TY - JOUR
T1 - Genes and proteins involved in cellulose synthesis in plants
AU - Delmer, Deborah P.
AU - Holland, Neta
AU - Holland, Doron
AU - Peng, Liangcai
AU - Kawagoe, Yasushi
PY - 2000
Y1 - 2000
N2 - In recent years, progress has been made in the identification of genes that encode proteins critical for the process of cellulose synthesis in plants. CesA genes encode proteins that are proposed to catalyze the glucan chain elongation step. CesA genes comprise a relatively large gene family in which some members may function in cell-type-specific expression, while others may serve as redundant senes mutually expressed within one cell type. In addition to CesA, evidence suggests the importance of other proteins in the process. For example, a cytoskeletal-anchored form of sucrose synthase may play a role in channeling substrate, and other cytoskeletal proteins may be involved in directing the orientation of microfibril deposition. Recent evidence suggests that a membrane-associated cellulase a so plays some critical role in the process of cellulose synthesis. While the power of molecular biology, isolation of specific mutants, and genomics are certainly leading to new insights into the process, the major challenge still facing the field is to develop functional assays in which the entire process can be reconstituted end the specific roles played by each gene product clarified.
AB - In recent years, progress has been made in the identification of genes that encode proteins critical for the process of cellulose synthesis in plants. CesA genes encode proteins that are proposed to catalyze the glucan chain elongation step. CesA genes comprise a relatively large gene family in which some members may function in cell-type-specific expression, while others may serve as redundant senes mutually expressed within one cell type. In addition to CesA, evidence suggests the importance of other proteins in the process. For example, a cytoskeletal-anchored form of sucrose synthase may play a role in channeling substrate, and other cytoskeletal proteins may be involved in directing the orientation of microfibril deposition. Recent evidence suggests that a membrane-associated cellulase a so plays some critical role in the process of cellulose synthesis. While the power of molecular biology, isolation of specific mutants, and genomics are certainly leading to new insights into the process, the major challenge still facing the field is to develop functional assays in which the entire process can be reconstituted end the specific roles played by each gene product clarified.
UR - http://www.scopus.com/inward/record.url?scp=85212632719&partnerID=8YFLogxK
U2 - 10.1092/5u4h-5fey-m18p-xvev
DO - 10.1092/5u4h-5fey-m18p-xvev
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AN - SCOPUS:85212632719
SN - 0792-9978
VL - 48
SP - 165
EP - 171
JO - Israel Journal of Plant Sciences
JF - Israel Journal of Plant Sciences
IS - 3
ER -