Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:6.4.1.1 (pyruvate carboxylase)
 1,516 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Peroxidase-conjugated avidin was used to detect biotin-containing carboxylases in rat liver. By a transblot method, avidin-peroxidase interacted with liver proteins with estimated molecular masses of 120 and 74 kDa. The proteins were identified as pyruvate carboxylase (120 kDa, 6.4 pI) and methylcrotonyl-CoA carboxylase (74 kDa, 7.2 pI) by two-dimensional gel electrophoresis and transblot method. An additional band with estimated molecular mass of 220 kDa was detected in the cytosol fraction of rat liver, compatible with acetyl-CoA carboxylase. Rat liver proteins were prepared and treated with avidin and analyzed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis and transblot with avidin-peroxidase. A 190-kDa band was found with a parallel decrease in the 120-kDa band determined by Coomassie blue staining; however, these proteins did not stain by the transblot avidin-peroxidase method. When the transblot of parallel proteins was incubated with biotin and subsequently with avidin-peroxidase, two additional bands, namely 190 and 145 kDa, were detected while the 74-kDa band disappeared correlated with decreased staining of the 120-kDa band. The present procedure is a simple, rapid, and inexpensive method for detecting biotin-containing proteins in various tissues and organs and in determining the occurrence of nonspecific staining with the avidin-biotin complex method of immunoblot.
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PMID:Transblot identification of biotin-containing proteins in rat liver. 274 54

Peroxidase-conjugated avidin was used to detect the endogenous avidin-binding proteins in rat tissues. By a transblot method, avidin-peroxidase interacted with proteins of mitochondrial fractions of rat liver with estimated molecular weights of 120,000 and 74,000. The proteins were identified as pyruvate carboxylase (120 kDa, pI 6.4) and methylcrotonyl-CoA carboxylase (74 kDa, pI 7.2) by two-dimensional gel electrophoresis and transblot method. The estimated molecular weight of an additional band (220,000) detected in the cytosolic fraction of rat liver was consistent with acetyl-CoA carboxylase. Intense staining also occurred with kidney, heart, ovary and adipose tissue, moderate with large and small intestine, cerebrum and cerebellum, and very faint with testis, lung and spleen. The sections of rat liver embedded in LR white were incubated with avidin-colloidal gold conjugate and examined under an electron microscope. The glutaraldehyde-perfused rat liver blocks were also incubated with streptavidin-ferritin conjugate and the ultrathin sections were cut and examined. The majority of gold and ferritin particles were found in the mitochondria of liver cells. No other cellular compartment was labeled except the cytosol which accounted for approximately 20% of the total labeling of the hepatocytes. The present procedure is a simple, rapid and inexpensive method for detecting the intracellular localization of endogenous avidin-binding proteins in the cells.
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PMID:Detection of endogenous avidin-binding proteins in rat liver cells by transblot and electron microscopy. 825 80

Human Ishikawa endometrial cells form domes when confluent monolayers are stimulated with fresh fetal bovine serum. Extensive structural and biochemical changes have been detected during the approximately 30 h differentiation period. The earliest detectable change involves the formation of multinucleated structures and the appearance of "granules" that stain for biotin within those structures. Nuclei become associated with each other and are ultimately enclosed within a biotin-containing membrane. Aggregated membrane-sheathed nuclei and the cells containing them begin to elevate from the dish as biotin staining becomes apparent in apical membranes. The elevated structures are called predomes and consist of one or more very large cells containing the sheathed nuclei. Apical membranes of these unusual cells extend far out into the medium in structures that resemble endometrial pinopods. A lumen under the elevated cells fills with transcytosed fluid. As differentiation proceeds, highly concentrated chromatin material that was flattened against apical and lateral membranes of the predome cells begins to disperse. Small mononuclear cells evolve from larger predome cells. Apical membranes of predome and dome cells continue to stain for biotin. Gel electrophoresis of SDS-solubilized biotin-containing membranes, followed by Western blot analysis using avidin-linked peroxidase, resulted in three stained bands with molecular weights similar to those of the mitochondrial carboxylases: propionyl carboxylase, methylmalonyl carboxylase, and pyruvate carboxylase.
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PMID:Role of biotin-containing membranes and nuclear distribution in differentiating human endometrial cells. 983 Oct 77

The evolution of pyruvate carboxylase has been studied in rat liver and kidney during perinatal development. The pyruvate carboxylase activity, amount of enzyme and mRNA levels have been assayed from 2 days before delivery to weaning. In liver, there is a peak of activity and amount of enzyme 24 h before delivery and 2 peaks, at 12 h and 6 days, after parturition. The transcription of the enzyme gene followed a similar pattern, with mRNA peaks preceding those of activity and amount of enzyme. However, in kidney, pyruvate carboxylase activity, amount and mRNA remain low until weaning. These results confirm the limited role of renal gluconeogenesis during the perinatal development. Since all carboxylases contain biotin as prosthetic group, the biotinylation of pyruvate carboxylase during the perinatal period was investigated by western-blot using streptavidin-biotin peroxidase. In the mitochondrial samples from liver and kidney, all the pyruvate carboxylase detected was fully biotinylated, indicating an early development of the holocarboxylase synthetase activity in the perinatal period. This Western-blot technique also allowed us the detection of other biotin-enzymes based on their molecular weight. In liver, during the perinatal development propionyl-coA and 3-methyl-crotonyl-coA carboxylases followed a pattern of induction similar to pyruvate carboxylase. In kidney, the expression of mitochondrial carboxylases was lower compared to liver and propionyl-coA carboxylase was not detected during the studied period.
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PMID:Evolution of pyruvate carboxylase and other biotin containing enzymes in developing rat liver and kidney. 1056 90

Production and utilization of nanoparticles (NPs) are increasing due to their positive and stimulating effects on biological systems. Silver (Ag) NPs improve seed germination, photosynthetic efficiency, plant growth, and antimicrobial activities. In this study, the effects of chemo-blended Ag NPs on wheat were investigated using the gel-free/label-free proteomic technique. Morphological analysis revealed that chemo-blended Ag NPs resulted in the increase of shoot length, shoot fresh weight, root length, and root fresh weight. Proteomic analysis indicated that proteins related to photosynthesis and protein synthesis were increased, while glycolysis, signaling, and cell wall related proteins were decreased. Proteins related to redox and mitochondrial electron transport chain were also decreased. Glycolysis associated proteins such as glyceraldehyde-3-phosphate dehydrogenase increased as well as decreased, while phosphoenol pyruvate carboxylase was decreased. Antioxidant enzyme activities such as superoxide dismutase, catalase, and peroxidase were promoted in response to the chemo-blended Ag NPs. These results suggested that chemo-blended Ag NPs promoted plant growth and development through regulation of energy metabolism by suppression of glycolysis. Number of grains/spike, 100-grains weight, and yield of wheat were stimulated with chemo-blended Ag NPs. Morphological study of next generational wheat plants depicted normal growth, and no toxic effects were observed. Therefore, morphological, proteomic, yield, and next generation results revealed that chemo-blended Ag NPs may promote plant growth and development through alteration in plant metabolism.
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PMID:Proteomic Analysis of the Effect of Inorganic and Organic Chemicals on Silver Nanoparticles in Wheat. 3076 65