Lyu Z, Zhao Y, Buuh Z, Gorman N, Goldman A, Islam M
J Am Chem Soc. 2021; 143(3):1341-1347.
PMID: 33433199
PMC: 8300487.
DOI: 10.1021/jacs.0c05605.
DeLey Cox V, Hartog M, Pueblo E, Racine M, Jennings L, Tressler J
Ann N Y Acad Sci. 2020; 1479(1):196-209.
PMID: 32285953
PMC: 7554062.
DOI: 10.1111/nyas.14347.
Kitagawa D, Cavalcante S, de Paula R, Rodrigues R, Bernardo L, da Silva M
Biomolecules. 2019; 9(10).
PMID: 31597234
PMC: 6843506.
DOI: 10.3390/biom9100583.
McCranor B, Young T, Tressler J, Jennings L, Irwin J, Alli N
Cogent Biol. 2019; 5(1).
PMID: 31595219
PMC: 6782068.
Zhang X, Bennie S, van der Kamp M, Glowacki D, Manby F, Mulholland A
R Soc Open Sci. 2018; 5(2):171390.
PMID: 29515856
PMC: 5830745.
DOI: 10.1098/rsos.171390.
Assembly of Lipoic Acid on Its Cognate Enzymes: an Extraordinary and Essential Biosynthetic Pathway.
Cronan J
Microbiol Mol Biol Rev. 2016; 80(2):429-50.
PMID: 27074917
PMC: 4867368.
DOI: 10.1128/MMBR.00073-15.
Restricted permeability of rat liver for glutamate and succinate.
HEMS R, Stubbs M, KREBS H
Biochem J. 1968; 107(6):807-15.
PMID: 16742606
PMC: 1198752.
DOI: 10.1042/bj1070807.
PHOTOSYNTHETIC MECHANISMS IN BACTERIA AND PLANTS: DEVELOPMENT OF A UNITARY CONCEPT.
STANIER R
Bacteriol Rev. 1961; 25(1):1-17.
PMID: 16350167
PMC: 441070.
DOI: 10.1128/br.25.1.1-17.1961.
The mechanism of itaconic acid formation by Aspergillus terreus. 2. The effect of substrates and inhibitors.
EIMHJELLEN K, Larsen H
Biochem J. 1955; 60(1):139-47.
PMID: 14363198
PMC: 1215666.
DOI: 10.1042/bj0600139.
The metabolism of citric acid in the mammary gland. 2. The effect of p-nitrophenol and of fluoride on the synthesis of citric acid in fluoroacetate-blocked homogenates.
TERNER C
Biochem J. 1955; 60(1):95-101.
PMID: 14363190
PMC: 1215658.
DOI: 10.1042/bj0600095.
THE METABOLISM OF HALOGEN-SUBSTITUTED BENZOIC ACIDS BY PSEUDOMONAS FLUORESCENS.
Hughes D
Biochem J. 1965; 96:181-8.
PMID: 14343128
PMC: 1206919.
DOI: 10.1042/bj0960181.
MISHAPS WITH RAT POISON.
Macleod C, HALL Jr C, Frohman L
Br Med J. 1964; 1(5380):387-8.
PMID: 14085965
PMC: 1813392.
The inhibition of plant aconitate hydratase (aconitase) by fluorocitrate.
TREBLE D, Lamport D, Peters R
Biochem J. 1962; 85:113-5.
PMID: 13994045
PMC: 1243918.
DOI: 10.1042/bj0850113.
The metabolism of 2-fluoroethanol.
TREBLE D
Biochem J. 1962; 82:129-34.
PMID: 13922368
PMC: 1243419.
DOI: 10.1042/bj0820129.
Oxidation of shortchain fatty acids (C1-C8) by ram, bull, dog and fowl spermatozoa.
Scott T, White I, Annison E
Biochem J. 1962; 83:392-8.
PMID: 13910014
PMC: 1243563.
DOI: 10.1042/bj0830392.
The purification and properties of arginine phosphokinase.
Morrison J, Griffiths D, ENNOR A
Biochem J. 1957; 65(1):143-53.
PMID: 13403885
PMC: 1199841.
DOI: 10.1042/bj0650143.
Toxic liver injury; the metabolism of dimethylnitrosamine.
MAGEE P
Biochem J. 1956; 64(4):676-82.
PMID: 13382818
PMC: 1199798.
DOI: 10.1042/bj0640676.
The oxidative properties of an oxalate-decomposing organism, Pseudomonas OD1, with particular reference to the synthesis of citrate from glycollate.
JAYASURIYA G
Biochem J. 1956; 64(3):469-77.
PMID: 13373796
PMC: 1199762.
DOI: 10.1042/bj0640469.
The influence of acetamide on citrate accumulation after fluoroacetate poisoning.
GITTER S
Biochem J. 1956; 63(2):182-7.
PMID: 13328807
PMC: 1216023.
DOI: 10.1042/bj0630182.
The effect of pH on the toxicity of fluoroacetic acid.
Aldous J, ROZEE K
Biochem J. 1956; 62(4):605-10.
PMID: 13315221
PMC: 1215969.
DOI: 10.1042/bj0620605.
