| scholarly article | Q13442814 |
| P2093 | author name string | H Neurath | |
| P2860 | cites work | Cloning and expression of human carboxypeptidase Z, a novel metallocarboxypeptidase | Q24312739 |
| Enterokinase, the initiator of intestinal digestion, is a mosaic protease composed of a distinctive assortment of domains | Q24316391 | ||
| The structure of the human betaII-tryptase tetramer: fo(u)r better or worse | Q24615069 | ||
| TRYPSINOGEN AND CHYMOTRYPSINOGEN AS HOMOLOGOUS PROTEINS | Q24628196 | ||
| The structure of rat mast cell protease II at 1.9-A resolution | Q27728547 | ||
| The three-dimensional structure of the native ternary complex of bovine pancreatic procarboxypeptidase A with proproteinase E and chymotrypsinogen C | Q27729482 | ||
| Native carboxypeptidase A in a new crystal environment reveals a different conformation of the important tyrosine 248 | Q27766163 | ||
| The coagulation cascade: initiation, maintenance, and regulation | Q28610148 | ||
| Caspases: enemies within | Q29547315 | ||
| Structural basis of substrate specificity in the serine proteases | Q29619675 | ||
| The catalytic sites of 20S proteasomes and their role in subunit maturation: a mutational and crystallographic study | Q30779094 | ||
| Caspase activation: the induced-proximity model | Q33740126 | ||
| Chaperone rings in protein folding and degradation. | Q33740150 | ||
| Protein folds, functions and evolution | Q33755821 | ||
| Role of proteolytic enzymes in biological regulation (a review) | Q33848859 | ||
| From colloids to proteases | Q33857425 | ||
| Carboxypeptidase Z is present in the regulated secretory pathway and extracellular matrix in cultured cells and in human tissues | Q33889722 | ||
| So do we understand how enzymes work? | Q33901086 | ||
| Protein function in the post-genomic era. | Q33906809 | ||
| The activation of chymotrypsinogen; isolation and identification of a peptide liberated during activation. | Q33969080 | ||
| Three-dimensional structure of porcine pancreatic procarboxypeptidase A. A comparison of the A and B zymogens and their determinants for inhibition and activation. | Q34359288 | ||
| Kinetic stability as a mechanism for protease longevity | Q36176625 | ||
| The amino acid sequence of bovine carboxypeptidase A. | Q36447865 | ||
| Viral proteases: evolution of diverse structural motifs to optimize function | Q41656240 | ||
| The Hans Neurath Award lecture of The Protein Society: proteins-- a testament to physics, chemistry, and evolution | Q42128864 | ||
| Identification of a peptide released during autocatalytic activation of trypsinogen | Q47861924 | ||
| 3. Carboxypeptidase. Bovine carboxypeptidase A--activation, chemical structure and molecular heterogeneity. | Q54684255 | ||
| Amino-Acid Sequence of Bovine Chymotrypsinogen-A | Q60097535 | ||
| Bovine factor X 1a (activated Stuart factor). Evidence of homology with mammalian serine proteases | Q68500927 | ||
| Identification of the amino acid replacements characterizing the allotypic forms of bovine carboxypeptidase A | Q72522295 | ||
| The tortuous story of Asp ... His ... Ser: structural analysis of alpha-chymotrypsin | Q73846081 | ||
| PROCEDURES FOR THE ISOLATION OF CRYSTALLINE BOVINE PANCREATIC CARBOXYPEPTIDASE A. I. ISOLATION FROM ACETONE POWDERS OF PANCREAS GLANDS | Q76706232 | ||
| NIH weighs bold plan for online preprint publishing | Q77215169 | ||
| P433 | issue | 4 | |
| P304 | page(s) | 892-904 | |
| P577 | publication date | 2001-04-01 | |
| P1433 | published in | Protein Science | Q7251445 |
| P1476 | title | From proteases to proteomics | |
| P478 | volume | 10 |
| Q40738557 | A short segment of the R domain of cystic fibrosis transmembrane conductance regulator contains channel stimulatory and inhibitory activities that are separable by sequence modification |
| Q33251469 | ATR-dependent checkpoint modulates XPA nuclear import in response to UV irradiation |
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| Q38589803 | Biophysical Methods to Investigate Intrinsically Disordered Proteins: Avoiding an "Elephant and Blind Men" Situation |
| Q47317019 | Calreticulin: Challenges Posed by the Intrinsically Disordered Nature of Calreticulin to the Study of Its Function |
| Q34951584 | Cold adaptation, ca2+ dependency and autolytic stability are related features in a highly active cold-adapted trypsin resistant to autoproteolysis engineered for biotechnological applications |
| Q54348285 | Compaction and binding properties of the intrinsically disordered C-terminal domain of Henipavirus nucleoprotein as unveiled by deletion studies. |
| Q33943659 | Cyclosporin A inhibits nucleotide excision repair via downregulation of the xeroderma pigmentosum group A and G proteins, which is mediated by calcineurin inhibition. |
| Q42791927 | Development of a LytE-based high-density surface display system in Bacillus subtilis |
| Q34182762 | Differential splicing alters subcellular localization of the alpha but not beta isoform of the MIER1 transcriptional regulator in breast cancer cells |
| Q38779742 | Distribution and cluster analysis of predicted intrinsically disordered protein Pfam domains |
| Q40456790 | Duplications in the 3' termini of three segments of Fusarium graminearum virus China 9. |
| Q35108545 | Evolution and structural organization of the C proteins of paramyxovirinae |
| Q37810586 | Flexible Nets of Malleable Guardians: Intrinsically Disordered Chaperones in Neurodegenerative Diseases |
| Q38944980 | How disordered is my protein and what is its disorder for? A guide through the "dark side" of the protein universe |
| Q50559161 | How to Predict Disorder in a Protein of Interest. |
| Q35170755 | Human exonuclease 1 connects nucleotide excision repair (NER) processing with checkpoint activation in response to UV irradiation |
| Q41814829 | Interaction between the C-terminal domains of measles virus nucleoprotein and phosphoprotein: a tight complex implying one binding site |
| Q37135397 | Invertebrate trypsins: a review |
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| Q24320688 | Lacritin and other new proteins of the lacrimal functional unit |
| Q38056343 | Mass spectrometry methods for intrinsically disordered proteins. |
| Q50108067 | Molecular dissection of Salmonella FliH, a regulator of the ATPase FliI and the type III flagellar protein export pathway. |
| Q34782212 | Multiple intrinsically disordered sequences alter DNA binding by the homeodomain of the Drosophila hox protein ultrabithorax |
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| Q52789293 | Pliable natural biocide: Jaburetox is an intrinsically disordered insecticidal and fungicidal polypeptide derived from jack bean urease. |
| Q42949853 | Potato virus A genome-linked protein VPg is an intrinsically disordered molten globule-like protein with a hydrophobic core. |
| Q30760649 | Reduced levels of XPA, ERCC1 and XPF DNA repair proteins in testis tumor cell lines. |
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| Q44746385 | The C-terminal domain of measles virus nucleoprotein belongs to the class of intrinsically disordered proteins that fold upon binding to their physiological partner |
| Q41120778 | The C-terminus of ICln is natively disordered but displays local structural preformation |
| Q54940481 | The Ustilago maydis repetitive effector Rsp3 blocks the antifungal activity of mannose-binding maize proteins. |
| Q37462521 | The mysterious unfoldome: structureless, underappreciated, yet vital part of any given proteome |
| Q30375946 | Unstructural biology of the Dengue virus proteins. |
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