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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)
We have studied the import of the precursor to yeast cytochrome c oxidase subunit Va, a protein of the mitochondrial inner membrane. Like the majority of mitochondrial precursor proteins studied thus far, import of presubunit Va was dependent upon both a membrane potential (delta psi) and the hydrolysis of ATP. However, the levels of ATP necessary for the import of presubunit Va were significantly lower than those required for the import of a different mitochondrial
precursor protein
, the beta subunit of the F1-ATPase. The rate of import of presubunit Va was found to be unaffected by temperature over the range 0 to 30 degrees C, and was not facilitated by prior denaturation of the protein. These results, in conjunction with those of an earlier study demonstrating that presubunit Va could be efficiently targeted to mitochondria with minimal presequences, suggest that the subunit Va precursor normally exists in a loosely folded conformation. Presubunit Va could also be imported into mitochondria that had been pretreated with high concentrations of trypsin or
proteinase K
(1 mg/ml and 200 micrograms/ml, respectively). Furthermore, the rate of import into trypsin-treated mitochondria, at both 0 and 30 degrees C, was identical to that observed with the untreated organelles. Thus, import of presubunit Va is not dependent upon the function of a protease-sensitive surface receptor. When taken together, the results of this study suggest that presubunit Va follows an unusual import pathway. While this pathway uses several well-established translocation steps, in its entirety it is distinct from either the receptor-independent pathway used by apocytochrome c, or the more general pathway used by a majority of mitochondrial precursor proteins.
...
PMID:An unusual mitochondrial import pathway for the precursor to yeast cytochrome c oxidase subunit Va. 184 27
A highly purified fraction obtained from scrapie (263-K strain)-infected hamsters' brains by an alternative procedure without
proteinase K
treatment contained a protease-resistant form of the scrapie
precursor protein
(PrPSc) and infectivity of 9.9 +/- 0.7 log LD50/ml. Polyclonal antibodies produced against hamster scrapie amyloid protein (PrP27-30) and used in a neutralization test diminished infectivity of the PrPSc preparations by 1.6 log after intracerebral inoculation and by 1 log after intraperitoneal inoculation. PrPSc was subjected to size-exclusion HPLC; greater than or equal to 60% of the eluted infectious units were recovered from the peak with an apparent mass of 30.4 +/- 0.6 kDa. Characterization by UV absorption spectra, SDS/PAGE, immunoblots, N-terminal amino acid sequence, and neutral sugar and amino sugar analyses demonstrated homogeneity of the infectious units. The neutral sugar and amino sugar compositional analyses revealed high mannose, glucosamine, fucose, and sialic acid content. This demonstrated an extensive posttranslational modification by the complex type of N-linked glycosylation and glycane core of C-terminal glycolipid of PrPSc. The results correspond to the predicted size, composition, and sequence of PrPSc and indicate that this protein may be the only component of scrapie infectious unit or the infectious form of scrapie precursor.
...
PMID:Molecular mass, biochemical composition, and physicochemical behavior of the infectious form of the scrapie precursor protein monomer. 197 20
Antibody to the poliovirus genome-linked protein, VPg, specifically immunoprecipitated the product RNA synthesized in vitro by the poliovirus RNA polymerase and HeLa cell host factor when VPg-linked poliovirion RNA was used as a template. The largest product RNA that was immunoprecipitated was twice the size of the template RNA. The complete denaturation of the product RNA with CH3HgOH had no effect on the immunoprecipitation reaction. In contrast, CH3HgOH denaturation prevented the immunoprecipitation of the oligo(U)-primed product RNA. Immunoprecipitation of the product RNA synthesized in the host-factor-dependent reaction was prevented if VPg was removed from the template RNA by pretreatment with
proteinase K
or if an RNA template without VPg was used in the reaction. The results support our previous evidence that a covalent linkage exists between the labeled negative-strand product RNA and the VPg-linked template RNA and suggest that the purified polymerase and host factor initiated RNA synthesis in vitro in the absence of VPg or a VPg-
precursor protein
.
...
PMID:Anti-VPg antibody precipitation of product RNA synthesized in vitro by the poliovirus polymerase and host factor is mediated by VPg on the poliovirion RNA template. 300 84
The translocation into Escherichia coli cytoplasmic membrane vesicles of a protein containing an uncleavable signal peptide was studied. The signal peptide cleavage site of the ompF-lpp chimeric protein, a model secretory protein, was changed from Ala-Ala to Phe-Pro through oligonucleotide-directed site-specific mutagenesis of the ompF-lpp gene on a plasmid. The mutant protein was no longer processed by the signal peptidase. When
proteinase K
treatment was adopted as a probe for protein translocation into inverted membrane vesicles, the mutant protein exhibited rapid and almost complete translocation, most likely due to the lack of premature cleavage of the signal peptide before the translocation. This result also indicates that cleavage of the signal peptide is not required for translocation of the mature domain of the protein. The establishment of an efficient system made it possible to perform precise and quantitative analysis of the translocation process. The translocation was time-dependent, vesicle-dependent, and required ATP and NADH. Translocation into membrane vesicles was also observed with the uncleavable
precursor protein
purified by means of immunoaffinity chromatography, although the efficiency was appreciably low. The translocation required only ATP and NADH. Addition of the cytosolic fraction did not enhance the translocation.
...
PMID:Efficient in vitro translocation into Escherichia coli membrane vesicles of a protein carrying an uncleavable signal peptide. Characterization of the translocation process. 328 38
Maltose binding protein, like most periplasmic proteins, is resistant to a variety of proteinases. Treatment of pre-maltose binding protein with trypsin, chymotrypsin, or
proteinase K
removes an amino-terminal domain of the same approximate size as the leader sequence without degrading the mature portion of the protein. In addition, pre-maltose binding protein is as active as mature in binding maltose (Ferenci, T., and Randall, L.L. (1979) J. Biol. Chem. 254, 9979-9981). By these criteria, the precursor and mature proteins are in the same conformation except for the exposed leader sequence on the precursor. We have compared the ability of these proteins to interact with amphipaths, such as detergents. The
precursor protein
binds to Triton X-100, while the mature protein does not. We propose that the leader domain is responsible for detergent binding. Mutations in the leader region of the precursor which block export in vivo prevent detergent binding in vitro. A mutant with a mild export defect can still bind detergent. This correlation between detergent binding by precursors with related leaders and export efficiency of each precursor suggests that hydrophobic partition of the leader may initiate pre-protein transfer across the membrane.
...
PMID:The leader region of pre-maltose binding protein binds amphiphiles. A model for self-assembly in protein export. 390 99
The gene for a new outer membrane-associated protease, designated OmpP, of Escherichia coli has been cloned and sequenced. The gene encodes a 315-residue
precursor protein
possessing a 23-residue signal sequence. Including conservative substitutions and omitting the signal peptides, OmpP is 87% identical to the outer membrane protease OmpT. OmpP possessed the same enzymatic activity as OmpT. Immuno-electron microscopy demonstrated the exposure of the protein at the cell surface. Digestion of intact cells with
proteinase K
removed 155 N-terminal residues of OmpP, while the C-terminal half remained protected. It is possible that much of this N-terminal part is cell surface exposed and carries the enzymatic activity. Synthesis of OmpP was found to be thermoregulated, as is the expression of ompT (i.e., there is a low rate of synthesis at low temperatures) and, in addition, was found to be controlled by the cyclic AMP system.
...
PMID:New outer membrane-associated protease of Escherichia coli K-12. 828 30
To investigate in a direct way the interaction between a
precursor protein
and phospholipids, monolayer studies were performed using the purified precursor of Escherichia coli outer-membrane protein PhoE. It was demonstrated that prePhoE can insert efficiently into monolayers of dioleoylglycerophosphoglycerol (Ole2GroPGro) and dioleoylglycerophosphoethanolamine (Ole2GroPEtn), this insertion was mainly driven by hydrophobic forces. Compared with previous results obtained with PhoE signal peptide, the full-length
precursor protein
does not show the specific interaction with acidic lipids. PrePhoE inserted into a Ole2GroPGro monolayer occupies an area of 28 +/- 3 [corrected] nm2/molecule, which is approximately 10-fold larger than the area occupied by the PhoE signal peptide. The purified mature PhoE protein has a lower capacity to insert into Ole2GroPGro and Ole2GroPEtn monolayers and is, in contrast to prePhoE, fully accessible to
proteinase K
after interacting with a Ole2GroPGro monolayer. The results demonstrate that in the context of the
precursor protein
both the signal sequence and mature domain of prePhoE insert into lipid monolayers. It was found that PhoE, like prePhoE, can form in vitro a complex with the cytosolic chaperone SecB. Complexation with SecB increases the insertion of (pre)PhoE into acidic lipid monolayers. The high lipid affinity of prePhoE was also demonstrated by vesicle-binding experiments which showed that SecB dissociates from the SecB-prePhoE complex upon binding of the precursor to the bilayer. The implications of these findings for preprotein translocation are discussed and in addition some extrapolations to the insertion of PhoE into the outer membrane are made.
...
PMID:Influence of the signal sequence and chaperone SecB on the interaction between precursor protein prePhoE and phospholipids. 863 31
The cornified envelope (CE) is an insoluble sheath of epsilon-(gamma-glutamyl)lysine cross-linked protein, which is deposited beneath the plasma membrane during keratinocyte terminal differentiation. We have probed the structure of the CE by proteolytic cleavage of purified CE fragments isolated from CEs formed spontaneously in cell culture. CNBr digestion, followed by trypsin and then
proteinase K
treatment released 25%, 42%, and 18%, respectively, of the CE protein. Purification and sequencing of released peptides has identified two novel CE precursors, S100A11 (S100C, calgizzarin) and S100A10 (calpactin light chain). We also sequenced peptides derived from annexin I and plasminogen activator inhibitor 2, two putative envelope precursors, as well as portions of the well established CE precursor proteins SPR1A, SPR1B, and involucrin. Many desmosomal components were identified (desmoglein 3, desmocolin A/B, desmoplakin I, plakoglobin, and plakophilin), indicating that desmosomes become cross-linked into the CE. Fragments derived from envoplakin, the recently sequenced 210-kDa membranous CE
precursor protein
, which also appears to be a desmosomal component, were also identified. Analysis of the pattern of peptide release following the sequential digestion indicates that S100A11 is anchored to the envelope via Gln102 and/or Lys103 at the carboxyl terminus and at Lys3, Lys23, and/or Gln22 in the amino terminus. A similar type of analysis indicates that small proline-rich proteins 1A and 1B (SPR1A and SPR1B) become cross-linked at the amino terminus (residues 1-23) and the carboxyl terminus (residues 86-89). No loricrin, cystatin A, or elafin peptides were detected.
...
PMID:S100A11, S100A10, annexin I, desmosomal proteins, small proline-rich proteins, plasminogen activator inhibitor-2, and involucrin are components of the cornified envelope of cultured human epidermal keratinocytes. 911 70
Leigh syndrome (LS) associated with cytochrome c oxidase (COX) deficiency is an autosomal recessive neurodegenerative disorder caused by mutations in SURF1. Although SURF1 is ubiquitously expressed, its expression is lower in brain than in other highly aerobic tissues. All reported SURF1 mutations are loss of function, predicting a truncated protein (hSurf1) product. Western blot analysis with anti-hSurf1 antibodies demonstrated a specific 30 kDa protein in control fibroblasts, but no protein in LS patient cells. Steady-state levels of both nuclear- and mitochondrial-encoded COX subunits were also markedly reduced in patient cells, consistent with a failure to assemble or maintain a normal amount of the enzyme complex. An epitope (FLAG)-tagged hSurf1 was targeted to mitochondria in COS7 cells and a mitochondrial import assay showed that the hSurf1
precursor protein
(35 kDa) was imported and processed to its mature form (30 kDa) in a membrane potential-dependent fashion. The protein was resistant to alkaline carbonate extraction and susceptible to
proteinase K
digestion in mitoplasts. Mutant proteins in which the N-terminal transmembrane domain or central loop were deleted, or the C-terminal transmembrane domain disrupted, did not accumulate and could not rescue COX activity in patient cells. Co-expression of the N- and C-terminal transmembrane domains as independent entities also failed to rescue the enzyme deficiency. These data demonstrate that hSurf1 is an integral inner membrane protein with an essential role in the assembly or maintenance of the COX complex and that insertion of both transmembrane domains in the intact protein is necessary for function.
...
PMID:Expression and functional analysis of SURF1 in Leigh syndrome patients with cytochrome c oxidase deficiency. 1055 3
The gene encoding a subtilisin-like serine proteinase in the psychrotrophic Vibrio sp. PA44 has been successfully cloned, sequenced and expressed in Escherichia coli. The gene is 1593 basepairs and encodes a
precursor protein
of 530 amino acid residues with a calculated molecular mass of 55.7 kDa. The enzyme is isolated, however, as an active 40.6-kDa proteinase, without a 139 amino acid residue N-terminal prosequence. Under mild conditions the enzyme undergoes a further autocatalytic cleavage to give a 29.7-kDa proteinase that retains full enzymatic activity. The deduced amino acid sequence of the enzyme has high homology to proteinases of the
proteinase K
family of subtilisin-like proteinases. With respect to the enzyme characteristics compared in this study the properties of the wild-type and recombinant proteinases are the same. Sequence analysis revealed that especially with respect to the thermophilic homologues, aqualysin I from Thermus aquaticus and a proteinase from Thermus strain Rt41A, the cold-adapted Vibrio-proteinase has a higher content of polar/uncharged amino acids, as well as aspartate residues. The thermophilic enzymes had a higher content of arginines, and relatively higher number of hydrophobic amino acids and a higher aliphatic index. These factors may contribute to the adaptation of these proteinases to different temperature conditions.
...
PMID:Characterization of a cloned subtilisin-like serine proteinase from a psychrotrophic Vibrio species. 1242 52
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