Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.6.1.1 (aspartate aminotransferase)
 21,665 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

During differentiation of mouse 3T3-L1 fibroblasts to an adipocyte phenotype, the mitochondrial isoform of aspartate aminotransferase accumulates on the plasma membrane. The determination of whether this reflects translation of an alternatively spliced message lacking the mitochondrial leader sequence required cloning of the enzyme's uncommon a allele, for which these cells are homozygous. The 1.4-kb cDNA sequence of the a allele was obtained from oligo-dT-primed reverse-transcriptase PCR products amplified from FVB mouse RNA. It differed from the b allele at only 2 bp and one amino acid. By contrast, gene-specific primers generated an additional 1.4-kb fragment that differed from the b allele by approximately 1% of nucleotides, encoding four amino acid substitutions. This sequence proved to represent a recently diverged processed pseudogene. The presence of such pseudogenes can complicate interpretation of expressed-sequence-tag data and single-nucleotide-polymorphism genotyping studies. Using probes derived from the a allele, RNase protection analyses indicated that only a single message for the enzyme was present in 3T3-L1 fibroblasts and adipocytes, despite differences in subcellular protein distribution.
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PMID:Mitochondrial aspartate aminotransferase: direction of a single protein with two distinct functions to two subcellular sites does not require alternative splicing of the mRNA. 1064 97

Allatostatins are important regulatory neuropeptides which are widely distributed in invertebrates and execute their functions through either neural or humoral routes. However, the regulatory mechanism of the gene expression is unclear. In this paper, we report a naturally occurring antisense transcript, named as asMacro-AST A, of the crustacean FGLamide allatostatin gene (Macro-AST A) from the prawn, Macrobrachium rosenbergii. The asMacro-AST A contains an 843-bp sequence fully complementary to the 3' end of the Macro-AST A. To our knowledge, this is the first report of a natural antisense transcript in crustacean and the first endogenous antisense transcript of all identified allatostatin genes. Northern blotting analysis demonstrated that the gene was expressed in the thoracic ganglia where the sense gene was also expressed. Furthermore, we have detected a RNA-RNA duplex between the sense-antisense complementary region by using RNase protection analysis and RT-PCR. These results suggest that the antisense gene may play a role in the regulation of Macro-AST A gene expression.
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PMID:Naturally occurring antisense RNA of allatostatin gene in the prawn, Macrobrachium rosenbergii. 1705 61

Alfalfa (Medicago sativa, Siwa 1) seeds were subjected to drought stress during germination by using polyethylene glycol (PEG 4000) for studying the changes in some enzyme activities involved in nitrogen metabolism and the content of nitrogenous compounds during the first four days of growth after putrescine (Put) treatment. Decreasing the external water potential reduced activities of glutamate-pyruvate transferase (GPT), glutamate-oxaloacetate transferase (GOT) and RNase. Some free amino acids such as proline and glycine increased, while alanine and aspartic acid decreased. Nucleic acids content also decreased. Polyamines e.g., spermidine (Spd) and spermine (Spm) increased at the water potential -0.4 MPa. Put treatment increased activities of GOT, GPT and RNase. Furthermore, Put treatment increased nucleic acids content and the endogenous polyamines under drought stress. Drought stress was imposed during seedling stage by decreasing soil moisture content. GOT, GPT and RNase activities increased in leaves of alfalfa seedlings under drought stress. Soluble nitrogenous compounds accumulated under drought stress, while nucleic acids content decreased. Except glutamic acid, all free amino acids detected increased under drought stress. Put treatment decreased activities of GOT, GPT and RNase, as well as reduced the accumulation of the total soluble nitrogenous compounds, but increased DNA, RNA and protein contents.
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PMID:Alterations in nitrogen metabolites after putrescine treatment in alfalfa under drought stress. 1906 67

Legionella pneumophila is an aquatic bacterium that is also the agent of Legionnaires' disease pneumonia. Since L. pneumophila is transmitted directly from the environment to the lung, it is important to understand how legionellae survive at low temperatures. To identify genes that are needed for L. pneumophila growth at low temperature, we screened a population of mutagenized legionellae for strains that are specifically impaired for growth at 17 degrees C. From the 7,400 mutants tested, 11 displayed defects ranging from ca. 10-fold to a complete inability to grow at the low temperature. PCR and sequence analysis were then utilized to identify the genes whose loss had compromised growth. The proteins thereby implicated in low-temperature growth included components of the type II secretion system (LspE, LspG, LspH), a lipid A biosynthetic enzyme (LpxP), a ribonuclease (RNAse R), an RNA helicase (CsdA/DeaD), TCA cycle enzymes (citrate synthase), enzymes linked to fatty acid (FadB) or amino acid (aspartate aminotransferase) catabolism, and two putative membrane proteins that were, based upon their sequences, unlike previously characterized proteins. Given the magnitude of their mutant's defect, the aspartate aminotransferase, RNA helicase, and one of the putative membrane proteins were the factors most critical for L. pneumophila low-temperature growth. Thus, L. pneumophila not only employs some of the same processes and factors as other bacteria do in order to survive at low temperatures (e.g., LpxP, CsdA), but it also appears to possess novel modes of cold adaptation.
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PMID:Mediators of lipid A modification, RNA degradation, and central intermediary metabolism facilitate the growth of Legionella pneumophila at low temperatures. 1976 2

This brief review discusses our current understanding of the molecular basis of enzyme catalysis. A historical development is presented, beginning with steady state kinetics and progressing through modern fast reaction methods, nuclear magnetic resonance, and single-molecule fluorescence techniques. Experimental results are summarized for ribonuclease, aspartate aminotransferase, and especially dihydrofolate reductase (DHFR). Multiple intermediates, multiple conformations, and cooperative conformational changes are shown to be an essential part of virtually all enzyme mechanisms. In the case of DHFR, theoretical investigations have provided detailed information about the movement of atoms within the enzyme-substrate complex as the reaction proceeds along the collective reaction coordinate for hydride transfer. A general mechanism is presented for enzyme catalysis that includes multiple intermediates and a complex, multidimensional standard free energy surface. Protein flexibility, diverse protein conformations, and cooperative conformational changes are important features of this model.
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PMID:Flexibility, diversity, and cooperativity: pillars of enzyme catalysis. 2202 78

The serum and hepatic enzymes of rats were studied after exposed to country made liquor (CML) along with two chelating agents (glutathione and Selenium). There was a significant increase in several serum enzyme levels (viz., aspartate transaminase, alanine transaminase, alkaline phosphatase, sorbitol dehydrogenase, glutamate dehydrogenase, bilirubin) and decrease in various hepatic enzymes (Succinic dehydrogenase, Glucose 6-phosphatase, 5'Nucleotiease, Acid phosphatase, Acid ribonuclease, Cytochrome P-450) due to repeated administration of CML (2ml/100g of body weight). Results of this study revealed that the GSH and Se could give a significant protective action in serum and hepatic enzymes of CML exposed rats.
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PMID:Biochemical activity of selenium and glutathione on country made liquor (CML) induced hepatic damage in rats. 2310 62


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