A dominant mutation of TWISTED DWARF 1 encoding an .ALPHA.-tubulin protein causes severe dwarfism and right helical growth in rice

Sunohara, Hidehiko; Kawai, Takayuki; Shimizu-Sato, Sae; Satō, Yutaka; Sato, Kanna; Kitano, Hidemi

doi:10.1266/ggs.84.209

Cited by 51 publications

(45 citation statements)

References 45 publications

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“…Although cellulose-deficient mutants (i.e., mutants that have reduced CESA velocities and cellulose content) typically display defects in microtubule organization (Paredez et al, 2008), no spiraling phenotypes have been reported. Moreover, clasp and other microtubule-related mutants also affect mitotic activity, presumably by disturbances in the mitotic spindle formation (Ambrose et al, 2007;Kirik et al, 2007;Sunohara et al, 2009). Interestingly, pom2/csi1 mutants also held a reduced number of cells that actively divided in the root meristem.…”

Section: Discussionmentioning

confidence: 99%

“…Apart from altered microtubule organization, mutations in several microtubule-associated genes also lead to reduced mitotic activity (Ambrose et al, 2007;Kirik et al, 2007;Sunohara et al, 2009). To test whether the pom2 mutants also hold fewer cells that actively divide, we crossed lines expressing the mitotic marker cycB1;1:Cyclin Destruction Box (CDB):b-glucuronidase (GUS) (Hauser and Bauer, 2000) with several pom2 mutant alleles.…”

Section: Pom2/csi1 Mutants Display Microtubule-related Phenotypes Andmentioning

confidence: 99%

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POM-POM2/CELLULOSE SYNTHASE INTERACTING1 Is Essential for the Functional Association of Cellulose Synthase and Microtubules inArabidopsis

et al. 2012

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In plants, regulation of cellulose synthesis is fundamental for morphogenesis and plant growth. Cellulose is synthesized at the plasma membrane, and the orientation of synthesis is guided by cortical microtubules; however, the guiding mechanism is currently unknown. We show that the conditional root elongation pom2 mutants are impaired in cell elongation, fertility, and microtubule-related functions. Map-based cloning of the POM-POM2 locus revealed that it is allelic to CELLULOSE SYNTHASE INTERACTING1 (CSI1). Fluorescently tagged POM2/CSI1s associated with both plasma membrane-located cellulose synthases (CESAs) and post-Golgi CESA-containing compartments. Interestingly, while CESA insertions coincided with cortical microtubules in the pom2/csi1 mutants, the microtubule-defined movement of the CESAs was significantly reduced in the mutant. We propose that POM2/CSI1 provides a scaffold between the CESAs and cortical microtubules that guide cellulose synthesis.

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Section: Discussionmentioning

confidence: 99%

Section: Pom2/csi1 Mutants Display Microtubule-related Phenotypes Andmentioning

confidence: 99%

POM-POM2/CELLULOSE SYNTHASE INTERACTING1 Is Essential for the Functional Association of Cellulose Synthase and Microtubules inArabidopsis

et al. 2012

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“…In response to environmental and developmental stimuli, the microtubule system can be reoriented, such as undergoing clockwise or counterclockwise rotation in plant cells (Lloyd and Chan, 2004;Chan et al, 2007). In plants, components of the microtubule system have been shown to be critical for plant architecture (Thitamadee et al, 2002;Twell et al, 2002;Nakajima et al, 2004;Sedbrook, 2004;Sunohara et al, 2009). For example, the rice TWISTED DWARF1 (TID1) gene encodes an a-tubulin that influences plant morphology; a dominant mutation of TID1 caused disrupted cellular microtubule arrays, severe dwarfism, and right helical growth (Sunohara et al, 2009).…”

Section: Fh5 Affects the Formation Of Microtubule Arrays In Ricementioning

confidence: 99%

RICE MORPHOLOGY DETERMINANTEncodes the Type II Formin FH5 and Regulates Rice Morphogenesis

et al. 2011

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Multicellular organisms contain a large number of formins; however, their physiological roles in plants remain poorly understood. Here, we reveal that formin homology 5 (FH5), a type II formin mutated in rice morphology determinant (rmd), plays a crucial role in determining rice (Oryza sativa) morphology. FH5/RMD encodes a formin-like protein consisting of an N-terminal phosphatase tensin (PTEN)-like domain, an FH1 domain, and an FH2 domain. The rmd mutants display a bending growth pattern in seedlings, are stunted as adult plants, and have aberrant inflorescence (panicle) and seed shape. Cytological analysis showed that rmd mutants have severe cell elongation defects and abnormal microtubule and microfilament arrays. FH5/RMD is ubiquitously expressed in rice tissues, and its protein localization to the chloroplast surface is mediated by the PTEN domain. Biochemical assays demonstrated that recombinant FH5 protein can nucleate actin polymerization from monomeric G-actin or actin/profilin complexes, cap the barbed end of actin filaments, and bundle actin filaments in vitro. Moreover, FH5 can directly bind to and bundle microtubules through its FH2 domain in vitro. Our findings suggest that the rice formin protein FH5 plays a critical role in determining plant morphology by regulating actin dynamics and proper spatial organization of microtubules and microfilaments.

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“…The gene for the semi-dominant, gain-of-function mutant Slr-d , located on chromosome 3, is a consequence of a mutation in the gene encoding the rice DELLA protein SLR1 , which functions as a repressor of GA signaling through an interaction with the GA receptor GID1 [7]. The gene for another dominant dwarf mutant, Twisted dwarf 1 ( Td1 ), was located on chromosome 11 and was found to encode the α-tubulin protein; this has been recognized as an additional factor that determines plant height through the regulation of microtubule formation [16]. The loci for other dominant dwarf mutants, including D53 , Ssi1 , Sdd(t) , Dx , and LB4D , were identified on chromosomes 11, 1, 6, 8, and 11, respectively [13]–[15], [17], [18].…”

Section: Discussionmentioning

confidence: 99%

Isolation and Characterization of a Dominant Dwarf Gene, D-h, in Rice

et al. 2014

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Plant height is an important agronomic trait that affects grain yield. Previously, we reported a novel semi-dominant dwarfmutant, HD1, derived from chemical mutagenesis using N-methyl-N-nitrosourea (MNU) on a japonica rice cultivar, Hwacheong. In this study, we cloned the gene responsible for the dwarf mutant using a map-based approach. Fine mapping revealed that the mutant gene was located on the short arm of chromosome 1 in a 48 kb region. Sequencing of the candidate genes and rapid amplification of cDNA ends-polymerase chain reaction (RACE-PCR) analysis identified the gene, d-h, which encodes a protein of unknown function but whose sequence is conserved in other cereal crops. Real-time (RT)-PCR analysis and promoter activity assays showed that the d-h gene was primarily expressed in the nodes and the panicle. In the HD1 plant, the d-h gene was found to carry a 63-bp deletion in the ORF region that was subsequently confirmed by transgenic experiments to be directly responsible for the gain-of-function phenotype observed in the mutant. Since the mutant plants exhibit a defect in GA response, but not in the GA synthetic pathway, it appears that the d-h gene may be involved in a GA signaling pathway.

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A dominant mutation of TWISTED DWARF 1 encoding an .ALPHA.-tubulin protein causes severe dwarfism and right helical growth in rice

Cited by 51 publications

References 45 publications

POM-POM2/CELLULOSE SYNTHASE INTERACTING1 Is Essential for the Functional Association of Cellulose Synthase and Microtubules inArabidopsis

POM-POM2/CELLULOSE SYNTHASE INTERACTING1 Is Essential for the Functional Association of Cellulose Synthase and Microtubules inArabidopsis

RICE MORPHOLOGY DETERMINANTEncodes the Type II Formin FH5 and Regulates Rice Morphogenesis

Isolation and Characterization of a Dominant Dwarf Gene, D-h, in Rice

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