scholarly article | Q13442814 |
P2093 | author name string | Sinha SK | |
Cossins EA | |||
P2860 | cites work | The biological formation of formate from methyl compounds in liver slices | Q75503491 |
Formation of formate and labile methyl groups from acetone in the intact rat | Q75603081 | ||
A COMPARISON OF (14C)GLYOXYLATE AND (14C)ACETATE METABOLISM IN GERMINATING FATTY SEEDS | Q76933512 | ||
OCCURRENCE AND PROPERTIES OF L-AMINOACID :2-GLYOXYLATE AMINOTRANSFERASE IN PLANTS | Q78483735 | ||
Studies on wheat plants using carbon-14 compounds. IX. Radioactivity of wheat following injection of formate-C14 and glycine-1-C14 with special reference to serine labelling | Q78589948 | ||
A new cofactor in the conversion of serine to glycine | Q78620236 | ||
Studies on the biosynthesis of serine | Q78691294 | ||
Distribution of C14 in sucrose from glycolate-C14 and serine-3-C14 metabolism | Q78938180 | ||
Formotion of serine and glyceric acid by the glycolate pathway | Q79058606 | ||
Metabolism of glycine by avian liver | Q79062291 | ||
Products of the oxidation of glycolic acid and L-lactic acid by enzymes from tobacco leaves | Q80619788 | ||
Carbon metabolism of C-labeled amino acids in wheat leaves. I. A pathway of glyoxylate-serine metabolism | Q83240012 | ||
Carbon Metabolism of C-Labeled Amino Acids in Wheat Leaves. II. Serine & its Role in Glycine Metabolism | Q83240214 | ||
Hydroxymethyl tetrahydrofolic dehydrogenase. | Q34241837 | ||
ENZYMATIC ASPECTS OF FOLIC ACID. | Q35436698 | ||
Intermediatry metabolism of Diplococcus glycinophilus. I. Glycine cleavage and one-carbon interconversions | Q37465849 | ||
The effect of cobalamin on the quantitative utilization of serine, glycine and formate for the synthesis of choline and methyl groups of methionine | Q39222151 | ||
The synthesis of serine and Leuconostoc citrovorum factor by cell suspensions of Streptococcus faecalis R. | Q39249419 | ||
The metabolism of [14C]glycine by plant tissues | Q42251087 | ||
The interconversion of serine and glycine: participation of pyridoxal phosphate | Q42702162 | ||
THE IMPORTANCE OF GLYOXYLATE IN AMINO ACID BIOSYNTHESIS IN PLANTS. | Q42944486 | ||
Serine–Glycine Interconversion in Plant Tissues | Q58946245 | ||
The utilization of carbon-1 compounds by plants. II. The formation and metabolism of formate by higher plant tissues | Q72579265 | ||
Studies of glycine oxidation in rat tissues | Q73091962 | ||
Conversion of uracil to thymine by strains of bacillus subtilis | Q73534936 | ||
The synthesis of methionine by cell-free extracts of Bacterium coli | Q73645041 | ||
Studies on the purification and properties of the serine-forming enzyme system | Q74091816 | ||
Studies on the mechanism of formaldehyde incorporation into serine | Q74610860 | ||
P433 | issue | 2 | |
P407 | language of work or name | English | Q1860 |
P304 | page(s) | 542-549 | |
P577 | publication date | 1966-11-01 | |
P1433 | published in | Biochemical Journal | Q864221 |
P1476 | title | The interconversion of glycine and serine by plant tissue extracts | |
P478 | volume | 101 |
Q84066760 | Amino acid uptake by temperate tree species characteristic of low- and high-fertility habitats |
Q37605092 | An Arabidopsis thaliana mutant defective in chloroplast dicarboxylate transport |
Q39530920 | Combined correlation-based network and mQTL analyses efficiently identified loci for branched-chain amino acid, serine to threonine, and proline metabolism in tomato seeds. |
Q42934280 | Compartmentation of terpenoid biosynthesis in green plants. A proposed route of acetyl-coenzyme A synthesis in maize chloroplasts |
Q57175228 | Control of Expression of One-carbon Metabolism Genes ofSaccharomyces cerevisiaeIs Mediated by a Tetrahydrofolate-responsive Protein Binding to a Glycine Regulatory Region Including a Core 5′-CTTCTT-3′ Motif |
Q44131907 | De Novo Purine Biosynthesis in Intact Cells of Cucurbita pepo |
Q83259975 | Effects of Glycolate Pathway Intermediates on Glycine Decarboxylation and Serine Synthesis in Pea (Pisum sativum L.). |
Q68518149 | Effects of glycine and serine on serine hydroxymethyltransferase levels in logarithmic cultures of Neurospora crassa Wild type and Ser-1-mutant |
Q42925841 | Glycine decarboxylase in Rhodopseudomonas spheroides and in rat liver mitochondria |
Q42874842 | Glycine metabolism in rat kidney cortex slices |
Q83242545 | Incorporation of methanol into pectic substance |
Q36311995 | Mechanism of acetate synthesis from CO2 by Clostridium acidiurici |
Q41855624 | Metabolism of methionine and biosynthesis of caffeine in the tea plant (Camellia sinensis L.) |
Q28363892 | Metabolism of methylamine in the tea plant (Thea sinensis L.) |
Q39237705 | Photosynthesis and Photorespiration in Typha latifolia |
Q83247857 | Photosynthesis in the Higher Plant, Vicia faba: III. Serine, a Precursor of the Tricarboxylic Acid Cycle |
Q39272837 | Production of L-serine by Sarcina albida |
Q83253274 | Properties and intramitochondrial localization of serine hydroxymethyltransferase in leaves of higher plants |
Q47936408 | Purification and regulatory properties of mung bean (vigna radiata L.) serine hydroxymethyltransferase |
Q53853222 | Rapid isolation of mesophyll cells from leaves of soybean for photosynthetic studies. |
Q47920413 | Serine Hydroxymethyltransferase from Mung Bean (Vigna radiata) Is Not a Pyridoxal-5'-Phosphate-Dependent Enzyme |
Q43756045 | Serine Transhydroxymethylase of Cauliflower (Brassica oleracea var. botrytis L.): Partial Purification and Properties |
Q36815027 | Serine transhydroxymethylase in methionine biosynthesis in Saccharomyces cerevisiae. |
Q39734119 | Stimulation of folate metabolism by exogenous glycine inNeurospora crassawild type |
Q28243267 | The glycine cleavage system: Composition, reaction mechanism, and physiological significance |
Q86812347 | The isolation and characterisation of a catalase-deficient mutant of barley (Hordeum vulgare L.). |
Q34056285 | The mitochondrial glycine cleavage system. Unique features of the glycine decarboxylation |
Q70665305 | The role of glycine in the biosynthesis of a terpene |
Search more.