Published in Biochem J on March 01, 1952
Gas-liquid chromatography: the separation and identification of the methyl esters of saturated and unsaturated acids from formic acid to n-octadecanoic acid. Biochem J (1956) 6.16
CLASSIFICATION OF MICROORGANISMS BY ANALYSIS OF CHEMICAL COMPOSITION. I. FEASIBILITY OF UTILIZING GAS CHROMATOGRAPHY. J Bacteriol (1963) 4.94
POLYSACCHARIDE STORAGE AND GROWTH EFFICIENCY IN RUMINOCOCCUS ALBUS. J Bacteriol (1963) 4.48
Carbohydrates in protein. 2. The hexose, hexosamine, acetyl and amide-nitrogen content of hen's-egg albumin. Biochem J (1960) 4.32
DETERMINATION OF STEAM-VOLATILE ORGANIC ACIDS IN FERMENTATION MEDIA BY GAS-LIQUID CHROMATOGRAPHY. Appl Microbiol (1965) 3.48
The adsorption of bacterial polysaccharides by erythrocytes. Immunology (1958) 2.91
Gas-liquid partition chromatography: the separation of volatile aliphatic amines and of the homologues of pyridine. Biochem J (1952) 2.88
Properties of a fatty acid forming organism isolated from the rumen of sheep. J Bacteriol (1956) 2.75
Studies on the volatile fatty acids of sheep blood with special reference to formic acid. Biochem J (1954) 2.74
Applications of cellular fatty acid analysis. Clin Microbiol Rev (1991) 2.72
Gas-liquid chromatography: the gas-density meter, a new apparatus for the detection of vaporus in flowing gas streams. Biochem J (1956) 2.70
Degradation of protein in the rumen of the sheep. II. The action of rumen micro-organisms on amino acids. Biochem J (1952) 2.62
The production of fatty acids by a gram-negative coccus. Biochem J (1953) 2.50
Some observations on volatile fatty acids in the sheep's rumen. Biochem J (1954) 2.40
THE FATTY ACIDS OF BACTERIA. Bacteriol Rev (1962) 2.38
The intracellular distribution of fatty acids in rat liver. The fatty acids of intracellular compartments. Biochem J (1961) 2.31
Gas-liquid partition chromatography: the separation and micro-estimation of ammonia and the methylamines. Biochem J (1952) 2.31
The effect of sheep-rumen contents on unsaturated fatty acids. Biochem J (1957) 2.28
Degradation of protein in the rumen of the sheep. I. Some volatile fatty acids, including branched-chain isomers, found in vivo. Biochem J (1952) 2.23
Acetate utilization in sheep. Biochem J (1961) 2.17
Studies of sebum. 6. The determination of the component fatty acids of human forearm sebum by gas-liquid chromatography. Biochem J (1956) 2.16
Physiologically active choline esters in certain marine gastropods and other invertebrates. J Physiol (1957) 2.14
The fermentation of L-threonine, L-serine, L-cysteine and acrylic acid by a gram-negative coccus. Biochem J (1955) 2.10
Studies in immunochemistry. 14. The isolation and properties of substances of human origin possessing blood-group B specificity. Biochem J (1954) 2.03
Nitrogen metabolism in the sheep; protein digestion in the rumen. Biochem J (1956) 2.02
Fermentation of soluble sugars by anaerobic holotrich ciliate protozoa of the genera Isotricha and Dasytricha. Biochem J (1953) 2.01
Partition chromatography of insulin and other proteins. Biochem J (1953) 1.90
Methane formation; fermentation of ethanol in the absence of carbon dioxide by Methanobacillus omelianskii. J Bacteriol (1960) 1.89
Metabolism of acetate, propionate and butyrate by sheep-liver slices. Biochem J (1963) 1.87
The rates of absorption of acetic, propionic and n-butyric acids. J Physiol (1953) 1.74
The phospholipids of ox spleen with special reference to the fatty acid and fatty aldehyde compositions of the lecithin and kephalin fractions. Biochem J (1960) 1.67
Studies of cholesterol biosynthesis. I. A new chemical degradation of cholesterol. Biochem J (1953) 1.56
Carbohydrate metabolism in Spirochaeta recurrentis. 1. The metabolism of spirochaetes in vivo and in vitro. Biochem J (1960) 1.55
Biosynthesis of fatty acids in cell-free preparations. IV. Synthesis of fatty acids from acetate by a partially purified enzyme system from rabbit mammary gland. Biochem J (1957) 1.51
The breakdown of pyruvate by cell-free extracts of the rumen micro-organism LC. Biochem J (1960) 1.44
A study of the composition and structure of the cell-wall mucopeptide of micrococcus lysodeikticus. Biochem J (1963) 1.40
Production of aminoacetone by Rhodopseudomonas spheroides. Biochem J (1962) 1.37
METABOLISM OF PROPIONATE BY SHEEP LIVER. OXIDATION OF PROPIONATE BY HOMOGENATES. Biochem J (1965) 1.30
The determination of the structure of unsaturated fatty acids on a micro scale with the gas-liquid chromatogram. Biochem J (1957) 1.29
The metabolism of short-chain fatty acids in the sheep. III Formic, eta-valeric and some branched-chain acids. Biochem J (1954) 1.28
Seasonal changes in the fatty acid composition of ewe-milk fat. Biochem J (1958) 1.27
The fatty acid composition of human thoracic duct lymph lipids. J Clin Invest (1960) 1.27
Fatty acids from vegetative cells and spores of Bacillus stearothermophilus. J Bacteriol (1970) 1.18
Studies on the portal blood of sheep. II. Absorption of volatile fatty acids from the rumen of the sheep. Biochem J (1957) 1.14
The metabolism of propionic acid. Biochem J (1956) 1.13
Incorporation of DL-[1-14C]leucine and [1-14C]liso valeric acid into milk constituents by the perfused cow's udder. Biochem J (1959) 1.13
The role of mass spectrometry-based metabolomics in medical countermeasures against radiation. Mass Spectrom Rev (2010) 1.13
The volatile acids on mutton fat. Biochem J (1956) 1.11
Gas chromatographic analysis of the fatty acid composition of the plasma lipids in normal and diabetic subjects. J Clin Invest (1960) 1.10
The breakdown of lipid reserves in the endosperm of germinating castor beans. Biochem J (1975) 1.09
Laboratory instrumentation in clinical biochemistry: an historical perspective. J R Soc Med (1997) 1.08
Studies on the pectinolytic anaerobes Clostridium flavum and Clostridium laniganii. J Bacteriol (1959) 1.04
The polysaccharide from Bacillus anthracis grown in vivo. Biochem J (1956) 1.04
Current methods for detecting ethylene in plants. Ann Bot (2012) 1.01
High sensitivity quantitative lipidomics analysis of fatty acids in biological samples by gas chromatography-mass spectrometry. Biochim Biophys Acta (2011) 1.00
Arabidopsis thaliana polar glycerolipid profiling by thin layer chromatography (TLC) coupled with gas-liquid chromatography (GLC). J Vis Exp (2011) 0.98
Interconversions and production of volatile fatty acids in the sheep rumen. Biochem J (1965) 0.98
The isolation of n-pentadecanoic and n-heptadecanoic acids from shark (Galeorhincus australis Macleay) liver oil. Biochem J (1955) 0.97
Methane production from glucose in vitro by mixed rumen bacteria. Biochem J (1967) 0.95
The isolation of of cis-Delta9-heptadecenoic acid from butterfat. Biochem J (1960) 0.95
THE EFFECT OF ABSORPTION ON THE ACIDITY OF RUMEN CONTENTS. J Physiol (1963) 0.91
The measurement of entry rates of propionate and of butyrate in sheep. Biochem J (1962) 0.89
The volatile fatty acids of bovine-muscle and -liver phospholipids. Biochem J (1956) 0.88
Lipid-phase transitions of the strictly anaerobic bacteria Veillonella parvula and Anaerovibrio lipolytica. J Bacteriol (1975) 0.87
The Role of Mass Spectrometry in the "Omics" Era. Curr Org Chem (2013) 0.85
Studies on the biosynthesis of cholesterol. IV. Degradation of rings C and D. Biochem J (1957) 0.85
Energy utilization for polysaccharide synthesis by mixed rumen organisms fermenting soluble carbohydrates. Appl Microbiol (1968) 0.84
Five decades with polyunsaturated Fatty acids: chemical synthesis, enzymatic formation, lipid peroxidation and its biological effects. J Lipids (2013) 0.84
Incorporation of sodium [1-14C]hexanoate and sodium hydrogen [14C]carbonate into milk constituents by the perfused cow's udder. Biochem J (1959) 0.82
The metabolism of short-chain fatty acids in the sheep. V. Some interrelationships in the metabolism of fatty acids and glucose by sheep-rumen epithelial tissue. Biochem J (1957) 0.81
The role of n-valeric acid in the synthesis of the higher saturated straight-chain acids containing an odd number of carbon atoms in bovine milk fat. Biochem J (1960) 0.80
A new accurate quadratic equation model for isothermal gas chromatography and its comparison with the linear model. J Chromatogr A (2012) 0.80
Fatty acids in semen. Biochem J (1961) 0.78
Metabolomics in epidemiology: from metabolite concentrations to integrative reaction networks. Int J Epidemiol (2016) 0.76
Diagnosing gastrointestinal illnesses using fecal headspace volatile organic compounds. World J Gastroenterol (2016) 0.76
Less common applications of monoliths. III. Gas chromatography. J Chromatogr A (2007) 0.76
Monoterpenol Oxidative Metabolism: Role in Plant Adaptation and Potential Applications. Front Plant Sci (2016) 0.76
The separation of the C6-C12 fatty acids by reversed-phase partition chromatography. Biochem J (1957) 0.75
Determination and evaluation of gas holdup time with the quadratic equation model and comparison with nonlinear models for isothermal gas chromatography. J Chromatogr A (2013) 0.75
A Low Cost Compact Measurement System Constructed Using a Smart Electrochemical Sensor for the Real-Time Discrimination of Fruit Ripening. Sensors (Basel) (2016) 0.75
Gas-liquid partition chromatography: the separation and micro-estimation of volatile fatty acids from formic acid to dodecanoic acid. Biochem J (1955) 0.75
Effects of Muscone on the Expression of P-gp, MMP-9 on Blood-Brain Barrier Model In Vitro. Cell Mol Neurobiol (2015) 0.75
CURRENT STATUS OF INSTRUMENTATION IN MILK AND FOOD RESEARCH. Am J Public Health Nations Health (1963) 0.75
THE METABOLISM OF THE VOLATILE AMINES: VI. THE IDENTIFICATION OF THE VOLATILE BASE PRESENT IN BLOOD. Can Med Assoc J (1963) 0.75
Qualitative analysis of proteins: a partition chromatographic method using paper. Biochem J (1944) 116.52
A new form of chromatogram employing two liquid phases: A theory of chromatography. 2. Application to the micro-determination of the higher monoamino-acids in proteins. Biochem J (1941) 67.12
Separation and estimation of saturated C(2)-C(8) fatty acids by buffered partition columns. Biochem J (1948) 14.05
The separation of the C12-C18 fatty acids by reversed-phase partition chromatography. Biochem J (1950) 10.02
Gas-liquid chromatography: the separation and identification of the methyl esters of saturated and unsaturated acids from formic acid to n-octadecanoic acid. Biochem J (1956) 6.16
The biosynthesis of long-chain fatty acids by lettuce chloroplast preparations. Biochim Biophys Acta (1963) 4.46
Qualitative and quantitative determination of the fatty acids by gas-liquid chromatography. Methods Biochem Anal (1960) 3.80
Mode of formation of milk fatty acids from acetate in the goat. Biochem J (1951) 3.29
The fatty acid patterns of plasma lipids during alimentary lipemia. J Clin Invest (1959) 2.94
Gas-liquid partition chromatography: the separation of volatile aliphatic amines and of the homologues of pyridine. Biochem J (1952) 2.88
Gas-liquid chromatography: the gas-density meter, a new apparatus for the detection of vaporus in flowing gas streams. Biochem J (1956) 2.70
The biosynthesis of long-chain saturated and unsaturated fatty acids in isolated plant leaves. Biochim Biophys Acta (1963) 2.68
Structure of a naturally occurring antagonist of dihydrostreptomycin. Biochem J (1956) 2.52
Partition chromatography. Annu Rev Biochem (1950) 2.42
Gas-liquid partition chromatography: the separation and micro-estimation of ammonia and the methylamines. Biochem J (1952) 2.31
Studies of sebum. 6. The determination of the component fatty acids of human forearm sebum by gas-liquid chromatography. Biochem J (1956) 2.16
The occurrence of unusual fatty acids in faecal lipids from human beings with normal and abnormal fat absorption. Biochem J (1961) 2.11
The lipid composition of Bacillus cereus as influenced by the presence of alcohols in the culture medium. Can J Biochem Physiol (1962) 2.03
The chromatographic fractionation of ribonuclease. Biochem J (1951) 2.03
Mode of formation of milk fatty acids studied with the aid of CH314COONa. Biochem J (1951) 1.76
The influence of diet on the quality of faecal fat in patients with and without steatorrhoea. Gut (1963) 1.65
The fatty acids of the blood in coronary-artery disease. Lancet (1957) 1.60
The lipids of whole blood. Lipid biosynthesis in human blood in vitro. Biochem J (1959) 1.45
Liquid-gas partition chromatography. Biochem J (1951) 1.43
Essential fatty acids and human disease. Br Med Bull (1958) 1.41
Gas-liquid chromatography; a technique for the analysis and identification of volatile materials. Br Med Bull (1954) 1.40
The determination of the structure of unsaturated fatty acids on a micro scale with the gas-liquid chromatogram. Biochem J (1957) 1.29
Non-peptide linkages in gramicidin. Biochem J (1951) 1.27
The lipids of whole blood. 2. The exchange of lipids between the cellular constituents and the lipoproteins of human blood. Biochem J (1960) 1.24
Studies of sebum. 7. The composition of the sebum of some common rodents. Biochem J (1957) 1.14
The metabolism of propionic acid. Biochem J (1956) 1.13
Incorporation of DL-[1-14C]leucine and [1-14C]liso valeric acid into milk constituents by the perfused cow's udder. Biochem J (1959) 1.13
The separation and identification of small amounts of mixed amino sugars. Biochem J (1951) 1.12
The conversion of stearic to oleic acid by liver and yeast preparations. Biochim Biophys Acta (1962) 1.05
Light-stimulated enzymic synthesis of oleic and palmitic acids by lettuce-chloroplast preparations. Biochim Biophys Acta (1962) 1.02
Phosphatides of human blood cells and their role in spherocytosis. Biochim Biophys Acta (1961) 1.00
An abnormality of blood lipids in hereditary spherocytosis. Br Med J (1960) 0.98
The separation and identification of small amounts of mixed amino sugars. Biochem J (1950) 0.96
Origin of lipids in influenza virus. Cold Spring Harb Symp Quant Biol (1962) 0.95
The separation of the long chain fatty acids by gas-liquid chromatography. Am J Clin Nutr (1959) 0.90
OXIDATION OF UNSATURATED FATTY ACIDS BY LEAF TISSUE. J Lipid Res (1964) 0.89
[Studies on the biosynthesis of 18 carbon mono-and tri-unsaturated fatty acids by gas phase chromatography]. Bull Soc Chim Biol (Paris) (1962) 0.87
The identification of amino-acids derived from cystine in chemically modified wool. Biochem J (1946) 0.85
Essential fatty acids and idiopathic hypercalcaemia of infancy. Lancet (1958) 0.84
The dose-response relationship of the Ehrlich ascites tumour. Br J Cancer (1959) 0.84
Changes in fatty-acid composition of human aorta associated with fatty streaking. Lancet (1961) 0.83
Further observations on the oxidation of di-idotyrosine derivatives. Biochem J (1958) 0.83
THE BIOSYNTHESIS OF RICINOLEIC ACID. Biochem J (1965) 0.81
CONVERSION OF OLEIC ACID INTO LINOLEIC ACID BY A SUBCELLULAR SYSTEM OF CHLORELLA VULGARIS. Biochem J (1965) 0.81
Phosphatide components of fowl blood cells. Biochim Biophys Acta (1961) 0.81
Automatic fraction collectors and a conductivity recorder. Biochem J (1951) 0.79
The biosynthesis of unsaturated fatty acids in isolated plant leaves. Biochim Biophys Acta (1962) 0.79
Some chemical properties of a naturally occurring antagonist of dihydrostreptomycin. Biochem J (1954) 0.77
In vitro lipid synthesis in fowl blod. Biochim Biophys Acta (1960) 0.77
Ionophoresis in silica jelly; a method for the separation of amino-acids and peptides. Biochem J (1946) 0.76
Enumeration of quad types in diploids and tetraploids. Genetics (1961) 0.75
Separation of acidic amino-acids by means of a synthetic anion exchange resin. Biochem J (1948) 0.75
Desalting solutions of amino-acids. Biochem J (1945) 0.75
The principles of chromatography. Endeavour (1947) 0.75
Gas-liquid chromatography: a method of separation and identification of volatile materials. J Pharm Pharmacol (1956) 0.75
Ancillary apparatus for chromatography. Biochem J (1949) 0.75
Gas-liquid chromatography: the separation, micro-estimation and identification of hydrocarbons, alkyl halides, alcohols, aldehydes, ketones, esters and ethers. Biochem J (1954) 0.75
Gas-liquid partition chromatography: the separation and identification of volatile bases; (a) aliphatic amines, (b) pyridine homologues. Biochem J (1952) 0.75
The essential fatty acids. Am J Clin Nutr (1959) 0.75
Partition chromatography. Ann N Y Acad Sci (1948) 0.75
The formation of hydroxystearic acids during the conversion of stearic to oleic acid by liver and yeast preparations. Biochim Biophys Acta (1962) 0.75