The shape of things to come: ovate family proteins regulate plant organ shape

•OFPs interact with TRMs and regulate cell division patterns in several crop species.•TRMs regulate organ shape and microtubule structure.•OFPs may also regulate organ shape in response to external signals and stress.•OFP and TRMs may function with IQDs in organ shape regulation. The shape of produc...

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Veröffentlicht in:	Current opinion in plant biology 2020-02, Vol.53, p.98-105
Hauptverfasser:	Snouffer, Ashley, Kraus, Carmen, van der Knaap, Esther
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Sprache:	eng
Schlagworte:	agronomic traits Arabidopsis cell division crops cytoskeleton fruiting melons plant hormones repressor proteins rice tomatoes
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description	•OFPs interact with TRMs and regulate cell division patterns in several crop species.•TRMs regulate organ shape and microtubule structure.•OFPs may also regulate organ shape in response to external signals and stress.•OFP and TRMs may function with IQDs in organ shape regulation. The shape of produce is an important agronomic trait. The knowledge of the cellular regulation of organ shapes can be implemented in the improvement of a variety of crops. The plant-specific Ovate Family Proteins (OFPs) regulate organ shape in Arabidopsis and many crops including rice, tomato, and melon. Although OFPs were previously described as transcriptional repressors, recent data support a role for the family in organ shape regulation through control of subcellular localization of protein complexes. OFPs interact with TONNEAU1 RECRUITMENT MOTIF (TRMs) and together they regulate cell division patterns in tomato fruit development. OFPs also respond to changes in plant hormones and responses to stress. The OFP-TRM interaction may work in conjunction with additional shape regulators such as IQ67 Domain (IQD) proteins to modulate the response to tissue level cues as well as external stimuli and stressors to form reproducible organ shapes by regulating cytoskeleton activities.
doi_str_mv	10.1016/j.pbi.2019.10.005
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The shape of produce is an important agronomic trait. The knowledge of the cellular regulation of organ shapes can be implemented in the improvement of a variety of crops. The plant-specific Ovate Family Proteins (OFPs) regulate organ shape in Arabidopsis and many crops including rice, tomato, and melon. Although OFPs were previously described as transcriptional repressors, recent data support a role for the family in organ shape regulation through control of subcellular localization of protein complexes. OFPs interact with TONNEAU1 RECRUITMENT MOTIF (TRMs) and together they regulate cell division patterns in tomato fruit development. OFPs also respond to changes in plant hormones and responses to stress. 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The shape of produce is an important agronomic trait. The knowledge of the cellular regulation of organ shapes can be implemented in the improvement of a variety of crops. The plant-specific Ovate Family Proteins (OFPs) regulate organ shape in Arabidopsis and many crops including rice, tomato, and melon. Although OFPs were previously described as transcriptional repressors, recent data support a role for the family in organ shape regulation through control of subcellular localization of protein complexes. OFPs interact with TONNEAU1 RECRUITMENT MOTIF (TRMs) and together they regulate cell division patterns in tomato fruit development. OFPs also respond to changes in plant hormones and responses to stress. 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subjects	agronomic traits Arabidopsis cell division crops cytoskeleton fruiting melons plant hormones repressor proteins rice tomatoes
title	The shape of things to come: ovate family proteins regulate plant organ shape
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