective local cell shape manipulation to improve the rice yield trait.</description><identifier>ISSN: 1467-7644</identifier><identifier>EISSN: 1467-7652</identifier><identifier>DOI: 10.1111/pbi.13279</identifier><identifier>PMID: 31622529</identifier><language>eng</language><publisher>England: John Wiley & Sons, Inc</publisher><subject>Agricultural production ; Arabidopsis Proteins ; Calcium-binding protein ; Calmodulin ; calmodulin (CaM) ; cell shape ; Cell size ; Cortex ; Crop yield ; Cytoskeleton ; Ectopic expression ; Environmental changes ; Environmental conditions ; Fruits ; Genes ; Grain size ; microtubule ; Microtubule-Associated Proteins ; Microtubules ; Morphogenesis ; Morphology ; Mutation ; Oryza - genetics ; OsIQD14 ; Proteins ; Rice ; Rice hulls ; Roles ; Seeds ; Statistical analysis</subject><ispartof>Plant biotechnology journal, 2020-05, Vol.18 (5), p.1141-1152</ispartof><rights>2019 The Authors. published by Society for Experimental Biology and The Association of Applied Biologists and John Wiley & Sons Ltd.</rights><rights>2019 The Authors. Plant Biotechnology Journal published by Society for Experimental Biology and The Association of Applied Biologists and John Wiley & Sons Ltd.</rights><rights>2020. This work is published under http://creativecommons.org/licenses/by-nc/4.0/ (the "License"). 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As plants continuously adapt to ever‐changing environmental conditions, multiple environmental and developmental inputs need to be translated into changes of the MT cytoskeleton. Here, we identify and functionally characterize an auxin‐inducible and MT‐localized protein OsIQ67‐DOMAIN14 (OsIQD14), which is highly expressed in rice seed hull cells. We show that while deficiency of OsIQD14 results in short and wide seeds and increases overall yield, overexpression leads to narrow and long seeds, caused by changed MT alignment. We further show that OsIQD14‐mediated MT reordering is regulated by specifically affecting MT dynamics, and ectopic expression of OsIQD14 in Arabidopsis could change the cell shape both in pavement cells and in hypocotyl cells. Additionally, OsIQD14 activity is tightly controlled by calmodulin proteins, providing an alternative way to modify the OsIQD14 activity. 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As plants continuously adapt to ever‐changing environmental conditions, multiple environmental and developmental inputs need to be translated into changes of the MT cytoskeleton. Here, we identify and functionally characterize an auxin‐inducible and MT‐localized protein OsIQ67‐DOMAIN14 (OsIQD14), which is highly expressed in rice seed hull cells. We show that while deficiency of OsIQD14 results in short and wide seeds and increases overall yield, overexpression leads to narrow and long seeds, caused by changed MT alignment. We further show that OsIQD14‐mediated MT reordering is regulated by specifically affecting MT dynamics, and ectopic expression of OsIQD14 in Arabidopsis could change the cell shape both in pavement cells and in hypocotyl cells. Additionally, OsIQD14 activity is tightly controlled by calmodulin proteins, providing an alternative way to modify the OsIQD14 activity. Our results indicate that OsIQD14 acts as a key factor in regulating MT rearrangements in rice hull cells and hence the grain shape, and allows effective local cell shape manipulation to improve the rice yield trait.</abstract><cop>England</cop><pub>John Wiley & Sons, Inc</pub><pmid>31622529</pmid><doi>10.1111/pbi.13279</doi><tpages>12</tpages><orcidid>https://orcid.org/0000-0002-7641-5320</orcidid><oa>free_for_read</oa></addata></record>
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subjects	Agricultural production Arabidopsis Proteins Calcium-binding protein Calmodulin calmodulin (CaM) cell shape Cell size Cortex Crop yield Cytoskeleton Ectopic expression Environmental changes Environmental conditions Fruits Genes Grain size microtubule Microtubule-Associated Proteins Microtubules Morphogenesis Morphology Mutation Oryza - genetics OsIQD14 Proteins Rice Rice hulls Roles Seeds Statistical analysis
title	Rice microtubule‐associated protein IQ67‐DOMAIN14 regulates grain shape by modulating microtubule cytoskeleton dynamics
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