Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
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Drug
Enzyme
Compound
Query: EC:3.1.26.9 (
ribonuclease
)
6,589
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
RNA was extracted from the pancreatic islets of channel catfish in the presence of the
ribonuclease
inhibitor, diethyl pyrocarbonate (oxydiformate). High molecular weight RNA was observed on sucrose gradient analysis. enrichment of mRNA was achieved by oligo(2'-deoxythymidylic acid)-cellulose affinity chromatography. The mRNA fraction stimulated incorporation of [35S]methionine into protein up to 30-times the background in the wheat-germ cell-free system. Analysis by sodium dodecyl sulphate-polyacrylamide gel electrophoresis revealed two major proteins corresponding to molecular weights of 27 000 and 11 000. These proteins were not observed in the absence of mRNA or in the presence of mRNAs from other tissues. They were also synthesized in the ascites tumour cell-free system. No protein co-migrating with
proinsulin
or insulin was detected in either the ascites or wheat-germ cell-free systems. Pancreatic islet slices also synthesized the proteins of 27 000 and 11 000 molecular weight and smaller ones as well.
...
PMID:Isolation of a biologically active messenger RNA: preparation from fish pancreatic islets by oligo(2'-deoxythymidylic acid) affinity chromatography. 78 80
Interactions of several proteins with glutathione-insulin transhydrogenase (GIT) have been investigated by determining their ability to inhibit degradation of 125I-labeled insulin catalyzed by GIT. The inhibition by every insulin analog (des-Asn-des-Ala-pork insulin, desoctapeptide-pork insulin, des-Ala-pork insulin, pork insulin,
proinsulin
, and guinea pig insulin) was competitive vs. competitive vs. insulin indicating that they function as alternate substrates. The insulin analogs with the least hormonal activity showed the highest potency as inhigitors of insulin degradation. Whereas native
ribonuclease
and lysozyme showed little or no inhibition, their scrambled forms (i.e. reduced and randomly reoxidized) showed competitive inhibition with a potency greater than that of insulin. These results suggest that the conformation of the substrate or inhibitor is probably the major factor in determining the specificity for (or binding to) the enzyme. Studies withother peptide hormones showed competitive inhibition with vasopressin and oxytocin and noncompetitive inhibition with glycagon. The inhibition with growth hormone could be either competitive or noncompetitive. The inhibition by glucagon and growth hormone (physiologic antagonists of insulin) could serve as a control mechanism to modulate the activity of enzyme. The following showed very little or no inhibition; the native and scrambled form of pepsinogen, trypsin inhibitor of beef pancreas and of lima bean, C-peptide of pork
proinsulin
, and heptapeptide (B23-B29) of insulin.
...
PMID:Interaction of insulin analogs, glucagon, growth hormone, vasopressin, oxytocin, and scrambled forms of ribonuclease and lysozyme with glytathione-insulin transhydrogenase (thiol: protein-disulfide oxidoreductase): dependence upon conformation. 117 Aug 77
Although the formation of native disulfide bonds of a protein from randomly linked disulfides by protein disulfide isomerase has been extensively studied, the possibility of simultaneous formation of the native proteins from a mixture has not been examined. It is shown in this paper that native
ribonuclease
and
proinsulin
can be nearly quantitatively formed by protein disulfide isomerase from a mixture of their S-sulfonated derivatives independent of the presence of each other.
...
PMID:Simultaneous formation of native ribonuclease and proinsulin from their mixed S-sulfonated derivatives by protein disulfide isomerase. 148 88
Mice and rats express two nonidentical insulins from a pair of unlinked genes. We have applied a nuclease protection assay, which can sensitively quantify each of the mouse insulin mRNAs, to the resolution of the following questions concerning their expression. First, it has not been established whether alterations in expression of one or both of these genes cause differing total insulin biosynthetic capacity noted between several inbred mouse strains. These studies showed that the relative abundance of mRNAs encoding mouse insulins I and II was identical in four separate mouse strains. In spontaneously obese, hyperinsulinemic (db/db)C57BL/KsJ mice, both
proinsulin
I and
proinsulin
II mRNAs were increased relative to the levels in normal (+/db) C57BL/KsJ mice, but again the ratio of the two mRNAs did not differ. The ratio was nearly identical to that for the orthologous mRNAs in rats, indicating that the mechanisms which regulate insulin mRNAs in rodents are conserved in both genes in several mouse strains and between rodent species. This finding suggests that differences between mouse strains in insulin biosynthetic capacity result from differences in the glucose sensing/signalling mechanism at a point before coordinate gene transcription. Second, low levels of insulin synthesis have been suggested as an explanation for relatively high levels of insulin in several nonpancreatic tissues. We showed that the
ribonuclease
protection assay, sufficiently sensitive to measure 1/2000th the amount of insulin mRNA present in pancreas, was unable to detect insulin mRNA in salivary gland. This result indicates that the high levels of radioimmunoassayable insulin detected in salivary glands are not the result of insulin synthesis in situ.
...
PMID:Proinsulin I and II gene expression in inbred mouse strains. 260 62
A method is described for separation of polyribosomes from as few as 25 isolated Islets of Langerhans, representing about 250 mug of pancreatic tissue. Islets are labeled with [(3)H]leucine and polysomes are isolated with liver polyribosomes, which serve as carrier and inhibitor of
ribonuclease
activity. Islets incubated at 37 degrees C for 45 min in 15.5 mM glucose, then pulsed with [(3)H]leucine, incorporated about 2-3 times more label into nascent peptides on islet polysomes than islets incubated in 2.8 mM glucose. Sucrose gradient analysis of the labeled polysomes indicated that raising the glucose concentration preferentially stimulated synthesis of peptides on trisomes and larger polyribosomes. Islets incubated with [(3)H]leucine for 15 min incorporated two-thirds of the label into proteins on membrane-bound polysomes. At least 85% of the
proinsulin
synthesis during this time occurs on membrane-bound polysomes.
...
PMID:Insulin biosynthesis: studies of Islet polyribosomes (nascent peptides-sucrose gradient analysis-gel filtration). 455 Nov 47
Previous studies have shown that a neutral metallo-endopeptidase purified from rat kidney degrades the B chain of insulin, glucagon, ACTH and, at a markedly slower rate, the A chain of insulin. In contrast the enzyme does not attack native insulin, oxytocin, vasopressin,
ribonuclease
, albumin or denatured hemoglobin. The current studies demonstrate that the neutral peptidase also degrades the isolated C-peptide of
proinsulin
and cleaves certain peptide bonds in and near the C-peptide moiety of native
proinsulin
. Time courses of the formation of fluorescamine-reactive material during digestion of
proinsulin
and isolated C-peptide with the peptidase were identical. However, structural analysis of the peptidase-digested
proinsulin
showed that the enzyme does not convert
proinsulin
to insulin but that the peptidase cleaves one bond, Tyr26-Thr27, in the B chain moiety and five bonds in the C-peptide moiety, producing four split proinsulins. One of the split proinsulins is des-octacosa-peptide (27-54) porcine
proinsulin
or des-tetracosapeptide (27-50) bovine
proinsulin
. Each is a derivative of the insulin molecule having an extension of nine residues (ten residues in the case of the derivative from bovine
proinsulin
) at the N-terminus of A chain and lacking four residues at the C-terminus of B chain. This two chain derivative retains full immunoreactivity with insulin antibodies and exhibits 2.4-times more biological activity (promotion of glycogenesis in primary cultured hepatocytes) than
proinsulin
and about two-thirds the activity of insulin.
...
PMID:Degradation of proinsulin and isolated C-peptide by rat kidney neutral metallo-endopeptidase. 702 23
