Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.1.26.9 (ribonuclease)
 6,589 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Liver fatty acid binding protein (L-FABP) binds avidly the arachidonic acid metabolites, hydroperoxyeicosatetraenoic acids (HPETEs) and hydroxyeicosatetraenoic acids (HETEs). Binding of 15-[3H]HPETE was specific, saturable, reversible, and rapid. Protein specificity was indicated by the following order: L-FABP greater than bovine serum albumin greater than ovalbumin = beta-lactoglobulin greater than ribonuclease. Ligand specificity was evidenced by the following order of apparent competition: 15-HPETE greater than or equal to 5-HETE greater than or equal to 5-HPETE = oleic acid greater than 12-HETE greater than 12-HPETE greater than or equal to 15-HETE greater than prostaglandin E1 much greater than leukotriene C4 greater than prostaglandin E2 much greater than thromboxane B2 = leukotriene B4. Once bound, 15-HPETE was reversibly displaced. Ligand was recovered from the protein complex and confirmed to be 15-[3H]HPETE by TLC. L-FABP bound HPETE with a dissociation constant of 76 nM,5-HETE at 175 nM, and 15-HETE at 1.8 microM, and the reference fatty acids oleic acid at 1.2 microM and arachidonic acid at 1.7 microM. Thus, the affinity was approximately 16-fold greater for 15-HPETE, and 7-fold higher for 5-HETE, than for oleic acid. The need exists for studies of complexes of L-FABP with the HPETEs and HETEs in hepatocytes, especially since L-FABP has previously been associated with mitosis in normal hepatocytes, and shown to be the target protein of two liver carcinogens, and these arachidonic acid metabolites have been found to be able to modulate activities related to cell growth.
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PMID:Specific high affinity binding of lipoxygenase metabolites of arachidonic acid by liver fatty acid binding protein. 250 Jan 17

Peptide tyrosine tyrosine (PYY) is a gut hormone present in endocrine cells in the lower intestine that can be released by the presence of luminal free fatty acids (FFAs). The biological action of this peptide includes inhibition of gut motility and gastrointestinal and pancreatic secretions. Intestinal fatty acid-binding protein (I-FABP) binds FFA and may be involved in their cytosolic trafficking. Quantitative in situ hybridization on heterogeneous populations of small intestinal somatic cell hybrids selected for endogenous I-FABP expression (hBRIE 380i cells) demonstrated a 5-fold increase in I-FABP transcripts in response to PYY (within 6 h) that was confined to clusters of differentiated cells, whereas ribonuclease protection assays performed on heterogeneous populations of these cells showed no significant differences. High affinity PYY receptors, with an IC50 of 5-50 pM, were identified in both differentiated and nondifferentiated cell populations, as determined by competitive binding assays and autoradiography. In situ hybridization of rat ileal tissue also revealed differing patterns of mRNA expression for liver fatty acid-binding protein (L-FABP) and I-FABP. Only I-FABP mRNA was detected in the villus tips. This localization correlated with the expression pattern of I-FABP mRNA in the hBRIE 380i cells where changes in transcripts were observed only in differentiated cells that did not incorporate bromodeoxyuridine. The sustained expression of I-FABP transcripts in the villar tips suggests (unlike L-FABP) that older terminally differentiated cell populations of the mucosa can still be PYY responsive. These studies demonstrate that physiological concentrations of PYY can regulate I-FABP and place this peptide in a key position as part of a feedback system that determines the processing of cytosolic FFA in the enterocyte. In addition, these studies suggest a mechanism whereby luminal agents can modulate expression of proteins in terminally differentiated cells in the gastrointestinal mucosa.
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PMID:Evidence for a role of the gut hormone PYY in the regulation of intestinal fatty acid-binding protein transcripts in differentiated subpopulations of intestinal epithelial cell hybrids. 913 12

We describe the potential of microchip electrophoresis with a Hitachi SV1210, which can be used to evaluate the integrity of total RNA, for the analysis of mRNA expression. The ribonuclease (RNase) protection assay was performed by using microchip electrophoresis with cyanine 5 (Cy5) labeled 248-base antisense RNA probe (riboprobe) encoding adipose-type fatty acid binding protein (A-FABP) as the riboprobe. The fluorescence intensity corresponding to the protected RNA fragment increased in a dose-dependent manner with respect to the complementary strand RNA. Results were obtained in 120 s, and the same amount of Cy5-labeled antisense riboprobe as used in the conventional method can be used. Furthermore, 8 times more sensitive detection of mRNA by microchip electrophoresis could be obtained. An obvious increase in the mRNA expression of A-FABP, which is known as a differentiation marker of adipocytes, occurred during the adipocyte differentiation of 3T3-L1 cells. These results clearly indicate the potential of microchip electrophoresis for the analysis of mRNA expression in cells.
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PMID:Ribonuclease protection assay on microchip electrophoresis. 2150 98