scholarly article | Q13442814 |
P356 | DOI | 10.1074/JBC.271.38.23487 |
P698 | PubMed publication ID | 8798557 |
P2093 | author name string | U Sandholzer | |
B Schmidt | |||
R Zimmermann | |||
A A Szalay | |||
T Dierks | |||
A Escher | |||
M Brunke | |||
M Lechte | |||
P Schlotterhose | |||
P2860 | cites work | Human cyclophilin B: a second cyclophilin gene encodes a peptidyl-prolyl isomerase with a signal sequence | Q22001507 |
DNA sequencing with chain-terminating inhibitors | Q22066207 | ||
Peptidyl-prolyl cis-trans isomerase is the cyclosporin A-binding protein cyclophilin | Q24338951 | ||
PyBOP®: A new peptide coupling reagent devoid of toxic by-product | Q29303117 | ||
Protein folding in the cell | Q29547792 | ||
Cyclophilin and peptidyl-prolyl cis-trans isomerase are probably identical proteins | Q29618460 | ||
Bacterial luciferase alpha beta fusion protein is fully active as a monomer and highly sensitive in vivo to elevated temperature | Q34300087 | ||
Calnexin: a membrane-bound chaperone of the endoplasmic reticulum | Q34342505 | ||
Protein translocation into proteoliposomes reconstituted from purified components of the endoplasmic reticulum membrane | Q34344763 | ||
Chemistry and Biology of the Immunophilins and Their Immunosuppressive Ligands | Q36617985 | ||
Individual subunits of bacterial luciferase are molten globules and interact with molecular chaperones | Q36675735 | ||
M13 procoat and a pre-immunoglobulin share processing specificity but use different membrane receptor mechanisms | Q37611240 | ||
The essential function of yeast protein disulfide isomerase does not reside in its isomerase activity | Q38316136 | ||
Folding and association of proteins | Q39696106 | ||
Cyclosporin A, FK506 and rapamycin: more than just immunosuppression | Q40492144 | ||
Molecular chaperones in protein folding: the art of avoiding sticky situations | Q40621904 | ||
Catalysis of protein folding by prolyl isomerase | Q41430633 | ||
The characterization of a cyclophilin-type peptidyl prolyl cis-trans-isomerase from the endoplasmic-reticulum lumen | Q41878766 | ||
Peptidyl prolyl cis-trans-isomerase activity associated with the lumen of the endoplasmic reticulum | Q42239001 | ||
The cyclophilin homolog ninaA is required in the secretory pathway | Q44879878 | ||
Sec61p and BiP directly facilitate polypeptide translocation into the ER. | Q45975576 | ||
Nopaline causes a conformational change in the NocR regulatory protein-nocR promoter complex of Agrobacterium tumefaciens Ti plasmid pTiT37. | Q48099535 | ||
Lumenal proteins of the mammalian endoplasmic reticulum are required to complete protein translocation | Q49486465 | ||
The use of the luxA gene of the bacterial luciferase operon as a reporter gene. | Q54738299 | ||
Polypeptide folding and dimerization in bacterial luciferase occur by a concerted mechanism in vivo. | Q54762505 | ||
Molecular Chaperones | Q56144364 | ||
Use of 33P: a safer way to sequence? | Q72100620 | ||
Enzyme assembly after de novo synthesis in rabbit reticulocyte lysate involves molecular chaperones and immunophilins | Q72536319 | ||
P433 | issue | 38 | |
P407 | language of work or name | English | Q1860 |
P304 | page(s) | 23487-23494 | |
P577 | publication date | 1996-09-01 | |
P1433 | published in | Journal of Biological Chemistry | Q867727 |
P1476 | title | Luciferase assembly after transport into mammalian microsomes involves molecular chaperones and peptidyl-prolyl cis/trans-isomerases | |
P478 | volume | 271 |
Q73883698 | Assembly of heterodimeric luciferase after de novo synthesis of subunits in rabbit reticulocyte lysate involves hsc70 and hsp40 at a post-translational stage |
Q36631537 | Conversion of cysteine to formylglycine: a protein modification in the endoplasmic reticulum |
Q64998845 | Generation of catalytically active 6-phosphofructokinase from Saccharomyces cerevisiae in a cell-free system. |
Q38342876 | Promotion of transferrin folding by cyclic interactions with calnexin and calreticulin |
Q45885072 | Secretion of functional Renilla reniformis luciferase by mammalian cells |
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