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David A Ford

Showing results (21-30 of 134) with videos related to

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Lipids|May 22, 2008
2-Chlorohexadecanal and 2-chlorohexadecanoic acid induce COX-2 expression in human coronary artery endothelial cellsMaria C Messner, Carolyn J Albert, David A Ford
Journal of Lipid Research|August 2, 2024
Etomoxir: an old dog with new tricksReagan M McGuffee, Kyle S McCommis, David A Ford
Analytical Biochemistry|September 24, 2013
Approaches for the analysis of chlorinated lipidsWen-Yi Wang, Carolyn J Albert, David A Ford
Redox Biochemistry and Chemistry|December 11, 2023
Lipid biology of plasmalogen-derived halolipids: Signature molecules of myeloperoxidase and eosinophil peroxidase activityReagan M McGuffee, Christy M Hadfield, David A Ford
Molecular and Cellular Biochemistry|October 25, 2003
Lysophospholipids do not directly modulate Na(+)-H+ exchangeDanny P Goel, L David A Ford, Grant N Pierce
Lipids|February 8, 2008
Quantification of pentafluorobenzyl oxime derivatives of long chain aldehydes by GC-MS analysisViral V Brahmbhatt, Christopher Nold, Carolyn J Albert, et al.
Advances in Redox Research|March 24, 2025
2-Chloro- and 2-Bromopalmitic acids inhibit mitochondrial function in airway epithelial cellsKarina Ricart, Kyle S McCommis, David A Ford, et al.
Analytical Biochemistry|July 12, 2011
Analysis of cholesteryl esters and diacylglycerols using lithiated adducts and electrospray ionization-tandem mass spectrometryJohn A Bowden, Carolyn J Albert, Omar S Barnaby, et al.
Free Radical Biology & Medicine|June 21, 2012
Strategies for the analysis of chlorinated lipids in biological systemsBradley K Wacker, Carolyn J Albert, Benjamin A Ford, et al.
The Journal of Biological Chemistry|April 14, 2006
Metabolism of myeloperoxidase-derived 2-chlorohexadecanalKristin R Wildsmith, Carolyn J Albert, Dhanalakshmi S Anbukumar, et al.
Pageof 14

Showing results (21-30 of 134) with videos related to

Sort By:
Pageof 14
Lipids|May 22, 2008
2-Chlorohexadecanal and 2-chlorohexadecanoic acid induce COX-2 expression in human coronary artery endothelial cellsMaria C Messner, Carolyn J Albert, David A Ford
Journal of Lipid Research|August 2, 2024
Etomoxir: an old dog with new tricksReagan M McGuffee, Kyle S McCommis, David A Ford
Analytical Biochemistry|September 24, 2013
Approaches for the analysis of chlorinated lipidsWen-Yi Wang, Carolyn J Albert, David A Ford
Redox Biochemistry and Chemistry|December 11, 2023
Lipid biology of plasmalogen-derived halolipids: Signature molecules of myeloperoxidase and eosinophil peroxidase activityReagan M McGuffee, Christy M Hadfield, David A Ford
Molecular and Cellular Biochemistry|October 25, 2003
Lysophospholipids do not directly modulate Na(+)-H+ exchangeDanny P Goel, L David A Ford, Grant N Pierce
Lipids|February 8, 2008
Quantification of pentafluorobenzyl oxime derivatives of long chain aldehydes by GC-MS analysisViral V Brahmbhatt, Christopher Nold, Carolyn J Albert, et al.
Advances in Redox Research|March 24, 2025
2-Chloro- and 2-Bromopalmitic acids inhibit mitochondrial function in airway epithelial cellsKarina Ricart, Kyle S McCommis, David A Ford, et al.
Analytical Biochemistry|July 12, 2011
Analysis of cholesteryl esters and diacylglycerols using lithiated adducts and electrospray ionization-tandem mass spectrometryJohn A Bowden, Carolyn J Albert, Omar S Barnaby, et al.
Free Radical Biology & Medicine|June 21, 2012
Strategies for the analysis of chlorinated lipids in biological systemsBradley K Wacker, Carolyn J Albert, Benjamin A Ford, et al.
The Journal of Biological Chemistry|April 14, 2006
Metabolism of myeloperoxidase-derived 2-chlorohexadecanalKristin R Wildsmith, Carolyn J Albert, Dhanalakshmi S Anbukumar, et al.
Pageof 14