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Enzyme
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Target Concepts:
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Query: EC:3.4.21.64 (
proteinase K
)
4,071
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The fusion (F) protein of the paramyxovirus SV5 contains two heptad repeat regions, HRA adjacent to the fusion peptide and HRB proximal to the transmembrane domain. Peptides, N-1 and C-1, respectively, corresponding to these heptad repeat regions form a thermostable, alpha-helical trimer of heterodimers (S. B. Joshi, R. E. Dutch, and R. A. Lamb (1998). Virology 248, 20-34). Further characterization of the N-1/C-1 complex indicated that the C-1 peptides, which are predicted to residue on the outside of the complex, are resistant to digestion by several proteases when present in the complex. Only
proteinase K
digested most of the C-1 peptide, though the small remaining protease protected fragment of C-1 confers extreme thermostability on the proteinase-K-resistant N-1 trimeric coiled-coil. Carboxypeptidase Y digestion of the N-1/C-1 complex indicates that the C-1 peptides associate in an antiparallel orientation relative to the N-1 peptides. Electron microscopy of the N-1/C-1 complex showed a rod-shaped complex with an average length of 9.7 nm, consistent with all of N-1 existing as an alpha helix. Mutations at heptad repeat a and d residues of N-1, positions that are predicted to point inward to the center of the N-1 trimeric coiled-coil, were found to have varying effects as analyzed by circular dichroism measurements. The mutation I137M did not affect the helical structure of the isolated N-1 peptide but did affect the thermostability of the N-1/C-1 complex. Mutations L140M and L161M perturbed the helical structure formed by N-1 in isolation but did not affect formation of a thermostable N-1/C-1 complex. Finally, a peptide, SV5 F 255-293, corresponding to a proposed
leucine zipper
region, was analyzed for effects on N-1, C-1, or the N-1/C-1 complex. Circular dichroism analysis demonstrated that while the presence of peptide 255-293 increased the helical signal from either N-1 or the N-1/C-1 complex, no change in thermostability was observed, indicating that this region is not a component of the final, most stable core of the F protein.
...
PMID:Paramyxovirus fusion protein: characterization of the core trimer, a rod-shaped complex with helices in anti-parallel orientation. 992 82
A mouse monoclonal antibody 12B1 was raised against Golgi fractions from Sf21 insect cells and selected as Golgi-specific by immunostaining of the cells. The antigen was purified from the cells by immunoaffinity chromatography with the monoclonal antibody, and its N-terminal and internal amino acid sequences were determined. Based on the partial amino acid sequences, cDNA encoding the antigen protein was cloned and sequenced. The amino acid sequence deduced from the cDNA nucleotide sequence showed a homology to those of CALNUC family proteins, CALNUC (or nucleobindin, a calcium-binding Golgi protein with DNA-binding activity) and protein NEFA (a cell surface protein with DNA-binding, EF-hand, and acidic domains). The insect protein had two EF-hand loops at the same sites as the mammalian CALNUC family proteins, but had no
leucine zipper
which the mammalian homologues commonly have. An electron microscopic immunoperoxidase study demonstrated that the insect protein was localized in the cis-Golgi cisternae and cis-Golgi networks. Since this localization is identical to that of mammalian CALNUC, the insect protein was considered to be a homologue of CALNUC rather than that of NEFA. Assays involving
proteinase K
digestion, sodium carbonate extraction and Triton X-114 extraction revealed that the insect CALNUC-like protein was a soluble protein tightly associated with the luminal surface of Golgi membranes as reported for mammalian CALNUC. The insect protein was also shown to have calcium-binding activity as does mammalian CALNUC. These data verify that the insect protein is CALNUC. The existence of CALNUC in insect cells suggests that CALNUC is an essential calcium-binding Golgi protein in a wide range of the animal kingdom. A phylogenetic tree analysis, however, suggested that NEFA was derived from CALNUC long after the segregation of a mammalian ancestor from an insect ancestor.
...
PMID:CALNUC (nucleobindin) is localized in the Golgi apparatus in insect cells. 1077 13
The
leucine zipper
is a dimeric coiled-coil structural motif consisting of four to six heptad repeats, designated (abcdefg)(n). In the GCN4
leucine zipper
, a position 16 in the third heptad is occupied by an Asn residue whereas the other a positions are Val residues. Recently, we have constructed variants of the GCN4
leucine zipper
in which the a position Val residues were replaced by Ile. The folding and unfolding of the wild-type GCN4
leucine zipper
and the Val to Ile variant both adhere to a simple two-state mechanism. In this study, another variant of the GCN4
leucine zipper
was constructed by moving the single Asn residue from a position 16 to a position 9. This switch causes the thermal unfolding of the GCN4
leucine zipper
to become three state. The unfolding pathway of this variant was determined by thermal denaturation, limited
proteinase K
digestion, and sedimentation equilibrium analysis. Our data are consistent with a model in which the variant first unfolds from its N terminus and changes the oligomerization specificity from a native dimer to a partially unfolded intermediate containing a mixture of dimers and trimers and then completely unfolds to unstructured monomers.
...
PMID:An engineered leucine zipper a position mutant with an unusual three-state unfolding pathway. 1126 91
