The gravitropic set-point angle (GSA): the identification of an important developmentally controlled variable governing plant architecture

The angle at which an organ is maintained by gravitropism is characteristic of the organ, its developmental state and the prevailing environmental conditions. We propose that this angle be called the gravitropic set-point angle (GSA), defined as the angle with respect to the gravity vector (with a v...

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Published in	Plant, cell and environment Vol. 18; no. 12; p. 1434
Main Authors	Digby, J, Firn, R D
Format	Journal Article
Language	English
Published	United States 01.12.1995
Subjects	Darkness Gravitropism - physiology Gravitropism - radiation effects Light Phototropism Plant Development Plant Physiological Phenomena Plant Structures - growth & development Plant Structures - physiology Plant Structures - radiation effects Plants - radiation effects Time Factors
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Abstract	The angle at which an organ is maintained by gravitropism is characteristic of the organ, its developmental state and the prevailing environmental conditions. We propose that this angle be called the gravitropic set-point angle (GSA), defined as the angle with respect to the gravity vector (with a vertically downward orientation being 0 degrees) at which an organ is maintained as a consequence of gravitropism. Studies or the gravitropic behaviour of organs from trailing plants show that the GSA is subject to developmental regulation. Depending on the developmental age and prevailing environmental conditions, the GSA of an organ can be set at any value between 0 degrees and 180 degrees. The previously reported reversal of the sign of the gravitropic response in such organs, whether this is brought about developmentally or induced by light, represents the change from one common extreme (GSA = 180 degrees, conventionally referred to as negative orthogravitropism) to another (GSA = 0 degrees, or positive orthogravitropism). The concept of a variable gravitropic set-point offers a more unified view of all forms of gravitropic behaviour than has been advanced previously, and places a new constraint on models of gravitropism. Current models of gravitropism appear to be unable to explain either the ability of organs to change their orientation with respect to gravity as they develop, or the re-orientation that can be observed when some organs are exposed to new environmental conditions.
AbstractList	The angle at which an organ is maintained by gravitropism is characteristic of the organ, its developmental state and the prevailing environmental conditions. We propose that this angle be called the gravitropic set-point angle (GSA), defined as the angle with respect to the gravity vector (with a vertically downward orientation being 0 degrees) at which an organ is maintained as a consequence of gravitropism. Studies or the gravitropic behaviour of organs from trailing plants show that the GSA is subject to developmental regulation. Depending on the developmental age and prevailing environmental conditions, the GSA of an organ can be set at any value between 0 degrees and 180 degrees. The previously reported reversal of the sign of the gravitropic response in such organs, whether this is brought about developmentally or induced by light, represents the change from one common extreme (GSA = 180 degrees, conventionally referred to as negative orthogravitropism) to another (GSA = 0 degrees, or positive orthogravitropism). The concept of a variable gravitropic set-point offers a more unified view of all forms of gravitropic behaviour than has been advanced previously, and places a new constraint on models of gravitropism. Current models of gravitropism appear to be unable to explain either the ability of organs to change their orientation with respect to gravity as they develop, or the re-orientation that can be observed when some organs are exposed to new environmental conditions.
Author	Firn, R D Digby, J
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BackLink	https://www.ncbi.nlm.nih.gov/pubmed/11543210$$D View this record in MEDLINE/PubMed
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SubjectTerms	Darkness Gravitropism - physiology Gravitropism - radiation effects Light Phototropism Plant Development Plant Physiological Phenomena Plant Structures - growth & development Plant Structures - physiology Plant Structures - radiation effects Plants - radiation effects Time Factors
Title	The gravitropic set-point angle (GSA): the identification of an important developmentally controlled variable governing plant architecture
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