Towards a better understanding of the metabolic system for amylopectin biosynthesis in plants: rice endosperm as a model tissue.
about
Crystal structure of the branching enzyme I (BEI) from Oryza sativa L with implications for catalysis and substrate bindingCrystal Structure of the Chlamydomonas Starch Debranching Enzyme Isoamylase ISA1 Reveals Insights into the Mechanism of Branch Trimming and Complex AssemblyStarch biosynthesis in cassava: a genome-based pathway reconstruction and its exploitation in data integration.EcoTILLING by sequencing reveals polymorphisms in genes encoding starch synthases that are associated with low glycemic response in rice.Identification and expression analysis of starch branching enzymes involved in starch synthesis during the development of chestnut (Castanea mollissima Blume) cotyledons.Molecular aspect of good eating quality formation in Japonica rice.Diversification of genes encoding granule-bound starch synthase in monocots and dicots is marked by multiple genome-wide duplication events.Protein disulfide isomerase-like protein 1-1 controls endosperm development through regulation of the amount and composition of seed proteins in rice.Identification and characterization of lysine-rich proteins and starch biosynthesis genes in the opaque2 mutant by transcriptional and proteomic analysis.A parameterized model of amylopectin synthesis provides key insights into the synthesis of granular starch.Altered starch structure is associated with endosperm modification in Quality Protein Maize.Rice debranching enzyme isoamylase3 facilitates starch metabolism and affects plastid morphogenesis.Relationships between starch synthase I and branching enzyme isozymes determined using double mutant rice linesThe characterization of modified starch branching enzymes: toward the control of starch chain-length distributionsDiscovery and mapping of genomic regions governing economically important traits of Basmati riceComparison of Chain-Length Preferences and Glucan Specificities of Isoamylase-Type α-Glucan Debranching Enzymes from Rice, Cyanobacteria, and Bacteria.The Usefulness of Known Genes/Qtls for Grain Quality Traits in an Indica Population of Diverse Breeding Lines Tested using Association Analysis.Fine mapping of stable QTLs related to eating quality in rice (Oryza sativa L.) by CSSLs harboring small target chromosomal segments.GRAIN INCOMPLETE FILLING 2 regulates grain filling and starch synthesis during rice caryopsis development.Proteome Profile of Starch Granules Purified from Rice (Oryza sativa) EndospermLineage-Specific Evolutionary Histories and Regulation of Major Starch Metabolism Genes during Banana Ripening.Comparative Transcriptomic Analyses of Vegetable and Grain Pea (Pisum sativum L.) Seed Development.Early gene duplication within chloroplastida and its correspondence with relocation of starch metabolism to chloroplastsMolecular evolution and functional divergence of soluble starch synthase genes in cassava (manihot esculenta crantz).Sugar-mediated semidian oscillation of gene expression in the cassava storage root regulates starch synthesisCharacterization of pullulanase (PUL)-deficient mutants of rice (Oryza sativa L.) and the function of PUL on starch biosynthesis in the developing rice endosperm.Allelic diversities in rice starch biosynthesis lead to a diverse array of rice eating and cooking qualitiesStarch accumulation, activities of key enzyme and gene expression in starch synthesis of wheat endosperm with different starch contents.Generation of High-Amylose Rice through CRISPR/Cas9-Mediated Targeted Mutagenesis of Starch Branching Enzymes.Association Analysis of Markers Derived from Starch Biosynthesis Related Genes with Starch Physicochemical Properties in the USDA Rice Mini-Core Collection.Progress in High-Amylose Cereal Crops through Inactivation of Starch Branching Enzymes.Genetic controls on starch amylose content in wheat and rice grains.Bound Substrate in the Structure of Cyanobacterial Branching Enzyme Supports a New Mechanistic Model.A novel WRKY transcription factor, SUSIBA2, participates in sugar signaling in barley by binding to the sugar-responsive elements of the iso1 promoter.Altering the Structure of Carbohydrate Storage Granules in the Cyanobacterium Synechocystis sp. Strain PCC 6803 through Branching-Enzyme Truncations.Progress in controlling starch structure by modifying starch-branching enzymes.Starch biosynthesis in rice endosperm requires the presence of either starch synthase I or IIIa.Impact of down-regulation of starch branching enzyme IIb in rice by artificial microRNA- and hairpin RNA-mediated RNA silencing.Structure and function of α-glucan debranching enzymes.Characterization of the spatial and temporal expression of the OsSSII-3 gene encoding a key soluble starch synthase in rice.
P2860
Q27667225-A3E24B54-43DE-4DD7-A128-C91E93C2CB18Q27684546-72809EA0-1C57-4349-97FC-0CCEF918D967Q30661083-C626EE38-2212-494F-A043-EE95AA8C23B8Q33652722-A1B19D17-111C-4F63-8669-BEE3BE04A4D2Q33719097-65122928-4215-4E33-BC16-DA81B55F6BB9Q33873736-19B169A8-A85B-4465-9D5B-6BCBFCFCC5A1Q34145875-CFDE8CB9-539E-432D-BE8F-9A5065685828Q34412470-1FBF350C-6EDB-4BF7-8C95-60CFEBEC8698Q34668392-6AD45F56-942D-4B8D-BCE4-6B5B29C4A6D7Q34770193-AD7C7E2F-D2C3-4167-8154-3B83F27E04DAQ34787124-D8B50FCB-79E7-46E7-A977-09F4F7BCCD74Q35033644-487B4CD8-7D3B-4D90-8EEA-F0E61FC62A4EQ35131899-8FBDF9B3-6DB6-40D5-B02A-56D9DD91EA16Q35393930-1066971B-BDAA-4876-AC60-E0CBE04D01D7Q35751786-178B6CD5-6C60-47C4-B710-9CFF9B5391E6Q36053980-C43727AE-C778-4E73-B5E8-A3CF7C886A24Q36079926-181BE04F-9C3B-45EE-A5B7-E33DBF5E2518Q36122510-28AD37AB-3461-4172-B9BB-9E3204AC66A9Q36221417-3E4C6D84-CE68-4DAA-94CF-2DB941EA77BFQ36228269-A3DF1E9E-7E4F-421A-9D65-738E845EC2DBQ36229016-33DAA613-E362-4F86-BD1F-166CA23E64F0Q36316238-54ECCDCD-FF77-4E11-BFB7-9AE4A1191002Q36571870-633A575A-3EF3-4AA4-90A1-B477F4E88F0CQ37016531-F4B1CA27-68D3-4E4E-BB77-1FEAA5789275Q37080430-3F32DB56-0924-44C0-B7CF-8FDB62CD19B8Q37119333-C5C8BDA8-36DB-4656-BAE9-9BB2855105B3Q37475417-7B22BB48-D527-4A2C-BBFC-31494929E17DQ37597819-129E9779-97FA-44A5-B44B-5FC06A8A8C9AQ37683251-F0E706D1-CDBB-443F-AB6F-16AA2E409496Q37733768-8B353D13-ACEC-405F-9183-2BDAF34AA1C3Q37736980-370D48B6-E294-4F31-BB39-2A9B6339BD43Q38212795-E71D9356-7D1D-4A41-9BDF-2BD2FED6B975Q38289061-776477BA-3AD9-4ECC-9BA4-258D13E011A4Q38350841-FD0492CE-A83F-4793-8D6B-EF66F178175AQ38386436-BEF1CD4A-19D2-45B5-B117-E4F082D37126Q38612586-8327486A-E577-4420-BFDD-BFBF6B80EAC8Q38699632-27688C80-66B4-4581-84B4-6AFD2B38F653Q38699767-152406F6-9187-48AE-AFA0-5E18DC3595D6Q38823309-15E30A59-FEA1-47A3-9D6F-19C23B4E9731Q39417560-25E6C591-7FEE-45D6-8E70-734E9F101829
P2860
Towards a better understanding of the metabolic system for amylopectin biosynthesis in plants: rice endosperm as a model tissue.
description
2002 nî lūn-bûn
@nan
2002 թուականի Յուլիսին հրատարակուած գիտական յօդուած
@hyw
2002 թվականի հուլիսին հրատարակված գիտական հոդված
@hy
2002年の論文
@ja
2002年論文
@yue
2002年論文
@zh-hant
2002年論文
@zh-hk
2002年論文
@zh-mo
2002年論文
@zh-tw
2002年论文
@wuu
name
Towards a better understanding ...... e endosperm as a model tissue.
@ast
Towards a better understanding ...... e endosperm as a model tissue.
@en
Towards a better understanding ...... e endosperm as a model tissue.
@nl
type
label
Towards a better understanding ...... e endosperm as a model tissue.
@ast
Towards a better understanding ...... e endosperm as a model tissue.
@en
Towards a better understanding ...... e endosperm as a model tissue.
@nl
prefLabel
Towards a better understanding ...... e endosperm as a model tissue.
@ast
Towards a better understanding ...... e endosperm as a model tissue.
@en
Towards a better understanding ...... e endosperm as a model tissue.
@nl
P356
P1476
Towards a better understanding ...... e endosperm as a model tissue.
@en
P2093
Yasunori Nakamura
P304
P356
10.1093/PCP/PCF091
P577
2002-07-01T00:00:00Z