1987
DOI: 10.2307/2444321
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How Cereal Grass Shoots Perceive and Respond To Gravity

Abstract: The leaf-sheath pulvinus of grasses presents a unique system for studying gravitropism, primarily because of its differences from other organs. The mature pulvinus is a discrete organ specialized for gravitropism: it is nongrowing in the absence of gravistimulation and capable of displaying a graviresponse independent of the rest of the plant. In this paper we present a model for gravitropism in pulvini based on recent findings from studies on the mechanisms of graviperception and graviresponse. According … Show more

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Cited by 33 publications
(41 citation statements)
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“…The increase in half-time to maximum bending rate with increasing length of dark pretreatment is also indicative of a delay in response resulting from decreased amyloplast sedimentation rate. If, for example, the amyloplasts also serve as "information carriers" by bringing membrane-bound enzymes to sites where hormones can be released from bound, conjugated forms (12,13) and the amount of hormone released was a function of the total surface area contacted by amyloplasts, then gradual amyloplast sedimentation would lead to gradual hormone release and lengthened half-time to response. Alternatively, if amyloplasts act as "pressure probes" to open or activate stretch-activated ion channels (8), then, again, the slowed sedimentation of amyloplasts would lead to a more gradual opening of channels and a lengthening of the half-time.…”
Section: Resultsmentioning
confidence: 99%
“…The increase in half-time to maximum bending rate with increasing length of dark pretreatment is also indicative of a delay in response resulting from decreased amyloplast sedimentation rate. If, for example, the amyloplasts also serve as "information carriers" by bringing membrane-bound enzymes to sites where hormones can be released from bound, conjugated forms (12,13) and the amount of hormone released was a function of the total surface area contacted by amyloplasts, then gradual amyloplast sedimentation would lead to gradual hormone release and lengthened half-time to response. Alternatively, if amyloplasts act as "pressure probes" to open or activate stretch-activated ion channels (8), then, again, the slowed sedimentation of amyloplasts would lead to a more gradual opening of channels and a lengthening of the half-time.…”
Section: Resultsmentioning
confidence: 99%
“…This altered physical state could make possible the lateral transport of hormones, such as IAA or GAs, or allow for intake or outflow of ions, such as K+ and Ca2+ (8,10,11,13,15,16,25,28). While processes (a) and/or (b) occur, a third possible role (c) is that starch in the statoliths may also serve as a source of substrate (D-glucose) that is used in cell growth metabolism, particularly in the the synthesis of new cell wall polysaccharides (4,5,19,20).…”
Section: Starch Statoliths and Cereal Grass Pulvinimentioning
confidence: 99%
“…Recent studies in our laboratory (19)(20)(21) have been concerned with the cereal grass leaf-sheath pulvinus as a graviresponsive organ system and whether or not the starch-containing plastids in pulvinus cells of this system are indeed the gravisensors (statoliths). The young, undifferentiated grass shoot pulvinus does not possess any starch-containing statoliths, and it shows no upward bending curvature response when oriented horizontally (9,21,29).…”
mentioning
confidence: 99%
“…Since ,-D-glucan was the only wall component to change, it is hypothesized that this change is the basis for the change in wall extensibility. Since wall extensibility changed too slowly to account for growth initiation, it is postulated that asymmetric changes in osmotic solutes act as the driving factor for growth promotion in the graviresponse, while wall extensibility acts as a limiting factor during growth.The graviresponse of the leaf-sheath pulvinus of oat is initiated by the sedimentation of starch grains, which culminates in a hormone-mediated growth response (7,22 …”
mentioning
confidence: 99%