scholarly article | Q13442814 |
P50 | author | Günter Blobel | Q60108 |
P2093 | author name string | Schnell DJ | |
P2860 | cites work | Identification of a receptor for protein import into chloroplasts and its localization to envelope contact zones | Q49486857 |
The binding of precursor proteins to chloroplasts requires nucleoside triphosphates in the intermembrane space | Q67728102 | ||
Kinetic analysis of translocation into isolated chloroplasts of the purified ferredoxin precursor | Q68127246 | ||
Complete processing of a small subunit of ribulose-1,5-bisphosphate carboxylase/oxygenase from pea requires the amino acid sequence Ile-Thr-Ser | Q68249655 | ||
A truncated analog of a pre-light-harvesting chlorophyll a/b protein II transit peptide inhibits protein import into chloroplasts | Q69482119 | ||
ATP is required for the binding of precursor proteins to chloroplasts | Q69588803 | ||
Internal ATP is the only energy requirement for the translocation of precursor proteins across chloroplastic membranes | Q69588806 | ||
Precursors to two nuclear-encoded chloroplast proteins bind to the outer envelope membrane before being imported into chloroplasts | Q69883628 | ||
Synthetic analogues of a transit peptide inhibit binding or translocation of chloroplastic precursor proteins | Q70189518 | ||
Transport of proteins into chloroplasts. Partial purification of a chloroplast protease involved in the processing of important precursor polypeptides | Q70489160 | ||
Thermolysin is a suitable protease for probing the surface of intact pea chloroplasts | Q83260534 | ||
Translocation of proteins across the endoplasmic reticulum. I. Signal recognition protein (SRP) binds to in-vitro-assembled polysomes synthesizing secretory protein | Q24681488 | ||
Vectors for selective expression of cloned DNAs by T7 RNA polymerase | Q29620230 | ||
Requirement for hsp70 in the mitochondrial matrix for translocation and folding of precursor proteins | Q29620285 | ||
Effect of mutations on the binding and translocation functions of a chloroplast transit peptide | Q33834577 | ||
A subfamily of stress proteins facilitates translocation of secretory and mitochondrial precursor polypeptides | Q34172156 | ||
Protein import into chloroplasts requires a chloroplast ATPase | Q34623521 | ||
In vitro synthesis and processing of a putative precursor for the small subunit of ribulose-1,5-bisphosphate carboxylase of Chlamydomonas reinhardtii | Q35011504 | ||
A dynamic model of the mitochondrial protein import machinery | Q35913670 | ||
70-kD heat shock-related protein is one of at least two distinct cytosolic factors stimulating protein import into mitochondria | Q36220955 | ||
Disrupted yeast mitochondria can import precursor proteins directly through their inner membrane | Q36221235 | ||
Intracellular protein topogenesis | Q36360251 | ||
Chloroplast protein topogenesis: import, sorting and assembly | Q37545036 | ||
What drives the translocation of proteins? | Q37599105 | ||
Translocation of secretory proteins across the microsomal membrane occurs through an environment accessible to aqueous perturbants | Q38352117 | ||
Signal peptides open protein-conducting channels in E. coli | Q42602564 | ||
The chloroplast import receptor is an integral membrane protein of chloroplast envelope contact sites | Q42762895 | ||
Signal peptide analogs derived from two chloroplast precursors interact with the signal recognition system of the chloroplast envelope. | Q44125820 | ||
New insights into the import mechanism of the ferredoxin precursor into chloroplasts | Q45196545 | ||
Sec61p and BiP directly facilitate polypeptide translocation into the ER. | Q45975576 | ||
Cryopreservation of chloroplasts and thylakoids for studies of protein import and integration | Q47920012 | ||
Chloroplast protein import : quantitative analysis of precursor binding | Q47924624 | ||
Complete sequence of the staphylococcal gene encoding protein A. A gene evolved through multiple duplications. | Q48392654 | ||
A protein-conducting channel in the endoplasmic reticulum | Q49486564 | ||
SecB functions as a cytosolic signal recognition factor for protein export in E. coli | Q49486756 | ||
70K heat shock related proteins stimulate protein translocation into microsomes | Q49486847 | ||
P433 | issue | 1 | |
P407 | language of work or name | English | Q1860 |
P304 | page(s) | 103-115 | |
P577 | publication date | 1993-01-01 | |
P1433 | published in | Journal of Cell Biology | Q1524550 |
P1476 | title | Identification of intermediates in the pathway of protein import into chloroplasts and their localization to envelope contact sites | |
P478 | volume | 120 |
Q45966975 | A 1-megadalton translocation complex containing Tic20 and Tic21 mediates chloroplast protein import at the inner envelope membrane. |
Q41993981 | A Toc75-like protein import channel is abundant in chloroplasts |
Q73526067 | A chloroplast envelope-transfer sequence functions as an export signal in Escherichia coli |
Q37386142 | A folded protein can be transported across the chloroplast envelope and thylakoid membranes |
Q42997723 | A mammalian cytochrome fused to a chloroplast transit peptide is a functional haemoprotein and is imported into isolated chloroplasts |
Q24672198 | A new chloroplast protein import intermediate reveals distinct translocation machineries in the two envelope membranes: energetics and mechanistic implications |
Q43808814 | A plastid envelope location of Arabidopsis ent-kaurene oxidase links the plastid and endoplasmic reticulum steps of the gibberellin biosynthesis pathway |
Q35216045 | A second, substrate-dependent site of protein import into chloroplasts |
Q47889137 | An Arabidopsis gene encoding a chloroplast-targeted beta-amylase |
Q49051343 | An antimicrobial origin of transit peptides accounts for early endosymbiotic events |
Q36255038 | Analysis of the interactions of preproteins with the import machinery over the course of protein import into chloroplasts |
Q80033182 | Arabidopsis Cor15am is a chloroplast stromal protein that has cryoprotective activity and forms oligomers |
Q48179689 | AtToc90, a new GTP-binding component of the Arabidopsis chloroplast protein import machinery |
Q47634149 | Biogenesis of thylakoid membranes with emphasis on the process in Chlamydomonas |
Q31960913 | Chloroplast precursor proteins compete to form early import intermediates in isolated pea chloroplasts |
Q50750744 | Chloroplasts of the green alga Chlamydomonas reinhardtii possess at least four distinct stromal processing proteases. |
Q30981320 | Cytometric analysis of an epitope-tagged transit peptide bound to the chloroplast translocation apparatus |
Q50002342 | Effects of TROL Presequence Mutagenesis on Its Import and Dual Localization in Chloroplasts |
Q42178707 | Effects of mutations at the two processing sites of the precursor for the small subunit of ribulose-bisphosphate carboxylase in Chlamydomonas reinhardtii |
Q89251134 | En route into chloroplasts: preproteins' way home |
Q72298653 | Envelope membrane proteins that interact with chloroplastic precursor proteins |
Q42952896 | Enzymatic product formation impairs both the chloroplast receptor-binding function as well as translocation competence of the NADPH: protochlorophyllide oxidoreductase, a nuclear-encoded plastid precursor protein |
Q35880616 | Evidence for a dynamic and transient pathway through the TAT protein transport machinery |
Q43032673 | Expression and import of an active cellulase from a thermophilic bacterium into the chloroplast both in vitro and in vivo |
Q24555131 | FLU: a negative regulator of chlorophyll biosynthesis in Arabidopsis thaliana |
Q35022917 | Folding quality control in the export of proteins by the bacterial twin-arginine translocation pathway |
Q40900406 | Identification of a translocation intermediate occupying functional protein import sites in the chloroplastic envelope membrane |
Q27934056 | Identification of a yeast karyopherin heterodimer that targets import substrate to mammalian nuclear pore complexes |
Q36254542 | Identification of protein transport complexes in the chloroplastic envelope membranes via chemical cross-linking |
Q48078097 | Identification of two GTP-binding proteins in the chloroplast protein import machinery |
Q71771787 | Import inhibition of poly(His) containing chloroplast precursor proteins by Ni2+ ions |
Q39147209 | Import of Soluble Proteins into Chloroplasts and Potential Regulatory Mechanisms |
Q77809714 | In vivo analysis of the role of atTic20 in protein import into chloroplasts |
Q36655082 | In vivo zippering of inner and outer mitochondrial membranes by a stable translocation intermediate |
Q73442576 | Insertion of light-harvesting chlorophyll a/b protein into the thylakoid topographical studies |
Q73101229 | Insertion of the 34-kDa chloroplast protein import component, IAP34, into the chloroplast outer membrane is dependent on its intrinsic GTP-binding capacity |
Q37254044 | Interaction of actin and the chloroplast protein import apparatus |
Q34392146 | Interaction of the protein import and folding machineries of the chloroplast |
Q48078100 | Isolation of components of the chloroplast protein import machinery |
Q36017907 | Let's talk about...chloroplast import |
Q63255370 | Lipid transport required to make lipids of photosynthetic membranes |
Q47708405 | Localization of light-harvesting complex apoproteins in the chloroplast and cytoplasm during greening ofChlamydomonas reinhardtii at 38°C. |
Q28362482 | Maize non-photosynthetic ferredoxin precursor is mis-sorted to the intermembrane space of chloroplasts in the presence of light |
Q74770514 | Mechanism of Protein Transport across the Chloroplast Envelope |
Q35919176 | Members of the Toc159 import receptor family represent distinct pathways for protein targeting to plastids |
Q30153347 | New insights into the mechanism of chloroplast protein import and its integration with protein quality control, organelle biogenesis and development |
Q42796588 | Positive charges determine the topology and functionality of the transmembrane domain in the chloroplastic outer envelope protein Toc34. |
Q33650487 | Protein import into chloroplasts |
Q78409029 | Protein import into chloroplasts |
Q34081458 | Protein import: the hitchhikers guide into chloroplasts. |
Q41220629 | Protein targeting and translocation; a comparative survey. |
Q41239627 | Protein translocation at the envelope and thylakoid membranes of chloroplasts |
Q77304452 | Protein translocation into and across the chloroplastic envelope membranes |
Q37383493 | Protein transport in organelles: The Toc complex way of preprotein import. |
Q37383489 | Protein transport in organelles: The composition, function and regulation of the Tic complex in chloroplast protein import. |
Q35064539 | Protein unfolding--an important process in vivo? |
Q36119113 | Reconstitution of protein targeting to the inner envelope membrane of chloroplasts |
Q36239771 | Signal sequence region of mitochondrial precursor proteins binds to mitochondrial import receptor |
Q30533958 | Spatial association with PTEX complexes defines regions for effector export into Plasmodium falciparum-infected erythrocytes |
Q33886173 | Stable association of chloroplastic precursors with protein translocation complexes that contain proteins from both envelope membranes and a stromal Hsp100 molecular chaperone |
Q38660833 | Stable megadalton TOC-TIC supercomplexes as major mediators of protein import into chloroplasts |
Q73107062 | Stepwise transfer of tRNA through the double membrane of Leishmania mitochondria |
Q36310722 | Stromal processing peptidase binds transit peptides and initiates their ATP-dependent turnover in chloroplasts |
Q41771777 | Structural determinants allowing transferase activity in SENSITIVE TO FREEZING 2, classified as a family I glycosyl hydrolase |
Q41983948 | Substrate- and species-specific processing enzymes for chloroplast precursor proteins |
Q42679201 | Targeting Peptides Transiently Block a Mitochondrial Channel |
Q33887893 | The chloroplastic protein import machinery contains a Rieske-type iron-sulfur cluster and a mononuclear iron-binding protein |
Q48064352 | The molecular basis for distinct pathways for protein import into Arabidopsis chloroplasts |
Q42242090 | The plastid division proteins, FtsZ1 and FtsZ2, differ in their biochemical properties and sub-plastidial localization |
Q36917070 | The role of GTP binding and hydrolysis at the atToc159 preprotein receptor during protein import into chloroplasts |
Q73663689 | The rug3 locus of pea encodes plastidial phosphoglucomutase |
Q72134239 | The transit sequence of a chloroplast precursor protein reorients the lipids in monogalactosyl diglyceride containing bilayers |
Q27935273 | The yeast nucleoporin Nup188p interacts genetically and physically with the core structures of the nuclear pore complex |
Q46804927 | Three sets of translocation intermediates are formed during the early stage of protein import into chloroplasts. |
Q36255923 | Tic20 and Tic22 are new components of the protein import apparatus at the chloroplast inner envelope membrane |
Q27673842 | Tic22 Is an Essential Chaperone Required for Protein Import into the Apicoplast |
Q78151587 | Tic22 is targeted to the intermembrane space of chloroplasts by a novel pathway |
Q47900347 | Tic40, a new "old" subunit of the chloroplast protein import translocon |
Q37431462 | Toc receptor dimerization participates in the initiation of membrane translocation during protein import into chloroplasts |
Q34105694 | Toc, Tic, and chloroplast protein import |
Q74614532 | Toc, tic, and chloroplast protein import |
Q33992929 | Tocopherol cyclase (VTE1) localization and vitamin E accumulation in chloroplast plastoglobule lipoprotein particles. |
Q38330079 | Topology of Euglena chloroplast protein precursors within endoplasmic reticulum to Golgi to chloroplast transport vesicles |
Q34401988 | Topology of IEP110, a component of the chloroplastic protein import machinery present in the inner envelope membrane |
Q41288792 | Transport of proteins in eukaryotic cells: more questions ahead |
Q43507743 | Two basic residues of the h-VPAC1 receptor second transmembrane helix are essential for ligand binding and signal transduction |
Q36236987 | Two components of the chloroplast protein import apparatus, IAP86 and IAP75, interact with the transit sequence during the recognition and translocation of precursor proteins at the outer envelope |
Q47745153 | atTic110 functions as a scaffold for coordinating the stromal events of protein import into chloroplasts |
Q36322157 | atToc159 is a selective transit peptide receptor for the import of nucleus-encoded chloroplast proteins |
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