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Enzyme
Compound
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Target Concepts:
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Query: EC:3.4.21.4 (
trypsin
)
42,187
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
To investigate the amino acid sequence of apocytochrome c recognized by yeast mitochondrial cytochrome c synthetase, a labeled apofragment containing residues 1 to 25 of horse cytochrome c, N alpha-[3H]acetyl-(1-25), and an analog containing glycine in place of cysteines 14 and 17, N alpha-[3H]acetyl-[14-Gly, 17-Gly] (1-25), have been synthesized using the Merrifield's improved solid phase method (
Mitchell
, A. R., Ericksen , B. W., Ryabtsev , M. N., Hodges , R. S., and Merrifield, R. B. (1976) J. Am. Chem. Soc. 98, 7357-7362) and then purified to homogeneity. Upon incubation with yeast mitochondria in the presence of hemin, a radioactive species, produced from N alpha-[3H]acetyl-(1-25) and not from N alpha-acetyl-[14-Gly, 17-Gly] (1-25), formed a complex with native apofragment (23-104). This semisynthetic complex was indistinguishable from the native complex in resistance to
trypsin
upon reduction with ascorbate and by ion-exchange chromatography. The radioactive species, dissociated from the complex was identical with native heme fragment N alpha-acetyl-(1-25)H by reverse-phase high pressure liquid chromatography. Treatment of this radioactive heme fragment with silver sulfate and then with dithiothreitol generated the original apofragment . Thus, if it is assumed that the mitochondrial enzyme catalyzing this covalent attachment of heme to synthetic apo-N alpha-[3H]acetyl-(1-25) is a cytochrome c synthetase, the results may be interpreted as indicating that the amino acid sequence of residues 1 to 25 of horse cytochrome c would contain the principal recognition site of the enzyme.
...
PMID:Synthesis of a heme fragment of horse cytochrome c which forms a productive complex with a native apofragment. 632 63
Plasmodium knowlesi merozoites were prepared by the polycarbonate sieving method of Dennis,
Mitchell
, Butcher & Cohen (1975). Merozoite function was assayed by their attachment to and invasion of rhesus erythrocytes at 37 degrees C. The early merozoites from the culture chamber were the most invasive, although maximum numbers of merozoites appeared later. Merozoites were most stable when incubated at room temperature (23 degrees C). At 37 and 0 degrees C invasiveness rapidly declined to zero. Attachment was rapidly lost at 37 degrees C but was retained at 0 degrees C. Attachment was unchanged in the pH range 6.8--7.9 but invasion was reduced at pH 7.9. The presence of L-fucose, D-galactose, D-glucose, D-mannose, N-acetyl-D-galactosamine or N-acetyl-D-glucosamine did not reduce invasion. Attachment and invasion were greatly reduced or abolished by the presence of 2.5 mM EDTA or EGTA, by lactoperoxidase-catalysed iodination of the merozoites, or by treatment of the merozoites with
trypsin
at a concentration of 1 micrograms/ml or greater for 10 min at 23 degrees C.
...
PMID:Factors affecting the ability of isolated Plasmodium knowlesi merozoites to attach to and invade erythrocytes. 677 38
Mutant forms of Escherichia coli succinyl-CoA synthetase, W76F (Trp beta 76 replaced by Phe) (Nishimura, J. S., Mann, C. J., Ybarra, J.,
Mitchell
, T., and Horowitz, P. M. (1990) Biochemistry 29, 862-865), and W43,76,248F (all three Trp replaced by Phe) were found to be more sensitive to proteolysis by clostripain than the wild-type enzyme or other Trp mutant proteins. Like wild-type enzyme, sensitivity to
trypsin
was apparent when the enzyme forms were in the dephosphorylated state. Sensitivity to clostripain was the same, whether mutant or wild-type forms were in the phosphorylated or dephosphorylated state. The substrates ADP and ATP both protected the enzymes against inactivation by clostripain, with dissociation constants for protection of W76F of 33 and 125 microM, respectively. Polyacrylamide gel electrophoresis of clostripain digests revealed preferential digestion of the beta-subunit and the appearance of 40- and 31-kDa species, with amino termini corresponding to residues 15 and 81, respectively, of the beta-subunit. Mutagenic replacement of Arg beta 80, but not Arg beta 14, with Lys resulted in an enzyme that was as resistant to clostripain as wild-type enzyme. These results suggest that Arg beta 80 is the principal site of inactivation by clostripain and may be involved in the binding of ADP and ATP to succinyl-CoA synthetase.
...
PMID:Sensitivity of Escherichia coli succinyl-CoA mutants at Trp beta 76 to clostripain and to trypsin. ADP and ATP protect against cleavage by clostripain at Arg beta 80. 851 3
Mayor, Heather D. (Baylor University College of Medicine, Houston, Tex.), Richard M. Jamison, Liane E. Jordan, and M. Van
Mitchell
. Reoviruses. II. Structure and composition of the virion. J. Bacteriol. 89:1548-1556. 1965.-Reovirus type 1 has been grown in green monkey kidney cells and harvested 24 hr after infection ("early" virus) and 96 hr after infection ("late" virus). A number of biological parameters have been determined on purified preparations of both "early" and "late" harvests of reovirus. There were no significant differences in values obtained for the molecular weight, RNA content, and buoyant density of virions prepared from early or late harvests. The size of the capsids and their morphology were also identical. Late harvests of reovirus were particularly rich in empty viral capsids (density, 1.28 in cesium chloride), and a significant number of empty inner capsid shells were routinely found. These shells could be prepared readily by controlled digestion of complete virus particles with
trypsin
. The inner shell appears to be composed of subunits packed with icosahedral symmetry to form a 45-mmu foundation on which the outer 92-subunit capsid is assembled. The inner shell is somewhat reminiscent in size and morphology of the capsid of papovaviruses. The fact that it can exist as a discrete entity has prompted us to propose some modifications to the current models for the reovirus capsid.
...
PMID:REOVIRUSES. II. STRUCTURE AND COMPOSITION OF THE VIRION. 1429 95
Freezing of chloroplast membranes uncouples photophosphorylation from electron transport and inactivates the light-dependent and thiol-requiring ATPase, conformational changes and the light-dependent proton uptake. All of these energy requiring activities can be protected against inactivation by addition of sucrose prior to freezing. The direct relation to photophosphorylation is demonstrated by the quantitatively similar response of photophosphorylation and the other activities to sucrose protection. Salts interfere with the protection afforded by sucrose.In contrast to the light-dependent ATPase, the ATPase activities which are unmasked by digestion with
trypsin
show no significant response to freezing. Similarly, the chloroplast coupling factor, which is released from the membranes by ethylenediamine tetraacetic acid treatment, survives freezing. The membranes, which are depleted of the factor, are damaged by freezing.The results suggest that uncoupling of phosphorylation from electron transport is caused by interference of freezing with a structure involved in the formation of a non-phosphorylated high energy state of chloroplasts. They are best explained on the basis of
Mitchell
's theory of phosphorylation. Since freezing alters the permeability properties of chloroplast membranes-frozen membrane vesicles no longer function as osmometers-it may be assumed that freezing uncouples phosphorylation from electron transport by preventing the formation of a pH gradient across the vesicle membranes owing to proton leakage through the membranes. From the results, the basic injury caused by freezing appears to consist in the alteration of permeability properties of biological membranes due to the dehydration which accompanies freezing.
...
PMID:Freezing injury and uncoupling of phosphorylation from electron transport in chloroplasts. 1665 61
Of the 15 perennial species of the subgenus Glycine Willd., G. tomentella Hayata is unique in that it has four cytotypes (2n = 38, 40, 78, and 80) and a wide range of geographical distributions. The objective of this study was to uncover the genomic diversity among accessions of aneudiploid (2n = 38) and diploid (2n = 40) G. tomentella based on crossability rate, hybrid seed and seedling viability, meiotic chromosome pairing of F1 hybrids, and seed protein and protease inhibitor profiles. Aneudiploid and diploid G. tomentella accessions were divided into two (D1 and D2) and three [D3(A,B,C), D4, and D5] groups, respectively, based on previous isozyme studies. Crossability rate, intergenomic hybrid viability, degree of chromosome pairing, total seed protein profiles, and
trypsin
and chymotrypsin inhibitor banding patterns confirmed the isozyme grouping with minor disagreements. A consistent variation was not observed among the aneudiploid accessions in any method of analysis used in this study. Similarly, cytogenetic analysis and the total seed protein profiles did not show dissimilarity among the accessions from Papua New Guinea (PNG; the D3 group) and north of
Mitchell
River in Northern Queensland [N.Qld(n)]. However,
trypsin
and chymotrypsin inhibitor analysis revealed that the PNG accessions were distinctly different from N.Qld(n) accessions. The D4 and D5 group accessions were clearly distinguishable by both cytogenetic and biochemical methods. Thus, this study indicates the presence of four genomic groups among G. tomentella (2n = 38, 40) accessions, including the aneudiploids D1 and D2 in one group and diploids in three groups (D3, D4, and D5). These findings will be useful in further genome analysis and add to our present understanding of the biosystematics of the genus Glycine.
...
PMID:Genomic diversity in aneudiploid (2n = 38) and diploid (2n = 40) Glycine tomentella revealed by cytogenetic and biochemical methods. 1846 97
