Plastid proteomics in higher plants: current state and future goals.
about
Maize proteomics: an insight into the biology of an important cereal cropThe Evolution of Per-cell Organelle NumberWhen the lights go out: the evolutionary fate of free-living colorless green algaeUncovering the protein lysine and arginine methylation network in Arabidopsis chloroplastsComparative Proteomic and Physiological Analysis Reveals the Variation Mechanisms of Leaf Coloration and Carbon Fixation in a Xantha Mutant of Ginkgo biloba LImportance of Translocon Subunit Tic56 for rRNA Processing and Chloroplast Ribosome Assembly.Protein phosphorylation in chloroplasts - a survey of phosphorylation targets.Identification of protein N-termini in Cyanophora paradoxa cyanelles: transit peptide composition and sequence determinants for precursor maturation.Identification and characterization of chloroplast casein kinase II from Oryza sativa (rice).The peptide microarray "ChloroPhos1.0" identifies new phosphorylation targets of plastid casein kinase II (pCKII) in Arabidopsis thaliana.The RNA-binding protein RNP29 is an unusual Toc159 transport substrate.Proteomic analysis of the Cyanophora paradoxa muroplast provides clues on early events in plastid endosymbiosis.The tomato mutation nxd1 reveals a gene necessary for neoxanthin biosynthesis and demonstrates that violaxanthin is a sufficient precursor for abscisic acid biosynthesis.SLocX: Predicting Subcellular Localization of Arabidopsis Proteins Leveraging Gene Expression Data.A purification strategy for analysis of the DNA/RNA-associated sub-proteome from chloroplasts of mustard cotyledonsComparative analysis of predicted plastid-targeted proteomes of sequenced higher plant genomes.AT_CHLORO: A Chloroplast Protein Database Dedicated to Sub-Plastidial LocalizationPlastid genetic engineering in SolanaceaeProteomic analysis of chromoplasts from six crop species reveals insights into chromoplast function and development.Additional pathway to translate the downstream ndhK cistron in partially overlapping ndhC-ndhK mRNAs in chloroplasts.The Arabidopsis cytosolic proteome: the metabolic heart of the cell.Biogenesis and homeostasis of chloroplasts and other plastids.RNA function and phosphorus use by photosynthetic organismsPlastid RNA polymerases: orchestration of enzymes with different evolutionary origins controls chloroplast biogenesis during the plant life cycle.Chloroplast function revealed through analysis of GreenCut2 genes.Proteome analysis of peroxisomes from etiolated Arabidopsis seedlings identifies a peroxisomal protease involved in β-oxidation and development.Quantitative analysis of the mitochondrial and plastid proteomes of the moss Physcomitrella patens reveals protein macrocompartmentation and microcompartmentation.Proteomic analysis of chloroplast-to-chromoplast transition in tomato reveals metabolic shifts coupled with disrupted thylakoid biogenesis machinery and elevated energy-production components.The group IV-A cyclic nucleotide-gated channels, CNGC19 and CNGC20, localize to the vacuole membrane in Arabidopsis thaliana.Persulfidation proteome reveals the regulation of protein function by hydrogen sulfide in diverse biological processes in Arabidopsis.A comprehensive proteomic analysis of elaioplasts from citrus fruits reveals insights into elaioplast biogenesis and function.Characterization of chloroplast protein import without Tic56, a component of the 1-megadalton translocon at the inner envelope membrane of chloroplasts.Approaches to Characterize Organelle, Compartment, or Structure Purity.Genome-wide gene expression profiles in response to plastid division perturbations.Proteins with high turnover rate in barley leaves estimated by proteome analysis combined with in planta isotope labeling.Nucleoid-enriched proteomes in developing plastids and chloroplasts from maize leaves: a new conceptual framework for nucleoid functions.Plastid-bearing sea slugs fix CO2 in the light but do not require photosynthesis to survive.WHITE PANICLE3, a Novel Nucleus-Encoded Mitochondrial Protein, Is Essential for Proper Development and Maintenance of Chloroplasts and Mitochondria in Rice.The basic genetic toolkit to move in with your photosynthetic partner
P2860
Q26809977-51C959ED-9B1A-4F94-BB78-D39FECA72BB5Q28080115-34C0D373-8347-42DD-8CC0-D4E3EB30C7F6Q28083923-D06AC978-A168-4939-97DA-DBADF170968BQ28538053-8B601401-F77A-4123-8640-E41B9B79F209Q28590606-E7DFE2F5-13B1-4F22-BF37-2864246AC62CQ30313830-2FC86B6C-6C83-4D32-975F-9E853A7FEDCDQ30315440-E8FBDA4A-3322-4CA0-BADD-36BCC7BE802DQ30316289-C66D3070-7D2C-44EC-A229-C102F63CEC86Q30317015-B3135BCE-6CBC-4D72-BDA9-7C2BDBD679CEQ30317024-E30952FB-6568-4C9C-A3E6-BE5D65B8413DQ30317252-B39FD545-AD65-4320-A53F-0C78AEDC5060Q34034647-0EEEE95D-F3EF-453A-9891-140D34DD8A3CQ34039809-62B44BD7-BA9C-4601-ADD3-AC07C54893D8Q34284030-5256A3AC-50F8-4A24-AD0E-93E9FAC8BAD2Q34420312-71BDE061-7E47-453A-B5D9-103A32603C0BQ35418027-C4B86249-5A5D-4CAB-BF0B-9264B06686A2Q36224746-EAB53DB2-63C6-49E4-962C-50A3D883EBBFQ36282010-8636858A-FD01-4479-AB48-9850DD1243E4Q36634199-6DE282C5-F040-4F3F-8E36-4BC4D8EA6986Q36747680-A30EAE0F-3227-4915-8438-2A201EDA7E95Q37556154-3D110D39-CEED-4F3D-B1E1-71ADBB6C4888Q38165010-1711C37A-63C8-4430-9EF3-D2B2E59D753BQ38178253-2B585610-85EA-46B4-9D58-5CC99475E901Q38583917-34E11ECF-B7B4-4AFD-9D17-EDCD4D95BBA0Q38860044-95B6F2D4-C8E9-4EF3-ABF7-10B074A8CBE1Q39331788-FE6574F5-AC17-477E-A8D9-0CAD502723E3Q45013568-FA0E7A4D-C6DB-4A7C-948B-4281C907E8D3Q45904837-17DF1FA1-6687-46D1-8AA0-B12571EB0924Q45909831-DF972B24-17D2-4904-BF39-6361FD0CF42AQ47676622-D8F5A6CF-6FB5-4E3D-98FD-28A7CEDF29F4Q49238707-1CDB7D88-7360-4F77-8619-1843A3B62C44Q50607429-60592F31-9DBA-4875-A3E8-A393ECAB7ACEQ51404533-85E61E68-B5A6-447D-8E77-C1568A668073Q51553162-E3D28673-3293-4AC9-AED4-DE70A8FE5070Q51706782-623DA0F3-F2E4-42DE-9D2F-DEA757EB116AQ51848166-D199FE03-62F8-4C7D-8AAA-7D1C72D5947AQ54563384-D8401FA7-356D-4D33-AADD-0F6F595743B8Q55312258-4F38735B-ED96-47AF-9E01-1E305A338CFBQ57898494-FECA01B5-6706-41FE-9568-3D49428B572A
P2860
Plastid proteomics in higher plants: current state and future goals.
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on 24 February 2011
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Plastid proteomics in higher plants: current state and future goals.
@en
Plastid proteomics in higher plants: current state and future goals.
@nl
type
label
Plastid proteomics in higher plants: current state and future goals.
@en
Plastid proteomics in higher plants: current state and future goals.
@nl
prefLabel
Plastid proteomics in higher plants: current state and future goals.
@en
Plastid proteomics in higher plants: current state and future goals.
@nl
P2860
P356
P1433
P1476
Plastid proteomics in higher plants: current state and future goals
@en
P2093
Klaas J van Wijk
P2860
P304
P356
10.1104/PP.111.172932
P407
P577
2011-02-24T00:00:00Z