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Query: EC:3.4.21.7 (
plasmin
)
9,023
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Polyclonal antibodies raised against the
plasmin
-released 1-28 phosphopeptide from bovine
beta-casein
[i.e., beta-CN(f1-28)4P] specifically recognized the tryptic
beta-casein
1-25 and 2-25 peptides, whatever the degree of phosphorylation, but were unresponsive to the shortened
beta-casein
16-22 phosphopeptide. These antibodies were able to recognize the parent bovine
beta-casein
as well as the homologous water buffalo protein, but they could not detect the homologous counterparts from ovine and caprine milks. Such antibodies were used in competitive enzyme-linked immunosorbent assays to monitor the
plasmin
-mediated release of the 1-28 phosphopeptide from
beta-casein
and to evaluate the residual native
beta-casein
in bovine cheese sampled during ripening. Applications of these polyclonal antibodies are suggested mainly for estimating the age of hard cheeses and, possibly, for tracing the presence of bovine casein in fresh ovine and caprine cheeses.
...
PMID:Immunochemical evaluation of bovine beta-casein and its 1-28 phosphopeptide in cheese during ripening. 1105 99
Proteolysis has a critical role in defining the typical organoleptic characteristics of Grana Padano, a well-known Italian cheese. During the ripening process, hydrolysis of
beta-casein
produces different fragments, the most abundant and widely studied of which are gamma-caseins, three polypeptides containing the HOOC-terminal portion of
beta-casein
. By sodium dodecyl sulfate-PAGE and a specific anti-
beta-casein
monoclonal antibody, two
beta-casein
-derived bands were identified in Grana Padano cheese: betaa and betab. Thanks to the identification of the amino acid sequences, it was shown that: a) betaa contains gamma1-casein [
beta-casein
(29-209)] and the correlated peptide [
beta-casein
(30-209)]; b) betab contains gamma2-casein [
beta-casein
(106-209)] and gamma3-casein [
beta-casein
(108-209)]. The production of betaa and betab by the three enzymes most involved in cheese proteolysis (pepsin, chymosin, and
plasmin
) was evaluated by performing in vitro digestions. A significant correlation between abundance of some polypeptides and ripening process was shown.
...
PMID:Proteolysis of beta-casein as a marker of Grana Padano cheese ripening. 1121 50
To investigate
plasmin
activity in cheese, we produced antibodies to bovine
beta-casein
with controlled specificity, suitable as markers of the integrity of the major bonds involved in its initial breakdown. Sixteen rabbits were immunized with synthetic substitutes for six
plasmin
-sensitive peptides. Antisera raised to the peptides (f20-39), (f40-56), (f94-113), (f184-202), and (f193-209) recognized
beta-casein
in ACP-ELISA, Western-blot, and biosensor assays. Casein in vitro hydrolysis by
plasmin
or chymosin reduced the detection of these determinants in ACP-ELISA, in agreement with the enzymatic sensitivity of bonds included within the binding sites, or in their neighborhood. Antiserum to (f20-39) in particular allowed the specific detection of
plasmin
cleavage at the bond generating gamma1-CN. Antisera to C-terminus preferentially detected the cleavage by chymosin. Immunoassays using these antibodies would allow in situ monitoring of significant proteolysis events without bias originated in the secondary degradation of the released peptides.
...
PMID:Antipeptide antibodies recognizing plasmin sensitive sites in bovine beta-casein sequence. 1131 98
Proteolysis is a generic biochemical process that is central in all biological activities. A new strategy for monitoring this biochemical process is proposed here. This approach is based on the production of rabbit polyclonal anti-peptide antibodies directly against the cleavage site on the substrate of the enzyme responsible for proteolysis. So long as the molecule's cleavage site is intact, the antibody will bind to the protein. However, after cleavage of the peptide bond by the protease, the antibody will no longer be able to recognize the substrate. Thus, the development of an ELISA that uses this specific antibody allows hydrolysis of the substrate protein to be monitored. Hydrolysis of
beta-casein
by
plasmin
, the main indigenous protease of milk, during the ripening of Swiss-type cheese, has been chosen as a model for this study.
...
PMID:A new approach to monitoring proteolysis phenomena using antibodies specifically directed against the enzyme cleavage site on its substrate. 1275 63
The link between oxidation and increased proteolysis in raw milk was studied. To accelerate oxidation, H2O2 (1 mM) was added to raw milk, resulting in enhanced proteolysis by up to 11.2% after 24 h incubation at 5 degrees C. Addition of Cu2+ (10 microM) to milk or exposure of milk to light (60 min) likewise increased proteolysis. To explain the mechanism responsible for increased proteolysis as a result of oxidation, the effect of lipid oxidation products on
plasmin
-induced proteolysis was tested. Addition of malondialdehyde to skim milk increased the formation of gamma-caseins, a proteolysis product from
plasmin
hydrolysis of
beta-casein
. The same observation was made in a model system containing 4.5 g
beta-casein
/l sodium tetraborate buffer at pH 8 and
plasmin
. Addition of a
plasmin
inhibitor blocked the formation of gamma-casein. The results indicate that aldehydes accumulated from lipid oxidation can modify
beta-casein
and thereby increase susceptibility of the proteins to proteolysis. Furthermore, the data suggest that proteolysis in raw milk may be connected to oxidative processes.
...
PMID:The influence of oxidation on proteolysis in raw milk. 1519 Sep 48
A total of 120 milk samples were collected from Comisana ewes throughout lactation. The ewes were ranked into two somatic cell count (SCC) categories: normal milk (N Milk) with SCC lower than 5.00x 10(5)/ml and high somatic cell milk (HSC Milk) with SCC higher than 1.00 x 10(6)/ml. Milk samples were analysed in triplicate for pH, fat and protein contents, renneting parameters, and
plasmin
and plasminogen activities. The peptide profile due to total proteolytic activity (endogenous and exogenous enzymes) on alpha- and beta-CNs were determined using urea-PAGE on sodium caseinate (pH 8.0 and pH 5.0) incubated at 37 degrees C for 4 d after sampling. The peptide profile due to non-
plasmin
enzyme activities at pH 5.0 was also determined using urea-PAGE. Plasmin activity was higher in the HSC milk than in the N milk throughout the study period. A decrease in
plasmin
activity was observed in the N milk during mid-lactation, which was probably related to decrease in pH, and in the HSC milk during late lactation, which may be ascribed to an enhanced influx of
plasmin
inhibitors from the blood stream. Proteolytic patterns in Comisana ewe milk were mainly affected by
plasmin
activity that increased with the SCC in milk. Also non-
plasmin
proteolytic activity was strongly enhanced by elevated SCC and resulted in a higher degradation of alpha-casein than of
beta-casein
. In general,
plasmin
activity did not increase with the advancement of lactation and exhibited a different trend in HSC and N milk, suggesting that physiological factors did not play a key role in regulating the plasminogen-
plasmin
system in ewes' milk. Plasmin activity, detected with the colorimetric assay was consistent with proteolytic activity on sodium caseinate shown in urea-PAGE electrophoregram.
...
PMID:Proteolytic patterns and plasmin activity in ewes' milk as affected by somatic cell count and stage of lactation. 1574 35
Heat-induced inactivation of bovine
plasmin
, denaturation of beta-lactoglobulin (beta-lg), the interactions between both species and casein micelles and the subsequent net effect on proteolysis of
beta-casein
was studied in a model system consisting of phosphocasein and beta-lg in synthetic milk ultrafiltrate. The inactivation of
plasmin
and denaturation of beta-lg were first order reactions, with the rate of inactivation of
plasmin
being greater than the rate of denaturation of beta-lg. The predominant mechanism involved in the denaturation of
plasmin
in the temperature range 65-80 degrees C was its interaction with beta-lg (kr at 60 degrees C, 0.0526; Ea, 176 KJ/mol). At the point of complete inactivation of
plasmin
approximately 45% of the beta-lg remained undenatured. Thermal inactivation of
plasmin
through other mechanisms was negligible. The association of beta-lg with the casein micelles at 60 degrees C had a rate constant of 3.71 x 10-5 min-1 and an Ea of 259 KJ/mol; thermal denaturation of beta-lg was of much less importance, with a rate constant at 60 degrees C of the order of 1 x 10-10 min-1 and an Ea of 250 KJ/mol. On denaturation of all beta-lg in the system, a maximum of approximately 55% was associated with the casein micelles. The effect of heating on the subsequent hydrolysis of
beta-casein
indicated that the level of
plasmin
activity was the most important factor affecting proteolysis, while the interaction of beta-lg with the casein micelles had limited effect. Overall, thermal stability of
plasmin
in milk is very much dependent upon its interaction with beta-lg.
...
PMID:Kinetics of changes in plasmin activity and proteolysis on heating milk. 1622 67
Five different milk proteins (alpha-
casein, beta
-casein, kappa-
casein, beta
-lactoglobulin, and lactoferrin) and a peptide substrate were applied as substrates for the investigation of how lactosylation affected proteolysis by different proteases. After a lactosylation period of 4 days in aqueous solution, at 65 degrees C and pH 6.8 in a protein: lactose ratio of 1000 the proteins were enzymatically hydrolyzed by the three milk relevant proteases
plasmin
, cathepsin D, and chymosin. Lactosylation of all substrates affected hydrolysis by
plasmin
negatively, with the largest effect on the globular proteins. This could be explained by modification of lysine residues, being the preferred cleavage site for
plasmin
, but also the residue generally preferred for lactosylation. Lactosylation of the caseins and of beta-lactoglobulin did not affect subsequent cleavage by cathepsin D and chymosin significantly, but for beta-lactoglobulin, both the secondary as well as the tertiary structure were affected by lactosylation. In contrast, decreased hydrolysis by cathepsin D and chymosin was observed for lactoferrin after lactosylation. Decreased hydrolysis may be caused by a more compact tertiary structure induced by lactosylation of lactoferrin, as indicated by fluorescence spectroscopy measurements.
...
PMID:Proteolysis of milk proteins lactosylated in model systems. 1735 84
The somatic cell count (SCC) in milk is associated with increasing proteolytic degradation of caseins and it has been suggested that enzymes derived from somatic cells contribute to a lower yield and poorer quality of cheese. It is essential to increase the knowledge on naturally occurring milk proteinase activities to better understand how to improve the technological quality of milk. The aim of this work was to identify peptides actually present in milk as a result of proteolysis at different levels of SCC and to assign these peptides to potential responsible proteases where possible. Peptide fractions were prepared from acid whey by ultrafiltration at a molecular cut-off value of 10 000 Da. The peptides were separated using capillary reversed phase high performance liquid chromatography (RP-HPLC) and identified by matrix-assisted laser desorption/ionization-time of flight tandem mass spectrometry (MALDI-TOF MS/MS). Peptides identified ranged in mass from 1023 to 2000 Da, and originated from alphaS1-, alphaS2- or
beta-casein
. Possible responsible proteases that could be suggested when examining the peptide cleavage sites included
plasmin
, cathepsin B, D and leukocyte elastase. The results indicated that
plasmin
was primarily responsible for the observed proteolysis in milk at low cell count, whereas the cathepsins and elastase became implicated at elevated cell count. Specificity and activity of cathepsins and elastase has earlier mainly been studied in model systems, whereas less is known about their activities in milk itself. This is also the first indication of involvement of elastase in milk proteolysis through the unequivocal determination of cleavage sites.
...
PMID:Identification of peptides in milk as a result of proteolysis at different levels of somatic cell counts using LC MALDI MS/MS detection. 1822 1
The main peptides produced by hydrolysis of water buffalo
beta-casein
with
plasmin
were characterized by capillary electrophoresis and mass spectrometry and compared with their bovine homologous. A novel breakdown product arising from the hydrolysis of water buffalo
beta-casein
, originated by the presence of a
plasmin
-sensitive Lys bond at position 68 was identified, which was not present in bovine
beta-casein
. On the basis of this evidence, an improved procedure for the detection and the differentiation of the products of
plasmin
hydrolysis of bovine and water buffalo
beta-casein
by capillary isoelectric focusing was set-up. In the experimental conditions, the gamma-casein from the two species was efficiently separated. Comparison of the capillary electropherograms with those obtained by ultra-thin-layer isoelectric focusing, the reference method for routine analysis of
plasmin
digests of casein, suggests that capillary electrophoresis isoelectric focusing may constitute a successful alternative to the traditional slab gel electrophoresis analysis of
plasmin
digests of casein either for basic structural studies or for applications in the quality assessment of dairy products.
...
PMID:Peptidomic approach based on combined capillary isoelectric focusing and mass spectrometry for the characterization of the plasmin primary products from bovine and water buffalo beta-casein. 1840 Feb 24
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