「GLUTAMINE」の共起表現一覧(1語右で並び替え)
該当件数 : 60件
| glutamine amide-2-oxoglutarate aminotransferase (oxido | |
| The | glutamine analog DON has also been seen to act as an i |
| High levels of plasma | glutamine and glycine are observed. |
| The pathways linking arginine, | glutamine, and proline are bidirectional. |
| h the biosynthetic pathway of the amino acid | glutamine and with ammonia detoxification. |
| th the formation of carbamoyl phosphate from | glutamine and CO2. |
| Asparagine, | glutamine and lysine are proteinaceous diamino acids w |
| This enzyme manufactures glutamate from | glutamine and α-ketoglutarate, and thus along with glu |
| , it is not reused directly but converted to | glutamine and stored in vesicles. |
| ARES of the target membrane, which contain a | glutamine and are so named Q-SNARES). |
| uce cravings for alcohol, including choline, | glutamine, and vitamin C. As research shows glucose in |
| is synthesized from fructose 6-phosphate and | glutamine as the first step of the hexosamine biosynth |
| -nitrogen bonds carbon-nitrogen ligases with | glutamine as amido-N-donor. |
| nium nitrate in the media, use of nitrate or | glutamine as the sole nitrogen source and decreasing t |
| the translation of an Arginine instead of a | Glutamine at the Q/R site and an Alanine instead of a |
| Glutamine binding active site with Cys269 and His353 r | |
| The polar nature of | glutamine causes interactions with other proteins when |
| amine-binding riboswitches, i.e., they sense | glutamine concentrations in order to measure overall n |
| of certain osmolytes like Inositol, Betaine, | Glutamine etc. |
| Two amino acids, asparagine and | glutamine, have a carboxamide group in them. |
| amido-ligase, and Ado-cobyric acid synthase [ | glutamine hydrolyzing]. |
| t position 108; an arginine in Thy-1.1 and a | glutamine in Thy-1.2. |
| cific for arginine, cysteine, glutamic acid, | glutamine, isoleucine, leucine, methionine, tyrosine, |
| Due to its similarity to | glutamine it can enter catalytic centres of these enzy |
| In enzymology, a | glutamine N-acyltransferase (EC 2.3.1.68) |
| In enzymology, a | glutamine N-phenylacetyltransferase (EC 2.3.1.14) |
| points of entry of NH4+ into metabolism are | glutamine or glutamate. |
| Glutamine oxoglutarate aminotransferase (also known as | |
| Other names in common use include | glutamine phenylacetyltransferase, and phenylacetyl-Co |
| A third reason for a hangover is a | glutamine rebound. |
| isomerase, suggesting a mechanism where the | glutamine residue polarizes the double bond of IPP and |
| his adds an alkyl group to the nitrogen on a | glutamine residue, which binds in turn with a lysine o |
| histidine residues, an aspartate residue, a | glutamine residue, and two water molecules in the abse |
| N-terminal | glutamine residues can spontaneously cyclize to become |
| eins by the attachment of serotonin on their | glutamine residues. |
| Glutamine riboswitches bind glutamine to regulate gene | |
| Two classes of | glutamine riboswitches are known: the glnA RNA motif a |
| Other names in common use include | glutamine scyllo-inosose aminotransferase, L-glutamine |
| -peptide RNAs and glnA RNAs selectively bind | glutamine supports these hypotheses. |
| glutamine synthetase (PDB code: 2gls) | |
| ino acids through the sequential reaction of | glutamine synthetase (GS) and glutamate synthase (glut |
| s appear to be located upstream of predicted | glutamine synthetase genes. |
| asses are ammonium transporters, the enzymes | glutamine synthetase and glutamate synthase and PII pr |
| ept for tabtoxinine-β-lactam, which inhibits | glutamine synthetase) bind to PBP to have their effect |
| ates phosphinothricin, a potent inhibitor of | glutamine synthetase). |
| itrogen and the need for ammonia fixation by | glutamine synthetase. |
| um is assimilated into glutamate through the | glutamine synthetase/glutamate synthase pathway. |
| Phenylacetate conjugates with | glutamine to phenylacetylglutamine, that is eliminated |
| tive site for the binding and deamination of | glutamine to make ammonia and glutamate. |
| ree of adenylylation depends on the ratio of | glutamine to α-ketoglutarate: The higher this ratio th |
| talyze the transfer of the amido nitrogen of | glutamine to 2-oxoglutarate using pyridine nucleotides |
| Other names in common use include | glutamine transaminase K, and glutamine-phenylpyruvate |
| n use include cysteine conjugate beta-lyase, | glutamine transaminase K/cysteine conjugate beta-lyase |
| leate synthetase, glutamine-tRNA synthetase, | glutamine translase, glutamate-tRNA ligase, glutaminyl |
| se vesicles are released from Glia cells and | glutamine transported back into the presynaptic neuron |
| tein, each of these triplets gives rise to a | glutamine unit, resulting in a polyglutamine tract. |
| protein consisting of a sequence of several | glutamine units. |
| DON is used as inhibitor of different | glutamine utilizing enzymes. |
| One of the stimulants replenished is | glutamine, which prevents the brain from sleeping norm |
| in contrast to the proteinogenic amino acid | glutamine, which is the 5-amide of glutamic acid. |
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