Maize opaque endosperm mutations create extensive changes in patterns of gene expression.
about
A dominant negative mutant of cyclin-dependent kinase A reduces endoreduplication but not cell size or gene expression in maize endospermThe development of endosperm in grassesUtilization of two sample t-test statistics from redundant probe sets to evaluate different probe set algorithms in GeneChip studies.The dynamic behavior of storage organelles in developing cereal seeds and its impact on the production of recombinant proteinsStress-Mediated cis-Element Transcription Factor Interactions Interconnecting Primary and Specialized Metabolism in plantaIntrogression of opaque2 into Waxy Maize Causes Extensive Biochemical and Proteomic Changes in EndospermIdentification and Characterization of Endoplasmic Reticulum-Associated Degradation Proteins Differentially Affected by Endoplasmic Reticulum StressA defective signal peptide in a 19-kD alpha-zein protein causes the unfolded protein response and an opaque endosperm phenotype in the maize De*-B30 mutant.The maize zmsmu2 gene encodes a putative RNA-splicing factor that affects protein synthesis and RNA processing during endosperm development.Responses to Hypoxia and Endoplasmic Reticulum Stress Discriminate the Development of Vitreous and Floury Endosperms of Conventional Maize (Zea mays) Inbred Lines.Recent advances in the study of prolamin storage protein organization and function.The Zea mays mutants opaque-2 and opaque-7 disclose extensive changes in endosperm metabolism as revealed by protein, amino acid, and transcriptome-wide analyses.Gamma-zeins are essential for endosperm modification in quality protein maize.Identification and characterization of the maize arogenate dehydrogenase gene family.Zea mays Taxilin protein negatively regulates opaque-2 transcriptional activity by causing a change in its sub-cellular distribution.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.Biofortification of rice with lysine using endogenous histones.Opaque7 encodes an acyl-activating enzyme-like protein that affects storage protein synthesis in maize endospermThe failure to express a protein disulphide isomerase-like protein results in a floury endosperm and an endoplasmic reticulum stress response in riceProtein quality control mechanisms and protein storage in the endoplasmic reticulum. A conflict of interests?ZmMADS47 Regulates Zein Gene Transcription through Interaction with Opaque2.Cellular response to unfolded proteins in the endoplasmic reticulum of plants.Advances in maize genomics and their value for enhancing genetic gains from breeding.Divergent Transactivation of Maize Storage Protein Zein Genes by the Transcription Factors Opaque2 and OHPs.Comprehensive proteomic analysis of developing protein bodies in maize (Zea mays) endosperm provides novel insights into its biogenesis.The formation, function and fate of protein storage compartments in seeds.Genome-wide characterization of cis-acting DNA targets reveals the transcriptional regulatory framework of opaque2 in maize.Proteomic profiling of maize opaque endosperm mutants reveals selective accumulation of lysine-enriched proteins.Transcriptional Regulation of Zein Gene Expression in Maize through the Additive and Synergistic Action of opaque2, Prolamine-Box Binding Factor, and O2 Heterodimerizing Proteins.The genetic architecture of amino acids dissection by association and linkage analysis in maizeTransposable element rbg induces the differential expression of opaque-2 mutant gene in two maize o2 NILs derived from the same inbred line.A new opaque variant of maize by a single dominant RNA-interference-inducing transgene.Rapid divergence of prolamin gene promoters of maize after gene amplification and dispersal.Increased lysine content in rice grains by over-accumulation of BiP in the endosperm.RNA interference-mediated change in protein body morphology and seed opacity through loss of different zein proteins.Pyrophosphate-dependent fructose-6-phosphate 1-phosphotransferase induction and attenuation of Hsp gene expression during endosperm modification in quality protein maize.Chromatin and DNA modifications in the Opaque2-mediated regulation of gene transcription during maize endosperm development.Cytoskeletal proteins are coordinately increased in maize genotypes with high levels of eEF1A.Opaque16, a high lysine and tryptophan mutant, does not influence the key physico-biochemical characteristics in maize kernel.
P2860
Q24563595-26968B3F-5009-4A14-B4DA-C22ACCA722B6Q24654056-D26D773D-28E2-4276-BCE7-B8032152B279Q25257633-9D830AA2-1AD6-44D1-83A6-2E3407886D9DQ26853066-03FD77EF-BEC7-4EB6-951A-688F53594DE2Q28068326-76D09180-5E42-4F60-B5EB-BE335F9ED4DBQ28552468-95450354-221E-445B-B700-86896179A23AQ29041263-368B3730-59D4-4672-81A9-80B12B626F4FQ33195639-32136FD2-9F82-4B4E-8138-1D1F37E10B81Q33343868-55A5CB5C-99D4-4252-B193-8625E074916FQ33560876-34CC5A7E-D02F-404D-BDD3-A323D8F9E9CBQ33781673-193C145E-FA80-4A33-9360-8BE321E60BCAQ33795305-580FD8C5-5946-48CE-ABA9-0317D3446E22Q34059425-5534D3BF-3DC3-44AD-826E-A832C8537733Q34064154-1ECEFEF9-242B-4A09-8013-78B8E60668BFQ34399447-6811EFB3-084A-4D51-99B9-80EF8A5CCF81Q34412470-1B080647-B516-4659-9D59-C01CE55CFD39Q34668392-B9595C94-AF8B-4334-8C1E-C48E8E049728Q34996765-2CDDC364-8DBD-4DF1-B61C-04A2A25EC015Q35620426-E3319EDB-5614-4E13-81FC-91156A76F1DDQ35632225-16EE1360-4352-4DA5-ACEA-B9A03CBC2AC6Q35948428-54D8D248-85AB-4061-8DDD-CB7BA46B3A57Q35989590-C816BBA3-2DF3-4E3C-93AD-1ECD9AD19AFEQ36719733-D968AB8B-1993-499D-97D7-9FB75D284F20Q37303967-4112EA05-C53B-484E-8AE5-7C1447A81374Q37347780-5C77992D-E7AA-4843-A33F-049EC0F999DDQ37530053-D7B59A29-98F8-450F-88C4-CF8EE0E8C7EAQ37879991-7FFD96E7-DE57-4CDD-8307-7E2F88B2E225Q38466735-9F17742F-910D-4DAF-BA0E-D9FD6D525BC1Q38586363-D83D0F8E-4095-4AFD-BD35-0B263B04E7FFQ41030722-D55BED10-4798-4395-9276-E7384D3CAD6FQ41680742-5392B8BA-2CF3-4EDC-9E6C-C33BFFC56CA3Q41863042-8A1FE6AB-D286-41E1-BB72-3CCC8A6FE330Q41964764-1B53C558-B969-4E8A-A5D1-621CF9DFCAE2Q42730897-F2493C30-3C71-4B2E-AD3E-E4A820281046Q42780907-5CA47AE7-8612-4A06-B68E-E7552D702BDCQ43125979-C2E0F94D-5EB5-4E4B-B64E-27A0C6D6AA97Q44682737-6EA3CC73-F38C-4059-AB76-04B9856B69EFQ45989252-19BBDEBF-235F-4957-8DD3-0568151EFD4DQ47214464-7DE79575-9B4D-45A3-A95A-87411AA311DBQ47225011-4B324F55-C020-4720-8A66-D3C217FA75FA
P2860
Maize opaque endosperm mutations create extensive changes in patterns of gene expression.
description
2002 nî lūn-bûn
@nan
2002年の論文
@ja
2002年学术文章
@wuu
2002年学术文章
@zh-cn
2002年学术文章
@zh-hans
2002年学术文章
@zh-my
2002年学术文章
@zh-sg
2002年學術文章
@yue
2002年學術文章
@zh
2002年學術文章
@zh-hant
name
Maize opaque endosperm mutations create extensive changes in patterns of gene expression.
@en
type
label
Maize opaque endosperm mutations create extensive changes in patterns of gene expression.
@en
prefLabel
Maize opaque endosperm mutations create extensive changes in patterns of gene expression.
@en
P2093
P2860
P356
P1433
P1476
Maize opaque endosperm mutations create extensive changes in patterns of gene expression
@en
P2093
Brenda G Hunter
Brian A Larkins
Bruce R Hamaker
George W Singletary
Mary K Beatty
Rudolf Jung
P2860
P304
P356
10.1105/TPC.003905
P577
2002-10-01T00:00:00Z