Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0009443 (cold)
 92,137 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Metabolic adaptation of the ischemic human heart includes release of lactate, augmented uptake of glucose and glutamate, together with increased release of citrate and alanine. In the present study exchanges of these metabolites were examined in relation to left ventricular function (LVF) in pig hearts during reperfusion after hypothermic cardioplegic-induced global ischemia and storage. Three groups of pig hearts were studied. Group I consisted of 11 hearts subjected to 9 minutes of warm ischemia prior to cold chemical cardioplegia with Bretschneider's cardioplegic solution (CCC), and hypothermic storage (HS), for a total of 180 minutes. Groups II and III, 8 hearts in each, were subjected to 90 and 180 minutes of CCC and HS, without precardioplegic warm ischemia. All hearts were reperfused in an isolated blood-perfused Langendorff model. Myocardial oxygen uptake and LVF were two-fold depressed in Group I compared to Groups II and III during the first 25 minutes of reperfusion. An increased uptake of glucose (p < 0.05) and augmented release of lactate (p < 0.01) and citrate (p < 0.001) were found during the reperfusion period in the hearts subjected to precardioplegic warm ischemia, indicating an increased total ischemic burden compared to Groups II and III. No significant changes in LVF or myocardial metabolism were noted between Groups II and III during reperfusion. In all three heart groups a substantial release or loss of glutamate was found at start of reperfusion, although in the preischemic state prior to cardioplegia pig hearts were found to extract glutamate from the circulation to an extent similar to that of the human heart.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Myocardial loss of glutamate after cold chemical cardioplegia and storage in isolated blood-perfused pig hearts. 810 47

Lactobacillus brevis takes up lactose and the nonmetabolizable lactose analogue thiomethyl beta-galactoside (TMG) by a permease-catalyzed lactose/H+ symport mechanism. Earlier studies have shown that TMG, previously accumulated in L. brevis cells, rapidly effluxes from the cells upon addition of glucose, and that glucose inhibits further uptake of TMG. We have developed a vesicular system to analyze this regulatory mechanism and have used electroporation to shock proteins and membrane-impermeant metabolites into the vesicles. Uptake of TMG was dependent on an energy source, effectively provided by intravesicular ATP or extravesicular arginine. TMG uptake into these vesicles was not inhibited, and preaccumulated TMG did not efflux from them upon addition of glucose. Intravesicular but not extravesicular wild-type phosphocarrier protein HPr of Bacillus subtilis restored regulation. Glucose could be replaced by intravesicular (but not extravesicular) fructose 1,6-bisphosphate, gluconate 6-phosphate, or 2-phosphoglycerate, but not by other phosphorylated metabolites, in agreement with the allosteric activating effects of these compounds on HPr(Ser) kinase measured in vitro. Intravesicular serine-46-->alanine mutant HPr cold not promote regulation of lactose permease activity when electroporated into the vesicles with or without glucose or the various phosphorylated metabolites, but the serine-46-->aspartate mutant HPr promoted regulation, even in the absence of glucose or a metabolite. HPr(Ser-P) appears to convert the lactose/H+ symporter into a sugar uniporter. These results establish that HPr serine phosphorylation by the ATP-dependent metabolite-activated HPr kinase regulates lactose permease activity in L. brevis. A direct allosteric mechanism is proposed.
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PMID:ATP-dependent phosphorylation of serine-46 in the phosphocarrier protein HPr regulates lactose/H+ symport in Lactobacillus brevis. 815 11

A systematic strategy was used to create a synoptic set of mutations that are distributed throughout the single beta-tubulin gene of Saccharomyces cerevisiae. Clusters of charged amino acids were targeted for mutagenesis and converted to alanine to maximize alterations on the protein's surface and minimize alterations that affect protein folding. Of the 55 mutations we constructed, three confer dominant-lethality, 11 confer recessive-lethality, 10 confer cold-sensitivity, one confers heat-sensitivity, and 27 confer altered resistance to benomyl. Only 11 alleles give no discernible phenotype. In spite of the fact that beta-tubulin is a highly conserved protein, three-fourths of the mutations do not destroy the ability of the protein to support the growth of yeast at 30 degrees C. The lethal substitutions are primarily located in three regions of the protein and presumably identify domains most critical for beta-tubulin function. Interestingly, most of the conditional-lethal alleles produce specific defects in spindle assembly at their restrictive temperature; cytoplasmic microtubules are relatively unaffected. The exceptions are two mutants that contain abnormally long cytoplasmic microtubules. Mutants with specific spindle defects were not observed in our previous collection of beta-tubulin mutants and should be valuable in dissecting spindle function.
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PMID:Systematic mutational analysis of the yeast beta-tubulin gene. 818 63

Glycine has been shown to protect renal tubule cells and hepatocytes from ischemia, ATP depletion, and cold storage injury. Glycine may be a useful additive to organ preservation solutions or suppress reperfusion injury by infusion into recipients of liver transplantation. In this study, the effects of glycine on survival and postoperative liver injury were studied in the rat and dog orthotopic transplant model. Rat livers preserved for 30 hr in the University of Wisconsin (UW) solution were 50% viable (3 of 6 survivors for 7 days). When glutathione was replaced by 10 mM glycine, survival increased to 100% (6 of 6). There was a significant reduction in hepatocellular injury at the end of preservation (lactate dehydrogenase [LDH] in the pretransplant flush-out of the liver was lower in the glycine group) and after transplantation (serum LDH concentration 6 hr after transplant was lower in the glycine group). In the dog, omission of glutathione from the UW solution resulted in 33% survival (48-hr preservation model) versus 100% survival with glutathione. Replacing glutathione in the UW solution by glycine did not improve survival (33% after 48 hr of preservation). However, when glycine was given to recipients of livers preserved in the UW solution for 24 or 48 hr, there was a decrease in the degree of hepatocellular injury. After 48 hr of preservation, peak aspartate aminotransferase, alanine aminotransferase, and LDH were reduced by about 45-55% when glycine was given to the recipient. Although the differences, with and without glycine treatment of the recipients, did not reach statistical significance, there was a noticeable reduction in hepatocellular injury with glycine. There was 100% survival of dogs in the groups that received livers preserved with the UW solution plus or minus glycine infusion. Hepatamine, a parenteral nutrition solution containing glycine and other amino acids increased hepatocellular injury (higher concentrations of aspartate aminotransferase, alanine transferase, and LDH versus control 48-hr preserved livers), although all dogs survived. This study shows that glycine is cytoprotective when administered to recipients of livers preserved for 24 or 48 hr and suppresses hepatocellular injury, as reflected in a reduction in the concentration of serum enzymes. However, the differences, with and without glycine, were, at best, marginal and further studies are needed to determine whether glycine would make a significant improvement in liver preservation and prevent primary nonfunction.
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PMID:Effect of glycine in dog and rat liver transplantation. 821 99

We report here the identification and characterization of a new leaf-specific light-stimulated gene induced during cold acclimation of wheat. Sequence analysis revealed that the gene encodes a protein of 19 kDa with a pI of 8.8. This is a novel protein with a particular charge distribution. The C-terminal half has a high propensity to form an alpha-helix and contains all the acidic amino acids with a net negative charge of -7. On the other hand, the N-terminal half is rich in proline, lysine and arginine with a net positive charge of +10. These properties are commonly found in several transcription factors. The protein is also rich in alanine (21%), is hydrophilic but not boiling soluble in contrast to other alanine-rich proteins. During low temperature exposure, the corresponding mRNA accumulates rapidly in the leaf and remains at a constant level in two tolerant cultivars used. However, in a less tolerant cultivar, the mRNA level declines despite maintaining the plants at 4 degrees C. Southern blot analysis indicates that the differential expression in the less tolerant genotype is not due to a different genomic organization or gene copy number. The mRNA was specifically localized in leaf tissues and increased several-fold during the greening at 4 degrees C. Furthermore, this gene is not induced in callus cultures acclimated in the absence or presence of light. This suggests that the full expression of this gene is dependent on organized leaf tissue. The expression of this gene was not affected by ABA, drought, heat shock, salinity, wounding or anaerobiosis, demonstrating that it is specifically induced by low temperature. The Wcs19 mRNA is preferentially expressed in tolerant Gramineae species.
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PMID:A leaf-specific gene stimulated by light during wheat acclimation to low temperature. 821 63

Expression of fish antifreeze protein (AFP) genes in plants is a possible means of increasing their frost resistance and freeze tolerance. Initial work involved transfer into tobacco of an AFP gene from winter flounder which codes for the alanine-rich, alpha-helical Type I AFP. Plants were transformed with a gene construct in which the preproAFP cDNA was inserted between the cauliflower mosaic virus 19S RNA promoter and the nopaline synthetase polyadenylation site. Although transgenic plants produced AFP mRNA, no AFP was detected on western blots. Re-evaluation of AFP expression in these transgenic plants showed that AFP accumulated to detectable levels only after exposure of the plant to cold. Extracts of plants incubated at 4 degrees C for 24 h contained a protein which co-migrated with winter flounder proAFP and was cross-reactive to Type I AFP antisera. Two other minor protein bands of slightly higher apparent M(r) also cross-reacted with the antisera and are thought to represent processing intermediates. The proAFP was unique to the transgenic plants and was absent in extracts taken prior to cold exposure. AFP levels increased over the first 48 h of cold incubation then remained stable. Since the alpha-helix content of Type I AFP has been shown to decrease markedly at warmer temperatures, we postulate that Type I AFP stability in transgenic plants is dependent on its secondary structure.
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PMID:Accumulation of type I fish antifreeze protein in transgenic tobacco is cold-specific. 821 71

The rate of gluconeogenesis from lactate increased in perfused livers after exposure of rats to cold for 5 days, and it returned to the control rate after 20 days [M. Shiota, T. Tanaka, and T. Sugano. Am. J. Physiol. 249 (Endocrinol. Metab. 12): E281-E286, 1985.]. The relationship between the increased gluconeogenic activity and its zonal distribution in liver lobules was studied in cold-exposed rats that had been starved for 24 h by examination of preparations enriched for periportal hepatocytes (PP-H) and for perivenous hepatocytes (PV-H), which had been isolated by the digitonin-collagenase perfusion technique. In the control group, the rate of gluconeogenesis from lactate or alanine was three times higher in PP-H than in PV-H. The rate of gluconeogenesis from these substrates in PP-H was not changed by exposure of rats to cold. The rates of PV-H increased to the level in PP-H after 5 days of exposure of rats to cold and then returned to the control rates after 20 days. The rate of gluconeogenesis from fructose was not altered in either preparation of cells by cold treatment of rats. The change in gluconeogenic capacity in PV-H caused by exposure of rats to cold was unrelated to changes in the activity of the malate-aspartate shuttle and of pyruvate kinase. The increased capacity in mitochondrial respiration was observed in both preparations of cells by cold treatment of rats for 5 days. The activity of phosphoenolpyruvate carboxykinase was higher in PP-H than in PV-H in the control group.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Adaptive changes in zonation for gluconeogenic capacity in liver lobules of cold-exposed rats. 823 30

The sequence (Gly-X-X-X-X-Gly-Lys-Thr/Ser) is conserved in nucleotide binding proteins including the alpha and beta subunits of the ATP synthase. Various mutations were introduced in the alpha Lys-175 and alpha Thr-176 residues in the sequence (Gly-Asp-Arg-Gln-Thr-Gly-Lys-Thr, residues 169-176) of the Escherichia coli ATP synthase alpha subunit. Surprisingly, single amino acid substitutions drastically affected the subunit assembly of the enzyme. The entire enzyme assembly was lost by alpha Lys-175-->Phe (or Trp) or alpha Thr-176-->Phe (or Tyr) mutation. Other mutants had similar (alpha His-175, alpha Ser-175, alpha Gly-175, alpha Ser-176, and alpha His-176 mutants) or lower (alpha Ala-176, alpha Cys-176, alpha Leu-176, and alpha Val-176 mutants) effects on assembly of the active enzyme compared with that of the wild-type. However, all these mutant enzymes except the alpha Ser-176 enzyme showed enhanced cold sensitivities and reduced stabilities at high temperature. Mutant enzymes such as alpha Gly-175 and alpha His-176 showed low multi-site (steady state) catalysis, possibly due to loss of proper subunit-subunit interactions. These results suggest that the alpha Lys-175 and alpha Thr-176 residues are not absolutely essential for catalysis, but that they, or possibly the entire conserved sequence, are located in the key domain for the subunit-subunit interactions essential for enzyme stability and steady state activity.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:The alpha subunit of ATP synthase (F0F1): the Lys-175 and Thr-176 residues in the conserved sequence (Gly-X-X-X-X-Gly-Lys-Thr/Ser) are located in the domain required for stable subunit-subunit interaction. 826 95

Two cold-passaged mutant vaccine viruses (cp12 and cp45) derived from the JS wild-type (wt) strain of human parainfluenza virus type 3 (PIV3) have been sequenced. These mutant viruses display the cold-adapted (ca), temperature-sensitive (ts), and attenuation (att) phenotypes. Sequence data indicate that both cp12 and cp45 sustained nucleotide substitutions during cold passage and subsequent cloning. Fifteen nucleotide changes were present in cp12 and 18 in cp45. Of these changes, some were present in the sequence of the prototype wt strain (Wash/47885/57) or were non-coding changes present in the open reading frames (ORFs). These were considered unlikely to be of significance in contributing to phenotypic differences between the mutants and the JS wt. There were nine remaining changes in cp12 and eight in cp45 that would most likely contribute to their phenotypes. For cp12, two were non-coding changes in regulatory regions, one in the 3' genome leader and one in the NP gene transcription start signal. The remaining seven changes resulted in amino acid substitutions in NP, F, HN, and L. For cp45, two mutations were in a non-coding regulatory region, the 3' genome leader. The remaining six changes resulted in amino acid substitutions in F, HN, and L. Only one amino acid substitution was conserved between cp12 and cp45 (a valine to alanine change at position 384 of the HN gene). These results should prove useful in the future in understanding the genetic basis of attenuation of the cold-passaged PIV3 candidate vaccine viruses.
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PMID:The complete nucleotide sequence of two cold-adapted, temperature-sensitive attenuated mutant vaccine viruses (cp12 and cp45) derived from the JS strain of human parainfluenza virus type 3 (PIV3). 826 19

The PET54, PET122, and PET494 proteins, which are associated with the yeast inner mitochondrial membrane, specifically activate translation of the mitochondrially encoded COX3 mRNA. We used the two-hybrid system to test whether pairs of these proteins, when fused to either the GAL4 DNA-binding or transcriptional activating domain, can physically associate as measured by the expression of the GAL4-dependent reporter, lacZ. PET54 and PET122 interacted in this system, and an amino-terminally truncated PET494 fragment showed an interaction with PET54. We also detected functional interactions between PET54 and PET122 genetically: a pet54 missense substitution (Phe to Gly at position 244) that caused a severe respiratory defect was suppressed both by a missense substitution affecting PET122 (Gly to Val at position 211) and by overproduction of wild-type PET122. Both Gly and Ala, substituted at PET54 position 244, disrupted the two-hybrid interactions with PET122 and PET494. While Ala at PET54 position 244 caused only a modest respiratory phenotype alone, it caused a severe respiratory defect when combined with a cold-sensitive mitochondrial mutation affecting the COX3 mRNA 5' leader. This synthetic defect was suppressed by a missense substitution in PET122 and by overproduction of wild-type PET122, indicating functional interactions among PET54, PET122, and the mRNA. Taken together with previous work, these data suggest that a complex containing PET54, PET122, and PET494 mediates the interaction of the COX3 mRNA with mitochondrial ribosomes at the surface of the inner membrane.
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PMID:Interactions among three proteins that specifically activate translation of the mitochondrial COX3 mRNA in Saccharomyces cerevisiae. 828 85


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