「ARGININE」の共起表現一覧(1語左で並び替え)
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| orm of the conditionally-essential amino acid | arginine bound to an ethyl ester. |
| iosynthetically generated from the amino acid | arginine and the sugar glyceraldehyde 3-phosphate. |
| , it is a methyl derivative of the amino acid | arginine. |
| and the frequency of the original amino acid ( | arginine) in known sequences. |
| ne is formed from parts of three amino acids: | arginine (Arg), glycine (Gly), and methionine (Met). |
| 1 agonist, and will thus have affects at all | Arginine vasopressin receptor 1As. |
| In enzymology, an | arginine racemase (EC 5.1.1.9) |
| In enzymology, an | arginine deiminase (EC 3.5.3.6) is an enzyme that cata |
| Protegrin-5 substitutes a proline for an | arginine with one less positive charge. |
| In enzymology, an | arginine 2-monooxygenase (EC 1.13.12.1) is an enzyme t |
| er by only one amino acid at position 108; an | arginine in Thy-1.1 and a glutamine in Thy-1.2. |
| ceptors containing α4 and α6 subunits with an | arginine instead of a histidine residue. |
| editing sites result in the translation of an | Arginine instead of a Glutamine at the Q/R site and an |
| as R-SNAREs, so named for the presence of an | arginine at a specific location within the primary seq |
| yroglutamate, also known as pirglutargine and | arginine pidolate, is the L-arginine salt of pyrogluta |
| zyme participates in glutamate metabolism and | arginine and proline metabolism. |
| However, methylation of some lysine and | arginine residues of histones results in transcription |
| h histidine, glutamate, aspartate, lysine and | arginine. |
| Both the aspartic acid and | arginine active site residues are highly conserved amo |
| enzyme participates in lysine degradation and | arginine and proline metabolism. |
| hylation of lysine 4 of histone 3 (H3K4), and | arginine (R) residues on H3 and H4. |
| e to amine groups present on their lysine and | arginine amino acids. |
| pentose and glucuronate interconversions, and | arginine and proline metabolism. |
| charged molecules as they contain lysine and | arginine in larger quantities and DNA is neatively cha |
| s to substitute positively-charged lysine and | arginine residues to neutral alanines. |
| iable number of positively charged lysine and | arginine residues on either side of the core sequence. |
| e cation-anion interaction between lysine and | arginine residues of the enzyme and phosphate groups o |
| Examples of guanidines are | arginine, triazabicyclodecene and saxitoxin. |
| consists of 18 amino acids, six of which are | arginine residues, forms two antiparallel β-sheets wit |
| entially acts upon basic amino acids, such as | arginine and lysine. |
| ne dinucleotide (NAD+) onto acceptors such as | arginine, glutamic acid, or aspartic acid. |
| In human antithrombin this bond is between | arginine (arg) 393 and serine (ser) 394 (see Figure 2 |
| Bifunctional | arginine demethylase and lysyl-hydroxylase JMJD6 is an |
| peptidase N that remove the carboxyl-terminal | arginine to generate C3adesArg. |
| ism (SNP) in ADH1B is rs1229984, that changes | arginine to histidine at residue 47. |
| The S4 helix contains a positively charged | arginine or lysine amino acid residue at every 3rd pos |
| own as OPC-41061, is a selective, competitive | arginine vasopressin receptor 2 antagonist used to tre |
| protein) is formed between a highly conserved | arginine residue (from the v-set domain to the 3'-sial |
| d aspartic acid and use it as a precursor for | arginine in the urea cycle or citrulline-NO cycle. |
| The synthetases specific for | arginine, cysteine, glutamic acid, glutamine, isoleuci |
| from | arginine via nitric oxide synthase (NOS) |
| xide, a short-lived messenger, is formed from | arginine. |
| ia two different pathways, both starting from | arginine. |
| some 15, results in an amino acid change from | arginine to tryptophan. |
| roduced and activities of urease, haemolysis, | arginine dihydrolase, arginine arylamidase, ornithine |
| romyces cerevisiae with mutations that impair | arginine biosynthesis. |
| This enzyme participates in | arginine and proline metabolism. |
| This enzyme participates in | arginine and proline metabolism and aminoacyl-trna bio |
| being the replacement of a methylene group in | arginine with an oxa group (i.e., an oxygen atom) in c |
| rs of creating synthesis involving defects in | arginine: glycine amidinotransference and guanidinoace |
| Other names in common use include | arginine monooxygenase, arginine decarboxylase, argini |
| Other names in common use include | arginine dihydrolase, citrulline iminase, and L-argini |
| Other names in common use include | arginine transferase, arginyl-transfer ribonucleate-pr |
| The systematic name of this enzyme class is | arginine racemase. |
| Likewise | arginine, ornithine, and citrulline, which are interco |
| The pathways linking | arginine, glutamine, and proline are bidirectional. |
| This makes | arginine and related amino acids useful in treating in |
| ays: purine metabolism, glutamate metabolism, | arginine and proline metabolism, and nitrogen metaboli |
| formed by the two terminals contains multiple | arginine and lysine residues that coordinate the three |
| is stabilized in its anionic form by a nearby | arginine residue. |
| The guanidine group of | arginine residues condense with MDA to give 2-aminopyr |
| le for the first step in the incorporation of | arginine into proteins). |
| t in bacteria and plants for the synthesis of | arginine, because it is part of this pathway. |
| gy-enhancing attributes from a combination of | Arginine and Caffeine from Green Tea and guarana seed |
| aves proteins on the carboxyl peptide bond of | arginine. |
| Deficiency of | arginine and ornithine restricts the function of the u |
| itors will maintain normal cellular levels of | arginine, thus allowing for normal muscle relaxation a |
| ding at the N-terminals and at side-chains of | arginine and lysine residues in hemoglobin. |
| The ability of | arginine to stimulate the pancreatic and pituitary axi |
| Arginase, which catalyses the conversion of | arginine to urea and ornithine, is one of the five mem |
| ue, (iii) the N-terminal residue is lysine or | arginine, or (iv) the structure of the peptide or prot |
| In one pathway, | arginine is converted into agmatine, with a reaction c |
| Protein | arginine N-methyltransferase-4 (PRMT4/CARM1) methylati |
| onucleoprotein D1, ITGA2B, SNRPD3 and Protein | arginine methyltransferase 5. |
| For example, an 18% probability of replacing | arginine with lysine (in the substitution matrix) is t |
| This then condenses with the | arginine side chain to yield glucosepane in nucleophil |
| ntrast to one histidine, two lysine and three | arginine residues) is partially compensated for by two |
| It is a component of tidiacic | arginine. |
| ie Brilliant Blue turns blue when it binds to | arginine and aromatic amino acids present in protein. |
| ey, AVPR2's primary property is to respond to | arginine vasopressin by stimulating mechanisms that co |
| The degron is a fusion protein of ubiquitin, | arginine, and DHFR. |
| e reactions are reversible; for example, when | arginine is modified, the ADP-ribosylarginine produced |
| lysine residue at position 12 of α-PMTX with | arginine results in β-PMTX. |
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