Unexpected complexity of poly(A)-binding protein gene families in flowering plants: three conserved lineages that are at least 200 million years old and possible auto- and cross-regulation
about
Embryonic poly(A)-binding protein stimulates translation in germ cellsPoly(A)-binding proteins: multifunctional scaffolds for the post-transcriptional control of gene expressionTranscriptome analysis of haploid male gametophyte development in ArabidopsisDeterministic protein inference for shotgun proteomics data provides new insights into Arabidopsis pollen development and function.Functional characterization of three leishmania poly(a) binding protein homologues with distinct binding properties to RNA and protein partners.Poly(A) binding proteins: are they all created equal?Nucleo-cytoplasmic transport of proteins and RNA in plants.Differential localization of the two T. brucei poly(A) binding proteins to the nucleus and RNP granules suggests binding to distinct mRNA pools.Phylogenetic analysis reveals dynamic evolution of the poly(A)-binding protein gene family in plants.The global translation profile in a ribosomal protein mutant resembles that of an eIF3 mutantPOGs/PlantRBP: a resource for comparative genomics in plantsMechanism of cytoplasmic mRNA translation.Evolutionary history exposes radical diversification among classes of interaction partners of the MLLE domain of plant poly(A)-binding proteins.Plant Tandem CCCH Zinc Finger Proteins Interact with ABA, Drought, and Stress Response Regulators in Processing-Bodies and Stress GranulesTranslational Regulation of Cytoplasmic mRNAsRNA immunoprecipitation and microarray analysis show a chloroplast Pentatricopeptide repeat protein to be associated with the 5' region of mRNAs whose translation it activates.EARLY RESPONSIVE TO DEHYDRATION 15, a negative regulator of abscisic acid responses in Arabidopsis.The Arabidopsis nuclear pore and nuclear envelope.Poly(A)-binding protein facilitates translation of an uncapped/nonpolyadenylated viral RNA by binding to the 3' untranslated region.Evidence for variation in the optimal translation initiation complex: plant eIF4B, eIF4F, and eIF(iso)4F differentially promote translation of mRNAs.Class II members of the poly(A) binding protein family exhibit distinct functions during Arabidopsis growth and development.PERSISTENT TAPETAL CELL1 encodes a PHD-finger protein that is required for tapetal cell death and pollen development in rice.Plant growth and fertility requires functional interactions between specific PABP and eIF4G gene family members.MATERNALLY EXPRESSED PAB C-TERMINAL, a novel imprinted gene in Arabidopsis, encodes the conserved C-terminal domain of polyadenylate binding proteins.
P2860
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P2860
Unexpected complexity of poly(A)-binding protein gene families in flowering plants: three conserved lineages that are at least 200 million years old and possible auto- and cross-regulation
description
2003 nî lūn-bûn
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2003年の論文
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2003年論文
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2003年論文
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2003年論文
@zh-hk
2003年論文
@zh-mo
2003年論文
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2003年论文
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2003年论文
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name
Unexpected complexity of poly
@nl
Unexpected complexity of poly( ...... ble auto- and cross-regulation
@en
type
label
Unexpected complexity of poly
@nl
Unexpected complexity of poly( ...... ble auto- and cross-regulation
@en
prefLabel
Unexpected complexity of poly
@nl
Unexpected complexity of poly( ...... ble auto- and cross-regulation
@en
P2860
P1433
P1476
Unexpected complexity of poly( ...... ble auto- and cross-regulation
@en
P2093
Dmitry A Belostotsky
P2860
P304
P407
P577
2003-01-01T00:00:00Z