Rice BRITTLE CULM 5 (BRITTLE NODE) is Involved in Secondary Cell Wall Formation in the Sclerenchyma Tissue of Nodes

Aohara, Tsutomu; Kotake, Toshihisa; Kaneko, Yasuko; Takatsuji, Hiroshi; Tsumuraya, Yoichi; Kawasaki, Shinji

doi:10.1093/pcp/pcp133

Cited by 62 publications

(51 citation statements)

References 44 publications

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“…A thorough understanding of any regulating mechanism, including the identification of transcription factors Aohara et al, 2009) would also certainly increase our understanding of xylan biosynthesis in the context of primary and secondary cell wall elaboration and would offer op-…”

Section: Resultsmentioning

confidence: 99%

Xylan Biosynthesis: News from the Grass

Faïk

2010

Plant Physiology

103

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Section: Resultsmentioning

confidence: 99%

Xylan Biosynthesis: News from the Grass

Faïk

2010

Plant Physiology

103

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“…CTAB is a cationic surfactant providing a buffer solution for dissociation and selective precipitation of DNA from histone proteins (Allen et al, 2006). Monocot plant cell walls have a unique structure (Aohara et al, 2009). Lignification of cereal cell walls makes degradation difficult, which results in restricted DNA extraction.…”

Section: Introductionmentioning

confidence: 99%

Methodology A modified method for high-quality DNA extraction for molecular analysis in cereal plants

Pervaiz¹,

Turi²,

Khaliq³

et al. 2011

Genet. Mol. Res.

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ABSTRACT. Cereal crops that have rigid non-cellulose components in the cell wall tissues of leaves and high starch and protein content in grains face limitations in DNA extraction. Advanced molecular genetic techniques such as mapping and marker-assisted selection programs require pure and quick DNA extraction. In this study, we developed methods for isolating high-quality genomic DNA from leaves and seeds of major cereal crops with minor modifications. DNA yields ranged from 300 to 1800 ng for 0.01 g seed or leaf tissue.

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“…Although bc10 shows reduced cellulose content, the localization BC10 proteins to the Golgi apparatus suggests that BC10 is not directly involved in cellulose synthesis, which takes place at the plasma membrane. Most recently, Aohara et al (2009) characterized the rice bc5 mutant, which speciWcally causes brittleness of the developed nodes without aVecting other plant parts. Although BC5 gene remains to be isolated, mapping of BC5 demonstrated that any known cell wall related genes do not exist in the BC5 locus.…”

Section: Introductionmentioning

confidence: 99%

Rice BRITTLE CULM 3 (BC3) encodes a classical dynamin OsDRP2B essential for proper secondary cell wall synthesis

Hirano

Kotake

Kamihara

et al. 2010

Planta

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"Brittle culm" mutants found in Gramineae crops are suitable materials to study the mechanism of secondary cell wall formation. Through positional cloning, we have identified a gene responsible for the brittle culm phenotype in rice, brittle culm 3 (bc3). BC3 encodes a member of the classical dynamin protein family, a family known to function widely in membrane dynamics. The bc3 mutation resulted in reductions of 28-36% in cellulose contents in culms, leaves, and roots, while other cell wall components remained unaffected. Reductions of cell wall thickness and birefringence were observed in both fiber (sclerenchyma) and parenchymal cells, together with blurring of the wall's layered structures. From promoter-GUS analyses, it was suggested that BC3 expression is directly correlated with active secondary cell wall synthesis. These results suggest that BC3 is tightly involved in the synthesis of cellulose and is essential for proper secondary cell wall construction.

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Rice BRITTLE CULM 5 (BRITTLE NODE) is Involved in Secondary Cell Wall Formation in the Sclerenchyma Tissue of Nodes

Cited by 62 publications

References 44 publications

Xylan Biosynthesis: News from the Grass

Xylan Biosynthesis: News from the Grass

Methodology A modified method for high-quality DNA extraction for molecular analysis in cereal plants

Rice BRITTLE CULM 3 (BC3) encodes a classical dynamin OsDRP2B essential for proper secondary cell wall synthesis

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