Targeting of a foreign protein to chloroplasts by fusion to the transit peptide from the small subunit of ribulose 1,5-bisphosphate carboxylase
about
GUS fusions: beta-glucuronidase as a sensitive and versatile gene fusion marker in higher plantsGene trap mutagenesis of hnRNP A2/B1: a cryptic 3' splice site in the neomycin resistance gene allows continued expression of the disrupted cellular geneAmino-terminal fragments of delta 1-pyrroline-5-carboxylate dehydrogenase direct beta-galactosidase to the mitochondrial matrix in Saccharomyces cerevisiae.A conserved tripeptide sorts proteins to peroxisomesProcessing of an apicoplast leader sequence in Plasmodium falciparum and the identification of a putative leader cleavage enzymeThe structural flexibility of the preferredoxin transit peptide.An optimized transit peptide for effective targeting of diverse foreign proteins into chloroplasts in rice.Gene fusions to lacZ reveal new expression patterns of chimeric genes in transgenic plants.Eight small subunits of Euglena ribulose 1-5 bisphosphate carboxylase/oxygenase are translated from a large mRNA as a polyprotein.Positive genetic selection for gene disruption in mammalian cells by homologous recombination.Effect of mutations on the binding and translocation functions of a chloroplast transit peptideA chemically synthesized pre-sequence of an imported mitochondrial protein can form an amphiphilic helix and perturb natural and artificial phospholipid bilayersThe cleavable pre-sequence of an imported chloroplast protein directs attached polypeptides into yeast mitochondriaIdentification of plant promoters in situ by T-DNA-mediated transcriptional fusions to the npt-II geneA leader peptide is sufficient to direct mitochondrial import of a chimeric proteinThe first twelve amino acids (less than half of the pre-sequence) of an imported mitochondrial protein can direct mouse cytosolic dihydrofolate reductase into the yeast mitochondrial matrixLight-inducible and tissue-specific expression of a chimaeric gene under control of the 5'-flanking sequence of a pea chlorophyll a/b-binding protein gene.Profile of Anthony R. Cashmore. Interview by Prashant Nair.Specific heat shock proteins are transported into chloroplasts.Members of the Toc159 import receptor family represent distinct pathways for protein targeting to plastids.Localization of a bacterial protein in starch granules of transgenic maize kernels.Imported large subunits of ribulose bisphosphate carboxylase/oxygenase, but not imported beta-ATP synthase subunits, are assembled into holoenzyme in isolated chloroplasts.Functional and mutational analysis of the light-harvesting chlorophyll a/b protein of thylakoid membranes.Processing of a wheat light-harvesting chlorophyll a/b protein precursor by a soluble enzyme from higher plant chloroplastsIn vitro mutagenesis of trypsinogen: role of the amino terminus in intracellular protein targeting to secretory granulesMitochondria can import artificial precursor proteins containing a branched polypeptide chain or a carboxy-terminal stilbene disulfonateExpression of dicistronic transcriptional units in transgenic tobacco.On some of the in organello processes involved in the biogenesis of chlorophyll-protein complexes.Efficient in vitro import of a cytosolic heat shock protein into pea chloroplasts.Translocation of the precursor of 5-enolpyruvylshikimate-3-phosphate synthase into chloroplasts of higher plants in vitro.Relocating a gene for herbicide tolerance: A chloroplast gene is converted into a nuclear gene.Arginine in the leader peptide is required for both import and proteolytic cleavage of a mitochondrial precursorSorting of nuclear-encoded chloroplast membrane proteins to the envelope and the thylakoid membrane.Inhibition of ascorbate peroxidase under oxidative stress in tobacco having bacterial catalase in chloroplasts.Uses of lac fusions for the study of biological problems.The role of topogenic sequences in the movement of proteins through membranes.Isolation and characterisation of the cDNA encoding a glycosylated accessory protein of pea chloroplast DNA polymerase.Overexpression of virD1 and virD2 genes in Agrobacterium tumefaciens enhances T-complex formation and plant transformationT-DNA and opine synthetic loci in tumors incited by Agrobacterium tumefaciens A281 on soybean and alfalfa plants.Light regulation of a SSRubisco-nos chimaeric gene: photoregulatory control sequences from a C3 plant function in cells of a CAM plant.
P2860
Q24555861-B050316A-7F76-4D61-A61B-E576A98D81C1Q24798227-95E4C47E-20A7-4AF7-BDF9-00E014027D9FQ27932493-4FC9BC0F-4B13-4A02-9FFA-0C16736244A8Q29618514-FF0AA0B7-02DE-40E3-90DB-9A9A6680AF53Q30043573-3E2E14A1-1DB0-4BB7-B354-77159AC65B78Q30579271-A30B449F-F0BF-4071-9373-D6DF940F4FA9Q33551592-1B777E48-F950-41C7-B683-D6C5D904EC87Q33558786-5D4AE196-643E-4201-B34F-DB32103BE65FQ33740984-8DF83EC2-C724-4547-8C7C-E12A37C0C28FQ33829038-EF37A301-5332-44B5-97AD-11D7EABDBAF5Q33834577-62B279CD-544B-4283-B9C8-9B08D6744518Q33879929-5EE7AB0B-BB62-4406-8A08-1F8A6D1B439BQ33879935-7DB1AA37-9CDD-4EAB-889E-ECDF4A12C70CQ33880140-82E0DA43-7B17-46A0-8C94-7A9A466EF3CCQ33931198-9FDE28DE-8760-40E6-B60D-11774F8CC1B3Q33931649-0211847B-7450-49B1-9EE3-0A3DC6DDD326Q33931824-9E131BDE-DBBD-4403-A819-F4ABDF13D312Q34156916-E6BA66AD-0494-40F3-BF7F-0223735D6C24Q35586212-37C1B1E9-6795-4E1A-A68D-7EF9435FCE10Q35919176-1DF0B1C2-6574-4C8D-AB4B-B07F80F0386CQ35979043-17301004-4014-4F98-8B7B-876A065E6F1EQ36095737-BB5C1882-FD15-4FC9-B5EF-450A66D51340Q36214578-B1D18D12-33B2-41A0-B42C-E241E586F870Q36217134-767A4505-3F02-4231-AE84-D3B7ECC875ADQ36217339-AA976C68-048C-4539-A123-5D848042672EQ36220983-AD782347-081F-4459-B85B-41B9F3791D8AQ36798169-5365BEDB-2823-4B88-B0C1-663667BD9D36Q36986078-F317910B-01C6-4B17-986E-807F68EE94DEQ37392106-9C7CEF7F-FDCB-4425-846F-67D7C204B4CDQ37399289-F0CAE45E-FB17-45C0-B8FA-D1E6B29FF064Q37482248-67899611-0140-44E4-A72A-05C2D4B3895CQ37524629-A566B8B7-EC52-4B68-A508-670B03589FB2Q38291983-E5188D9C-A44C-48E8-B2BF-2B75556A676EQ39457539-C1D6CBDD-3A5A-480F-A650-D85794642771Q39499803-75C6364D-4A50-43B7-AF43-415D6C77C11EQ39683716-0FDA9D5B-9E8A-45A3-9CD8-1287B06D8710Q39728569-9EBC5058-A92B-4FC5-BCD0-01699ABA7207Q39960562-4484CB84-8CC5-432F-B459-740EAE20AEECQ39961841-64BE3784-8BB9-4D81-B661-651F72F52394Q40418205-DC6A746B-4AB3-4D3D-AF0A-C1CDA36423B1
P2860
Targeting of a foreign protein to chloroplasts by fusion to the transit peptide from the small subunit of ribulose 1,5-bisphosphate carboxylase
description
article publié dans la revue scientifique Nature
@fr
artículu científicu
@ast
scientific article
@en
наукова стаття
@uk
գիտական հոդված
@hy
գիտական յօդուած
@hyw
מאמר אקדמי
@he
name
Targeting of a foreign protein ...... e 1,5-bisphosphate carboxylase
@ast
Targeting of a foreign protein ...... e 1,5-bisphosphate carboxylase
@en
Targeting of a foreign protein ...... e 1,5-bisphosphate carboxylase
@nl
type
label
Targeting of a foreign protein ...... e 1,5-bisphosphate carboxylase
@ast
Targeting of a foreign protein ...... e 1,5-bisphosphate carboxylase
@en
Targeting of a foreign protein ...... e 1,5-bisphosphate carboxylase
@nl
prefLabel
Targeting of a foreign protein ...... e 1,5-bisphosphate carboxylase
@ast
Targeting of a foreign protein ...... e 1,5-bisphosphate carboxylase
@en
Targeting of a foreign protein ...... e 1,5-bisphosphate carboxylase
@nl
P2093
P356
P1433
P1476
Targeting of a foreign protein ...... e 1,5-bisphosphate carboxylase
@en
P2093
A P Kausch
A R Cashmore
G Van den Broeck
L Herrera-Estrella
M Van Montagu
P2888
P304
P356
10.1038/313358A0
P407
P5875
P6179
1029562088