「biosynthesis」の共起表現一覧(1語右で並び替え)
該当件数 : 277件
| in synthesis, and may inhibit ascorbic acid | biosynthesis, although studies on the latter are controv |
| ticipates in valine, leucine and isoleucine | biosynthesis and c5-branched dibasic acid metabolism. |
| s in phenylalanine, tyrosine and tryptophan | biosynthesis and two-component system - general. |
| This enzyme participates in bile acid | biosynthesis and c21-steroid hormone metabolism. |
| This enzyme participates in bile acid | biosynthesis and ppar signaling pathway. |
| This enzyme participates in monoterpenoid | biosynthesis and limonene and pinene degradation. |
| participates in polyunsaturated fatty acid | biosynthesis and ppar signaling pathway. |
| This enzyme participates in fatty acid | biosynthesis and insulin signaling pathway. |
| This enzyme participates in bile acid | biosynthesis and taurine and hypotaurine metabolism. |
| This enzyme participates in monoterpenoid | biosynthesis and the degradation of the terpenes limonen |
| he glycoside hydrolases are involved in the | biosynthesis and degradation of glycogen in the body. |
| acid metabolism, polyunsaturated fatty acid | biosynthesis, and ppar signaling pathway. |
| sozymes are present: one involved in purine | biosynthesis and the other in the purine nucleotide cycl |
| ring their occurrence, biological activity, | biosynthesis, and laboratory synthesis. |
| This enzyme participates in lysine | biosynthesis and peptidoglycan biosynthesis. |
| This enzyme participates in flavonoid | biosynthesis and isoflavonoid biosynthesis. |
| In particular, increased nuclear NAD+ | biosynthesis and consequent activation of SIRT1 has been |
| required by all living cells for nucleotide | biosynthesis and for the proper metabolic maintenance of |
| This enzyme participates in heparan sulfate | biosynthesis and glycan structures - biosynthesis 1. |
| ticipates in valine, leucine and isoleucine | biosynthesis and pantothenate and coa biosynthesis. |
| s in phenylalanine, tyrosine and tryptophan | biosynthesis and novobiocin biosynthesis. |
| f a variety of genes involved in pyrimidine | biosynthesis and transport. |
| s in phenylalanine, tyrosine and tryptophan | biosynthesis and aminoacyl-trna biosynthesis. |
| ticipates in valine, leucine and isoleucine | biosynthesis and aminoacyl-trna biosynthesis. |
| This enzyme participates in tetracycline | biosynthesis and biosynthesis of type ii polyketide prod |
| s enzyme participates in lipopolysaccharide | biosynthesis and glycan structures - biosynthesis 2. |
| enzyme participates in chondroitin sulfate | biosynthesis and glycan structures - biosynthesis 1. |
| This enzyme participates in n-glycan | biosynthesis and glycan structures - biosynthesis 1. |
| cipates in 2 metabolic pathways: ubiquinone | biosynthesis and biosynthesis of siderophore group. |
| ranscription of genes involved in aminoacid | biosynthesis and metabolisms involved in famine . |
| This enzyme participates in lysine | biosynthesis and pyruvate metabolism. |
| ng the first rate-limiting step of creatine | biosynthesis, and is primarily expressed in the kidneys |
| sters, and thereby play a key role in lipid | biosynthesis and fatty acid degradation. |
| that encode for flavin mononucleotide (FMN) | biosynthesis and transport proteins. |
| This enzyme participates in lysine | biosynthesis and lysine degradation. |
| This enzyme participates in streptomycin | biosynthesis and inositol phosphate metabolism. |
| Crassulacean Acid | Biosynthesis and Function of Plant Lipids, 1983 |
| nucleotide sugars metabolism, streptomycin | biosynthesis, and polyketide sugar unit biosynthesis. |
| olism, nitrogen metabolism, phenylpropanoid | biosynthesis, and alkaloid biosynthesis ii. |
| sociation with genes involved in nucleotide | biosynthesis and transport, including several independen |
| Mycothiol | biosynthesis and mycothiol-dependent enzymes such as myc |
| ism, phenylalanine, tyrosine and tryptophan | biosynthesis, and novobiocin biosynthesis. |
| degradation, valine, leucine and isoleucine | biosynthesis, and pantothenate and coa biosynthesis. |
| Alteration in sphingolipid | biosynthesis are reported, especially in lung, heart, ki |
| The biochemistry and its | biosynthesis are similar to those of choline and betaine |
| t into the cell from surrounding media) and | biosynthesis are also upregulated. |
| The genes involved in the | biosynthesis are called ectA, ectB and ectC and they enc |
| The prerequisites for | biosynthesis are precursor compounds, chemical energy (s |
| in, functioning both in bacterial cell wall | biosynthesis as well as in gyrase inhibition. |
| e interactions between DNA, RNA and protein | biosynthesis, as well as how these interactions are regu |
| ies and neolactoseries of glycosphingolipid | biosynthesis, as well as the biosynthesis of glycan stru |
| During | biosynthesis ascorbate acts as a reducing agent, donatin |
| y a minor role in the first step of insulin | biosynthesis, but a greater role in the first step of gl |
| wing DAG to be used for glycerophospholipid | biosynthesis but on receptor activation of the phosphoin |
| ere are a number of potential routes to its | biosynthesis, but the most well-characterized is by the |
| zyme that plays an important role in purine | biosynthesis, by catalysing the guanosine triphosphate ( |
| aromatase inhibitor that inhibits estrogen | biosynthesis by permanently binding and inactivating aro |
| ocuses on the mechanisms underlying protein | biosynthesis, by ribosomal crystallography, a research l |
| icipates in 3 metabolic pathways: bile acid | biosynthesis, c21-steroid hormone metabolism, and androg |
| ng enzyme in tetrahydrobiopterin (THB, BH4) | biosynthesis, catalyzing the conversion of GTP into 7,8- |
| Biosynthesis depends on the gene AT3, which resides at t | |
| prostaglandin synthesis and leukotriene B4 | biosynthesis, depsides are potent non-steroidal anti-inf |
| For example, protein | biosynthesis does not occur according to any law, and th |
| But in this case, the product is used in | biosynthesis, e.g. for the production of cysteine. |
| ifferent from those of mammalian fatty acid | biosynthesis enzymes. |
| t is an attractive target for combinatorial | biosynthesis for many reasons: second generation derivat |
| Six enzymes are required for its | biosynthesis from TDP-glucose in Streptomyces venezuelae |
| m tumefaciens, and other methionine and SAM | biosynthesis genes in other alpha-proteobacteria. Like t |
| stry (interdisciplinary), biochemistry with | biosynthesis, genetics, genomics, molecular biology, cel |
| rong negative regulatory effect on glycogen | biosynthesis, glyconeogenesis and glycogen catabolism an |
| es in 4 metabolic pathways: keratan sulfate | biosynthesis, glycosphingolipid biosynthesis - lactoseri |
| The Johnson | biosynthesis has since been validated as feasible using |
| Biosynthesis has been detected in Actinobacteria, such a | |
| In addition, kanosamine | biosynthesis has been directly implicated by Guo and Fro |
| Several studies of thiopeptide | biosynthesis have been contemporarily published in 2009 |
| ll or toxic intermediates formed in melanin | biosynthesis have been suggested to contribute to this p |
| This enzyme participates in alkaloid | biosynthesis i. |
| lism, beta-alanine metabolism, and alkaloid | biosynthesis ii. |
| trated to be intermediates in anthocyanidin | biosynthesis in flowers of Matthiola incana. |
| es are RNA structures that regulate protein | biosynthesis in response to purines. |
| Cycloheximide is an inhibitor of protein | biosynthesis in eukaryotic organisms, produced by the ba |
| It is used to inhibit protein | biosynthesis in its initial stages. |
| imides are believed to inhibit triglyceride | biosynthesis in sclerotia-forming fungi, including Botry |
| cerulenin specifically inhibited fatty acid | biosynthesis in Saccharomyces cerevisiae without having |
| Biosynthesis in transfer ribonucleic acid in vitro". | |
| in 1975 he began his training of others in | biosynthesis in his own, as well as other institutes in |
| ie in the areas of the mechanism of protein | biosynthesis, in the structure of cell membranes (especi |
| Commonly known complex products of | biosynthesis include proteins, vitamins, and antibiotics |
| re are five modules for cyclic pentapeptide | biosynthesis, including one that lacks an adenylation do |
| espite anisomycin's wide usage as a protein | biosynthesis inhibitor, there have been few studies cent |
| pates in 3 metabolic pathways: streptomycin | biosynthesis, inositol phosphate metabolism, and phospha |
| ative, non-mevalonate pathway of isoprenoid | biosynthesis instead, where it is formed from (E)-4-hydr |
| rrier protein from fatty acid or polyketide | biosynthesis into the active holo form through the post- |
| The first step of the | biosynthesis involves ribulose 5-phosphate and dihydroxy |
| the methythiolincosamide proposes that its | biosynthesis involves nucleotide activation followed by |
| rate-limiting enzyme in porphyrin and heme | biosynthesis is ALA synthase, the enzyme (EC 2.3.1.37) |
| xy-L-arginine (NOHA), an intermediate of NO | biosynthesis, is a moderate inhibitor of arginase. |
| Its | biosynthesis is performed by action of the enzyme phenyl |
| nzyme target for the control of cholesterol | biosynthesis is HMG-CoA reductase which is found in memb |
| The "committed step" for porphyrin | biosynthesis is the formation of D-aminolevulinic acid ( |
| The first intermediate in the | biosynthesis is cadaverine, the decarboxylation product |
| One notable product of cycloartenol | biosynthesis is the triterpenoid lanosterol. |
| the primary structure of proteins, protein | biosynthesis, is reasonably well understood, as is the m |
| tion of glutamate decarboxylase blocks GABA | biosynthesis, leading to lower levels of the neurotransm |
| genes of the Pyl operon mediate pyrrolysine | biosynthesis, leading to description of the operon as a |
| In 1969 Boadella began developing his | biosynthesis modality, which in its initial form had an |
| Further, secretion is not equivalent to | biosynthesis; most all tissues sequester ouabain from th |
| talyzes the committed step in peptidoglycan | biosynthesis, namely the ligation of phosphoenolpyruvate |
| s the first committed step in peptidoglycan | biosynthesis, namely the ligation of phosphoenolpyruvate |
| ism, phenylalanine, tyrosine and tryptophan | biosynthesis, novobiocin biosynthesis, and alkaloid bios |
| Pyrimidine | biosynthesis occurs both in the body and through organic |
| The figure below shows the proposed | biosynthesis of Psymberin based on analysis of the gene |
| ate iodine, and plays a central role in the | biosynthesis of thyroid hormones T3 and T4. |
| tion of amino acid phenylalanine and in the | biosynthesis of the neurotransmitters serotonin (5-hydro |
| acetate, acetyl-CoA is then used instead in | biosynthesis of ketone bodies via acetoacyl-CoA and β-hy |
| The last step in the | biosynthesis of penicillin G is the exchange of the side |
| e mechanism of enzymic reactions and of the | biosynthesis of natural products, in particular the pigm |
| nitric oxide synthase (NOS) enzymes in the | biosynthesis of the monoamine neurotransmitters serotoni |
| oline acetyltransferase responsible for the | biosynthesis of the important neurotransmitter acetylcho |
| However, it is a key intermediate in the | biosynthesis of the other phosphoglycerides. |
| The following is the proposed | biosynthesis of viomycin using NRPS-catalyzed peptide sy |
| cid has been identified as important in the | biosynthesis of nerve cell myelin. |
| ACC plays an important role in the | biosynthesis of the plant hormone ethylene. |
| is found in monooxygenases involved in the | biosynthesis of several antibiotics by Streptomyces spec |
| as well as acting as an intermediate in the | biosynthesis of androgens, estrogens, and corticoids. |
| This enzyme participates in the | biosynthesis of n-glycan and glycan structures. |
| nimal studies suggest that it also inhibits | biosynthesis of cholesterol in the liver. |
| The | biosynthesis of disaccharides, oligosaccharides and poly |
| vatives of pimelic acid are involved in the | biosynthesis of the amino acid called lysine. |
| s the byproduct of the amidation process in | biosynthesis of several amidated peptides. |
| n initiator for polyketide synthases in the | biosynthesis of ansamycins. |
| Tyrothricin inhibits protein | biosynthesis of gram-positive organisms, but is complete |
| sphoglycerate dehydrogenase involved in the | biosynthesis of serine. |
| gen III is an metabolic intermediate in the | biosynthesis of protoporphyrin. |
| toe-een) is a 40-carbon intermediate in the | biosynthesis of carotenoids. |
| al component of enzymes that facilitate the | biosynthesis of sphingolipids. |
| This enzyme participates in | biosynthesis of 12-, 14- and 16-membered macrolides. |
| Figure 3. | Biosynthesis of L-noviose component of novobiocin (ring |
| entify squalene oxide as a precursor in the | biosynthesis of cholesterol. |
| CRT is the gene cluster responsible for the | biosynthesis of carotenoids. |
| Biosynthesis of Amino Acids According to Soil Fertility, | |
| Some of genes involved in the | biosynthesis of bacillithiol were identified and charact |
| ranging from digestion of food to selective | biosynthesis of neuroendocrine peptides. |
| e is a diterpene hydrocarbon created by the | biosynthesis of enzyme extracts from rice. |
| The | biosynthesis of PHA is usually caused by certain deficie |
| 2-THF can also be used as a coenzyme in the | biosynthesis of thymidine. |
| ase is a transferase enzyme involved in the | biosynthesis of carotenoids. |
| hionine-beta-lyase is an enzyme used in the | biosynthesis of methionine. |
| ative feedback mechanism that regulates the | biosynthesis of tryptophan. |
| oxylase or DDC), an enzyme important in the | biosynthesis of L-tryptophan to serotonin and in the bio |
| The | biosynthesis of the carbohydrate antigen sialyl Lewis X |
| n addition, it serves as a precursor in the | biosynthesis of the aromatic amino acids tyrosine, pheny |
| In 2006, the | biosynthesis of geosmin by a bifunctional Streptomyces c |
| esized in the pineal gland & crucial to the | biosynthesis of dopamine |
| l persulfide in a manner reminiscent of the | biosynthesis of iron-sulfur proteins. |
| adenosylmethioninamine to putrescine in the | biosynthesis of spermidine. |
| This is fifth step in the | biosynthesis of aromatic amino acids from chorismate (th |
| he three types of Allatostatin inhibits the | biosynthesis of juvenile hormone. |
| reactions for metabolic purposes or for the | biosynthesis of sulfur compounds required for life. |
| It is an intermediate in the | biosynthesis of coniferyl alcohol, the conversion being |
| They function in the | biosynthesis of glycoprotein hormones lutropin and thyro |
| ne is also an important intermediary in the | biosynthesis of endocannabinoids by neurons in the brain |
| y in 1978, Bycroft and Gowland proposed the | biosynthesis of thiostrepton, which was still unclear un |
| shikimate pathway which is involved in the | biosynthesis of aromatic amino acids. |
| terpene cyclase enzyme responsible for the | biosynthesis of valencene, a sesquiterpene, using farnes |
| The | biosynthesis of the methythiolincosamide sugar moiety is |
| acid (α-acetolactate) is a precursor in the | biosynthesis of the branched chain amino acids valine an |
| Bisabolenes are intermediates in the | biosynthesis of many other natural chemical compounds, i |
| e pathway for the catabolism of Trp and the | biosynthesis of NAD cofactors from tryptophan (Trp). |
| The | biosynthesis of artemisinin is expected to involve the m |
| Biosynthesis of ferulic acid is by the action of the enz | |
| form prephenate, is an intermediate in the | biosynthesis of the aromatic amino acids phenylalanine a |
| Mechanistic | Biosynthesis of Sparteine |
| lular structure and as intermediates in the | biosynthesis of hormones and other biologically importan |
| Proposed | biosynthesis of emetine |
| Biosynthesis of cocaine | |
| reductase pathway used by organisms in the | biosynthesis of farnesyl pyrophosphate, geranylgeranyl p |
| See | biosynthesis of Emetine. |
| reductase pathway used by organisms in the | biosynthesis of terpenes and terpenoids. |
| Jensen's | biosynthesis of catalpol |
| Biosynthesis of (+)-Costunolide. | |
| Biosynthesis of ginkgotoxin | |
| Biosynthesis of Phophatidylserine | |
| This enzyme participates in | biosynthesis of steroids and terpenoid biosynthesis. |
| The | biosynthesis of lipid-linked oligosaccharides is highly |
| r day) causes facial flushes by stimulating | biosynthesis of prostaglandin D2, especially in the skin |
| e metabolism of archaea, particularly their | biosynthesis of coenzymes such as coenzyme M, tetrahydro |
| It is the first precursor in the | biosynthesis of other stanols and sterols, referred to a |
| s the body with its iodine required for the | biosynthesis of thyroxine (T4) and triiodothyronine (T3) |
| ed in prokaryotes, fungi and plants for the | biosynthesis of aromatic amino acids. |
| Battersby is known for his research on the | biosynthesis of the 'pigments of life' haem, chlorophyll |
| This enzyme participates in | biosynthesis of steroids. |
| The | biosynthesis of this compound starts with the formation |
| essive metabolic disorder that disrupts the | biosynthesis of cholesterol and isoprenoids. |
| cetylcholinesterase inhibitor, and inhibits | biosynthesis of dopamine via inhibition of the enzyme ty |
| In the Diels-Alder mechanism for the | biosynthesis of macrophomic acid (Scheme 3), oxaloacetat |
| The | biosynthesis of ring A (see Fig. 1) begins with prephena |
| reductase pathway used by organisms in the | biosynthesis of terpenes and terpenoids. |
| The | biosynthesis of the aliphatic monomers shares the same u |
| thase catalyzed activity is involved in the | biosynthesis of retrochalcone and certain phytoalexins i |
こんにちは ゲスト さん
ログイン |
Weblio会員(無料)になると
|
検索履歴を保存できる!
こんにちは ゲスト さん
|
ログイン |
Weblio会員(無料)になると
|
