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The similarity between N-terminal targeting signals for protein import into different organelles and its evolutionary relevanceChlorophyll breakdown by chlorophyllase: isolation and functional expression of the Chlase1 gene from ethylene-treated Citrus fruit and its regulation during developmentA secY homologue is found in the plastid genome of Cryptomonas phiFunctional similarity between the chloroplast translocon component, Tic40, and the human co-chaperone, Hsp70-interacting protein (Hip)A dual positional specific lipoxygenase functions in the generation of flavor compounds during climacteric ripening of appleThe structural flexibility of the preferredoxin transit peptide.Plastids and protein targeting.The stromal processing peptidase of chloroplasts is essential in Arabidopsis, with knockout mutations causing embryo arrest after the 16-cell stagePhosphorylation of the transit sequence of chloroplast precursor proteins.Differential age-dependent import regulation by signal peptides.Non-native, N-terminal Hsp70 molecular motor recognition elements in transit peptides support plastid protein translocation.A chloroplast processing enzyme functions as the general stromal processing peptidase.Isolation of two Arabidopsis cDNAs involved in early steps of molybdenum cofactor biosynthesis by functional complementation of Escherichia coli mutants.Abietadiene synthase from grand fir (Abies grandis). cDNA isolation, characterization, and bacterial expression of a bifunctional diterpene cyclase involved in resin acid biosynthesis.Direct targeting of proteins from the cytosol to organelles: the ER versus endosymbiotic organelles.Border control: selectivity of chloroplast protein import and regulation at the TOC-complex.Interaction of the dual targeting peptide of Thr-tRNA synthetase with the chloroplastic receptor Toc34 in Arabidopsis thaliana.An Arabidopsis cDNA encoding a bifunctional glutamine amidotransferase/cyclase suppresses the histidine auxotrophy of a Saccharomyces cerevisiae his7 mutant.The digalactosyldiacylglycerol (DGDG) synthase DGD1 is inserted into the outer envelope membrane of chloroplasts in a manner independent of the general import pathway and does not depend on direct interaction with monogalactosyldiacylglycerol synthaCloning and characterisation of chlorophyll synthase from Avena sativa.Fidelity of targeting to chloroplasts is not affected by removal of the phosphorylation site from the transit peptide.The integration of chloroplast protein targeting with plant developmental and stress responses.The role of chloroplasts in plant pathology.Characterization of three cloned and expressed 13-hydroperoxide lyase isoenzymes from alfalfa with unusual N-terminal sequences and different enzyme kinetics.Tic40, a new "old" subunit of the chloroplast protein import translocon.Characterization of three potato lipoxygenases with distinct enzymatic activities and different organ-specific and wound-regulated expression patterns.PredAlgo: a new subcellular localization prediction tool dedicated to green algae.Interaction of the targeting sequence of chloroplast precursors with Hsp70 molecular chaperones.Isolated plant mitochondria import chloroplast precursor proteins in vitro with the same efficiency as chloroplasts.A monomeric, tightly folded stromal intermediate on the delta pH-dependent thylakoidal protein transport pathway.In vitro interaction between a chloroplast transit peptide and chloroplast outer envelope lipids is sequence-specific and lipid class-dependent.The precursor of pea ferredoxin-NADP+ reductase synthesized in Escherichia coli contains bound FAD and is transported into chloroplasts.Functional Domains of the Ferredoxin Transit Sequence Involved in Chloroplast Import
P2860
Q26781543-EC7D7EC8-10D5-4653-9D1F-8F0AF9CD380FQ28143592-2D01400E-68D7-4D80-B38A-971502D2CAB8Q28284583-B8C4C410-055C-49CB-8498-6686876BBC8BQ28509285-7C34A10E-DB6C-4DE2-85AE-CFECE441D65DQ28606719-B65B8447-F535-40A0-8AB7-613E17650B57Q30579271-0D81C04F-AE40-4B15-A0F0-4C621426C296Q33719597-C6741858-663A-4B6F-AB16-9BE7F7FB3FAAQ33999136-03244F95-6CD3-46E8-890D-EEFA879930FAQ34378807-0324DF2E-0905-4A90-BB89-B7D7080A74CEQ34464314-515A5097-8A48-4A7E-B181-FDE88FE30EEDQ35199386-873602E8-0DE8-4507-9714-506F36FFA88AQ36491039-EEE06852-D9AF-4231-9527-D2D12C9A4F54Q36719720-7E4B9098-CDA8-4929-AFE8-A48ADABCA6BEQ36818753-FAD5DAB6-085A-4209-A5E3-2F1AC03A0FCAQ38075182-50191892-009A-4E79-8765-1C92C332E70AQ38256377-51B7C7A7-4603-442E-B38F-DA1650E06314Q40638327-730C8B39-7FF3-41F1-89C5-FBB70BA483FAQ42680318-AE6687BE-0883-4C51-9297-E18AB131A586Q43655719-930FCDDC-12AF-4606-8D1D-585F817460D4Q43704817-7957E5DE-4272-4058-B1EC-FB703F548536Q44731885-DC81B314-537B-46B7-B3F5-54A66386EF14Q47097000-7259DAC2-0D3F-4DC3-B9F0-9D4ADC3B1BC7Q47259619-F885C960-9E65-4CD1-8E97-F034B5F27279Q47864926-613D7A17-853C-44C8-800F-D43449A0CBEBQ47900347-E2A3AB3F-221C-4AB7-B63E-D1BA48E300C8Q48060942-6C08203C-E46F-47C8-8FF2-164FCC9D36B8Q50493145-04723628-7F97-4727-B438-2CB65C4F91AAQ52073360-748C4237-DABF-48F6-97AC-45AC6D35DDEDQ52544692-A6962A61-A382-43F9-B433-E26CB44C1133Q54182316-BB839AC4-8C9D-40EF-9308-A3AD6A8B4582Q54575109-D3E98F24-D2C9-480C-9B33-144BB441C73BQ54605914-71686228-20BB-414B-8EE0-2E26B8C1CC6CQ58061545-2561187E-D2D5-4B71-BF99-BC27F79291F7
P2860
description
im Januar 1991 veröffentlichter wissenschaftlicher Artikel
@de
scientific article published on 01 January 1991
@en
wetenschappelijk artikel
@nl
наукова стаття, опублікована в січні 1991
@uk
name
Chloroplast transit peptides the perfect random coil?
@en
Chloroplast transit peptides the perfect random coil?
@nl
type
label
Chloroplast transit peptides the perfect random coil?
@en
Chloroplast transit peptides the perfect random coil?
@nl
prefLabel
Chloroplast transit peptides the perfect random coil?
@en
Chloroplast transit peptides the perfect random coil?
@nl
P921
P1433
P1476
Chloroplast transit peptides. The perfect random coil?
@en
P2093
Nishikawa K
P356
10.1016/0014-5793(91)80069-F
P407
P577
1991-01-01T00:00:00Z