Circumnutation of rice coleoptiles: its relationships with gravitropism and absence in <i>lazy</i> mutants

Yoshihara, Takeshi; Iino, Masashi

doi:10.1111/j.1365-3040.2005.01444.x

Cited by 22 publications

(21 citation statements)

References 32 publications

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“…The atlazy1 and AtLAZY1‐RNAi lines also lacked the transient overshooting of the final angle displayed by the wild type (Figure d). Impaired hypocotyl gravitropism in the atlazy1 lines is similar to the lazy1 coleoptile gravitropism phenotype (Yoshihara and Iino, , ).…”

Section: Resultssupporting

confidence: 54%

“…As rice LAZY1 was found to be essential for coleoptile circumnutation (Yoshihara and Iino, , ), a role for AtLAZY1 in circumnutation of hypocotyls and inflorescence stems was investigated. Hypocotyl circumnutation enhanced by treatment with the ethylene precursor, 1‐aminocyclopropane‐1‐carboxylic‐acid (ACC) (Binder et al ., ) was measured with the HYPO T race tool.…”

Section: Resultsmentioning

confidence: 99%

“…Moreover, analysis of agravitropic mutants pgm ‐ 1 ( phosphoglucomutase ‐ 1 ), sgr1 ( shoot gravitropism1 ) and sgr7 mutants revealed that gravitropism and circumnutation in Arabidopsis inflorescence stems share mechanistic components (Hatakeda et al ., ). In rice, coleoptile circumnutation was severely impaired by the lazy1 mutation (Yoshihara and Iino, ). Yet, AtLAZY1 was not found to play a strong role in the circumnutation of hypocotyls or inflorescence stems (Figure S5).…”

Section: Discussionmentioning

confidence: 99%

“…Pulvini of lazy1 mutants show a reduced gravitropic response (Abe and Suge, 1993). The lazy1 mutation also impairs gravitropism and circumnutation of rice seedling coleoptiles (Abe et al, 1994;Yoshihara and Iino, 2006).…”

Section: Introductionmentioning

confidence: 99%

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AtLAZY1 is a signaling component required for gravitropism of the Arabidopsis thaliana inflorescence

2013

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SUMMARYThe present study identified a family of six A. thaliana genes that share five limited regions of sequence similarity with LAZY1, a gene in Oryza sativa (rice) shown to participate in the early gravity signaling for shoot gravitropism. A T-DNA insertion into the Arabidopsis gene (At5g14090) most similar to LAZY1 increased the inflorescence branch angle to 81°from the wild type value of 42°. RNA interference lines and molecular rescue experiments confirmed the linkage between the branch-angle phenotype and the gene consequently named AtLAZY1. Time-resolved gravitropism measurements of atlazy1 hypocotyls and primary inflorescence stems showed a significantly reduced bending rate during the first hour of response. The subcellular localization of AtLAZY1 protein was investigated to determine if the nuclear localization predicted from the gene sequence was observable and important to its function in shoot gravity responses. AtLAZY1 fused to green fluorescent protein largely rescued the branch-angle phenotype of atlazy1, and was observed by confocal microscopy at the cell periphery and within the nucleus. Mutation of the nuclear localization signal prevented detectable levels of AtLAZY1 in the nucleus without affecting the ability of the gene to rescue the atlazy1 branch-angle phenotype. These results indicate that AtLAZY1 functions in gravity signaling during shoot gravitropism, being a functional ortholog of rice LAZY1. The nuclear pool of the protein appears to be unnecessary for this function, which instead relies on a pool that appears to reside at the cell periphery.

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Section: Resultssupporting

confidence: 54%

Section: Resultsmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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AtLAZY1 is a signaling component required for gravitropism of the Arabidopsis thaliana inflorescence

2013

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“…Auxin gradients control the differential growth that sets the angle (Rosquete et al, 2013). Limiting the influence of gravity by growing plants in microgravity (Lyon, 1968;Hoson et al, 1999) or on a clinostat (Lyon, 1965;Lyon and Yokoyama, 1966;Yoshihara and Iino, 2006) produces the shapes and architectures that would develop if gravity-response mechanisms were not in operation. Some responses to gravistimulation given after a clinostat treatment are opposite to normal gravitropism, but nonetheless are controlled by auxin gradients (Lyon, 1972;Roychoudhry et al, 2013) established by PIN auxin efflux proteins (Rosquete et al, 2013).…”

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confidence: 99%

LAZY Genes Mediate the Effects of Gravity on Auxin Gradients and Plant Architecture

2017

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A rice (Oryza sativa) mutant led to the discovery of a plant-specific LAZY1 protein that controls the orientation of shoots. Arabidopsis (Arabidopsis thaliana) possesses six LAZY genes having spatially distinct expression patterns. Branch angle phenotypes previously associated with single LAZY genes were here studied in roots and shoots of single and higher-order atlazy mutants. The results identify the major contributors to root and shoot branch angles and gravitropic behavior of seedling hypocotyls and primary roots. AtLAZY1 is the principal determinant of inflorescence branch angle. The weeping inflorescence phenotype of atlazy1,2,4 mutants may be due at least in part to a reversal in the gravitropism mechanism. AtLAZY2 and AtLAZY4 determined lateral root branch angle. Lateral roots of the atlazy2,4 double mutant emerged slightly upward, approximately 10°g reater than perpendicular to the primary root axis, and they were agravitropic. Etiolated hypocotyls of the quadruple atlazy1,2,3,4 mutant were essentially agravitropic, but their phototropic response was robust. In light-grown seedlings, the root of the atlazy2,3,4 mutant was also agravitropic but when adapted to dim red light it displayed a reversed gravitropic response. A reversed auxin gradient across the root visualized by a fluorescent signaling reporter explained the reversed, upward bending response. We propose that AtLAZY proteins control plant architecture by coupling gravity sensing to the formation of auxin gradients that override a LAZY-independent mechanism that creates an opposing gravity-induced auxin gradient.

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Mechanisms of Gravity Perception in Higher Plants

Valster¹,

Blancaflor²

2007

Plant Tropisms

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Circumnutation of rice coleoptiles: its relationships with gravitropism and absence in lazy mutants

Cited by 22 publications

References 32 publications

AtLAZY1 is a signaling component required for gravitropism of the Arabidopsis thaliana inflorescence

AtLAZY1 is a signaling component required for gravitropism of the Arabidopsis thaliana inflorescence

LAZY Genes Mediate the Effects of Gravity on Auxin Gradients and Plant Architecture

Mechanisms of Gravity Perception in Higher Plants

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