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91.
M Tanokura  K Yamada 《FEBS letters》1984,171(2):165-168
The morula and the mesenchyme blastula nuclei contained approx. 30 nuclear proteins which were preferentially released by limited digestion with DNase I, but no proteins were released from sperm nuclei. While most of the proteins released by DNase I digestion were common to the two embryonic stages, 2 and 6 proteins were specific or enriched in morulae and mesenchyme blastulae, respectively.  相似文献   
92.
93.
A metabolite of 25-hydroxycholecalciferol has been isolated in pure form from chicken kidney homogenates. It has been identified as 25-hydroxy-24-oxocholecalciferol by means of ultraviolet absorption spectrophotometry, mass spectrometry, infrared spectrometry, nuclear magnetic resonance spectrometry, and specific chemical reactions.  相似文献   
94.
Isolation of an actin-binding fragment of fibronectin.   总被引:4,自引:1,他引:3       下载免费PDF全文
We have identified a specific actin-binding site in the adhesive glycoprotein fibronectin, isolated from chicken fibroblasts. Affinity chromatography of fragments, released from fibronectin by limited proteolysis with trypsin, chymotrypsin and subtilisin, on actin-Sepharose and other protein-Sepharose columns was used to locate the binding site. A 27 000-mol.wt. subtilisin-digest fragment bound efficiently to actin. The results suggest that the actin-binding site is close to, but not identical with, the reported collagen-binding site.  相似文献   
95.
Disseminated intravascular coagulation (DIC) was induced in both normal and asplenic rhesus monkeys by intravenous challenge with Streptococcus pneumoniae. Our observations in the infected monkeys have led us to conclude that (1) pneumococcal capsular polysaccharide (PCP), immune complexes and complement may not have primary roles in the initiation of DIC; (2) intact pneumococci may be catalysts for the development of DIC; (3) the initial event in DIC may be activation of Hageman factor; and (4) evidence of activation of Hageman factor-dependent systems is present regardless of severity of infection.  相似文献   
96.
K Olden  K M Yamada 《Cell》1977,11(4):957-969
The major cell surface glycoprotein of cultured chick embryo fibroblasts (CSP, a LETS protein) is substantially decreased after neoplastic transformation. We investigated the regulation of this glycoprotein by determining the kinetics of CSP biosynthesis, transit to the cell surface, and degradation before and after transformation by Rous sarcoma virus. CSP synthesis, as measured by immunoprecipitation after pulse-labeling with 14C-leucine, is decreased 3–6 fold after transformation by the Bryan high titer, Schmidt-Ruppin and temperature-sensitive ts68 and T5 strains of Rous sarcoma virus. Steady state quantities of CSP in intracellular pools are also decreased 4–5 fold after transformation. However, the rate at which newly synthesized CSP is processed and exported to the cell surface is similar before and after transformation.Degradation and release of CSP from cells were measured after labeling for 24 hr. The half-life of CSP on normal cells is 36 hr and is decreased to 16–26 hr after transformation. The absolute amount of intact CSP released into the culture medium is decreased 3 fold after transformation; these amounts, however, represent losses of approximately 20 and 40% of the total CSP synthesized by normal and transformed cells, respectively. These results indicate that the major mechanism for the decrease in CSP after transformation is reduction in its biosynthesis, although increased degradation and loss from the cell surface also contribute significantly. These changes can account for the observed 5–6 fold decreases in cell-associated CSP after transformation of chick embryo fibroblasts.  相似文献   
97.
J Pouysségur  K M Yamada 《Cell》1978,13(1):139-140
We have isolated and immunochemically characterized a major membrane glycoprotein of mouse 3T3 cells. This GRP (glucose/glycosylation-regulated protein) is labeled by lactoperoxidase-mediated iodination and by 14C-glucosamine, binds concanavalin A and has an apparent molecular weight in SDS-polyacrylamide gels of 92,000 daltons (or 97,000 daltons in a discontinuous gel system). Glycosylated GRP was isolated from plasma membranes using Triton X-100 extraction, affinity chromatography on concanavalin A-Sepharose and preparative SDS gel electrophoresis.Antibody against this glycosylated GRP stains the external surfaces of mouse cells and induces patches and caps. Immunofluorescence and immunoprecipitation studies indicate that this glycoprotein can exist in the membrane in two molecular forms, either as a glycosylated or as a nonglycosylated protein. The nonglycosylated form is induced under conditions of limited glycosylation or glucose deprivation. This nonglycosylated GRP remains accessible to antibodies on the exterior of cells, but becomes inaccessible to lactoperoxidase.The immunoprecipitation of the 92K GRP with its specific antibody is always associated with the precipitation of a small fraction of the other major GRP of molecular weight 75,000 daltons. We suggest that both GRP (92K and 75K) may function in close association in the membrane.  相似文献   
98.
Somatostatin, insulin and glucagon concentrations in rat pancreas were measured following various intervals of food-deprivation. Tissue concentrations, as measured by radioimmunoassay, were correlated with A-, B-, and D-cell number and size using a scanning integrating image analyzer (Quantimet 720). Alterations in total islet hormone content were not correlated to changes in size or distribution of cells. This implies that changes in tissue content reflect changes in turnover of peptides rather than changes in cell size or number.  相似文献   
99.
As is the case with many other peptide hormones of the brain and intestine, the formation of biologically active gastrin from a glycine-extended processing intermediate occurs via the action of a peptidylglycyl alpha-amidating monooxygenase (PAM). The observation that gastrin exists primarily as unamidated precursors in the pituitary but as amidated gastrin in the antrum prompted this study to examine whether the amidating enzymes in the two organs were different in their characteristics. Amidating activity was quantified by measuring the conversion of glycine-extended tridecagastrin (G13-Gly) to amidated tridecagastrin and glycine-extended hexapancreatic polypeptide (PP6-Gly) to amidated hexapancreatic polypeptide by radio-immunoassay. Two molecular forms of amidating activity were identified in both the porcine antrum and pituitary. The first, PAM-A, had an apparent Mr of 51,000 and a net negative charge at pH 7.0, whereas PAM-B was smaller (Mr approximately 30,000) and had a net positive charge at pH 7.0. Both molecular forms were similar in their cofactor requirements (copper, ascorbic acid, and catalase) and pH optima in the antrum and pituitary. The Km was significantly lower and the Vmax higher for PP6-Gly than for G13-Gly in the pituitary and antrum. These data suggest that although there is no difference between antral and pituitary PAM, the selective affinity of PAM for certain substrates may provide a mechanism for the differential amidation of different hormones within a given tissue or cell.  相似文献   
100.
We found that rat cathepsin H showed strong transacylation activity under physiological conditions. It is a feature of cathepsin H to utilize amino acid amides not only as acyl-acceptors but also as acyl-donors in the reaction. The pH-dependence of the transacylation activity was distinct from those of other papain-superfamily proteases. The alkaline limb (pKapp = 7.5) could be regarded as the pKa of the alpha-amino group of the acyl-donor, which was also involved in the original amino-peptidase activity. The acidic limb (pKapp = 5.8) was suggested to be involved in the deacylation step, where amino acid amide attacked the acyl-intermediate as a nucleophile in place of water in the hydrolysis. Although the N alpha-deprotonated acyl-acceptor, which is supposed to govern the nucleophilic attack, has a small population in the acidic pH range (above pH5), the transacylation was detectable even at the acidic pH-range because of the high S1'-site binding ability and suitable nucleophilicity of the acyl-acceptor. In the transacylation between various amino acid amides, the S1 and S1' site appeared to prefer hydrophobic residues without and regardless of a branch at beta-carbon, respectively. From these results and the sequence homology in the papain superfamily, we concluded that the reaction was governed by the acyl-donor having a protonated amino group, the acyl-acceptor having a deprotonated amino group and the remarkable hydrophobic character (especially favoring tryptophan amide) of the S1' site, presumably reflecting the good conservation of Trp177 in papain-superfamily proteases.  相似文献   
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