Published in Biochem J on January 01, 1924
Note on the Estimation of Phosphorus in Blood. Biochem J (1924) 108.16
The Phosphoric-Esterase of Blood. Biochem J (1924) 50.25
The growth, development and phosphatase activity of embryonic avian femora and limb-buds cultivated in vitro. Biochem J (1929) 23.19
Changes in the Phosphorus Partition in Human Blood during Ammonium Chloride Acidosis. Biochem J (1924) 22.65
Kidney Phosphatase. Biochem J (1926) 16.60
Some Phosphorus Compounds of Milk: The Liberation of Phosphorus from Caseinogen by Enzymes and other Agents. Biochem J (1926) 7.93
A Chemical Study of Defective Ossification in Rachitic Animals. Biochem J (1925) 6.39
Studies upon Calcification in vitro. Biochem J (1926) 5.67
The Possible Significance of Hexosephosphoric Esters in Ossification. Part IV. The Phosphoric Esters of the Blood: Preliminary Communication. Biochem J (1924) 5.51
The absorption of milk precursors by the mammary gland: Aspects of the phosphorus metabolism of the mammary gland. Biochem J (1932) 2.29
The phosphorus distribution in blood and the calcium and phosphorus excretion during hypervitaminosis D. Biochem J (1930) 2.14
STUDIES ON THE PHYSIOLOGY OF THE PARATHYROID GLANDS: II. The Relation of the Serum Calcium to the Serum Phosphorus at Different Levels of Parathyroid Activity. J Clin Invest (1931) 1.94
The Effects of Calcium Glycerophosphate, Sodium Glycerophosphate and Sodium Dihydrogen Phosphate upon the Skeleton of Rats kept on a Diet Deficient only in Fat-soluble Factor. Biochem J (1925) 1.85
Note on the Phosphorus Content of the Blood of Ruminants. Biochem J (1925) 1.14
The action of bone phosphatase on the esters of phosphoric acid of the blood. Biochem J (1932) 0.99
THE BEHAVIOUR OF LIVER GLYCOGEN IN EXPERIMENTAL ANIMALS: III. THE RELATIONSHIP OF BLOOD PHOSPHORUS TO LIVER GLYCOGEN AND BLOOD GLUCOSE IN THE DECAPITATE CAT. J Physiol (1932) 0.98
The Possible Significance of Hexosephosphoric Esters in Ossification: A Reply to Shipley, Kramer and Howland. Biochem J (1926) 0.98
THE HEALING OF RICKETS COINCIDENT WITH LOW SERUM INORGANIC PHOSPHORUS. J Clin Invest (1931) 0.75
THE PHOSPHATASE OF FETAL BONE. Can Med Assoc J (1931) 0.75
Note on the Estimation of Phosphorus in Blood. Biochem J (1924) 108.16
The Possible Significance of Hexosephosphoric Esters in Ossification: Part II. The Phosphoric Esterase of Ossifying Cartilage. Biochem J (1924) 102.24
Note on the Estimation of Phosphorus in Blood. Biochem J (1924) 108.16
Possible Significance of Hexosephosphoric Esters in Ossification: Part VI. Phosphoric Esters in Blood-Plasma. Biochem J (1926) 73.73
The Phosphoric-Esterase of Blood. Biochem J (1924) 50.25
The Possible Significance of Hexosephosphoric Esters in Ossification: Part VII. The Bone Phosphatase. Biochem J (1927) 25.35
The growth, development and phosphatase activity of embryonic avian femora and limb-buds cultivated in vitro. Biochem J (1929) 23.19
The Possible Significance of Hexosephosphoric Esters in Ossification: Part V. The Enzyme in the Early Stages of Bone Development. Biochem J (1924) 13.10
The application of the iodimetric method to the estimation of small amounts of aldoses. Biochem J (1929) 12.72
Note on the Sulphuric Acid Test for Liver Oils. Biochem J (1923) 12.00
The preparation and use of the bone phosphatase. Biochem J (1929) 11.68
Constitution of hexosediphosphoric acid. Part II: The dephosphorylated alpha- and beta-methylhexosides. Biochem J (1928) 10.83
The Minimum Nitrogen Expenditure of Man and the Biological value of various Proteins for Human Nutrition. Biochem J (1922) 6.89
The Possible Significance of Hexosephosphoric Esters in Ossification. Part IV. The Phosphoric Esters of the Blood: Preliminary Communication. Biochem J (1924) 5.51
The development and phosphatase activity in vivo and in vitro of the mandibular skeletal tissue of the embryonic fowl. Biochem J (1930) 4.74
The Alleged Specific Colour Reaction for the Antiscorbutic Factor. Biochem J (1923) 4.16
The phosphatase activity of animal tissues. Biochem J (1934) 3.72
The calcification in vitro of kidney, lung and aorta. Biochem J (1934) 1.96
The Reversibility of the Action of Urease of Soy Bean. Biochem J (1923) 1.88
The development of the calcifying mechanism in avian cartilage and osteoid tissue. Biochem J (1934) 1.76
The Anti-Scorbutic Properties of Concentrated Fruit Juices. Part III. Biochem J (1920) 1.70
Mannosemonophosphate: The fermentation of mannose by dried yeast. Biochem J (1934) 1.69
The hydrolysis of hexosediphosphoric ester by bone phosphatase: (a) The participation of phosphohexokinase; (b) the isolation of pure fructose-1-phosphate. Biochem J (1935) 1.60
The hydrolysis of hexosediphosphoric ester by bone phosphatase: A new fructosemonophosphate. Biochem J (1933) 1.56
The development of the calcifying mechanism in the long bones of the rabbit. Biochem J (1934) 1.44
Induction of the adipose differentiation-related protein in liver of etomoxir-treated rats. Biochem Biophys Res Commun (1996) 1.04
Treatment results in males with breast cancer. Cancer (1982) 1.01
Genome-wide linkage in Utah autism pedigrees. Mol Psychiatry (2009) 0.93
Percutaneous transhepatic drainage for malignant biliary obstruction. Am Surg (1984) 0.86
Surgical spectrum of aortic stenosis in children: a thirty-year experience with 257 children. Ann Thorac Surg (1988) 0.85
Pathology induced by interleukin-6. Toxicol Lett (1992) 0.81
Induced regression of bovine papillomas by intralesional immunotherapy. Ther Immunol (1994) 0.79
Identification of antibiotic 1037 as toyocamycin. J Antibiot (Tokyo) (1966) 0.78
Discovery and development of somatostatin agonists. Pharm Biotechnol (1998) 0.76
The influence of changes induced by cholesterol upon the calcification in vitro of rabbit aorta. Biochem J (1936) 0.75
The Antiscorbutic Properties of Concentrated Fruit Juices. Part IV. Biochem J (1921) 0.75