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J R Farley

Showing results (1-10 of 67) with videos related to

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Calcified Tissue International|November 1, 1995
Phosphate regulates the stability of skeletal alkaline phosphatase activity in human osteosarcoma (SaOS-2) cells without equivalent effects on the level of skeletal alkaline phosphatase immunoreactive proteinJ R Farley
Texas Dental Journal|June 1, 1974
Hemisection and bicuspidization of molarsJ R Farley
Texas Dental Journal|February 1, 1974
Brief history of endodonticsJ R Farley
Calcified Tissue International|September 17, 2002
Differences in sialic acid residues among bone alkaline phosphatase isoforms: a physical, biochemical, and immunological characterizationP Magnusson, J R Farley
Calcified Tissue International|October 13, 2004
Effects of tunicamycin, mannosamine, and other inhibitors of glycoprotein processing on skeletal alkaline phosphatase in human osteoblast-like cellsJ R Farley, P Magnusson
Archives of Biochemistry and Biophysics|March 1, 1983
Differential effects of phospholipids on skeletal alkaline phosphatase activity in extracts, in situ and in circulationJ R Farley, U M Jorch
Calcified Tissue International|May 31, 2002
Apoptosis may determine the release of skeletal alkaline phosphatase activity from human osteoblast-line cellsJ R Farley, B Stilt-Coffing
Transactions of the Association of American Physicians|January 1, 1981
Isolation and partial purification of a putative coupling factor from human boneJ R Farley, D J Baylink
Metabolism: Clinical and Experimental|June 1, 1986
Skeletal alkaline phosphatase activity as a bone formation index in vitroJ R Farley, D J Baylink
Biochemistry|July 6, 1982
Purification of a skeletal growth factor from human boneJ R Farley, D J Baylink
Pageof 7

Showing results (1-10 of 67) with videos related to

Sort By:
Pageof 7
Calcified Tissue International|November 1, 1995
Phosphate regulates the stability of skeletal alkaline phosphatase activity in human osteosarcoma (SaOS-2) cells without equivalent effects on the level of skeletal alkaline phosphatase immunoreactive proteinJ R Farley
Texas Dental Journal|June 1, 1974
Hemisection and bicuspidization of molarsJ R Farley
Texas Dental Journal|February 1, 1974
Brief history of endodonticsJ R Farley
Calcified Tissue International|September 17, 2002
Differences in sialic acid residues among bone alkaline phosphatase isoforms: a physical, biochemical, and immunological characterizationP Magnusson, J R Farley
Calcified Tissue International|October 13, 2004
Effects of tunicamycin, mannosamine, and other inhibitors of glycoprotein processing on skeletal alkaline phosphatase in human osteoblast-like cellsJ R Farley, P Magnusson
Archives of Biochemistry and Biophysics|March 1, 1983
Differential effects of phospholipids on skeletal alkaline phosphatase activity in extracts, in situ and in circulationJ R Farley, U M Jorch
Calcified Tissue International|May 31, 2002
Apoptosis may determine the release of skeletal alkaline phosphatase activity from human osteoblast-line cellsJ R Farley, B Stilt-Coffing
Transactions of the Association of American Physicians|January 1, 1981
Isolation and partial purification of a putative coupling factor from human boneJ R Farley, D J Baylink
Metabolism: Clinical and Experimental|June 1, 1986
Skeletal alkaline phosphatase activity as a bone formation index in vitroJ R Farley, D J Baylink
Biochemistry|July 6, 1982
Purification of a skeletal growth factor from human boneJ R Farley, D J Baylink
Pageof 7