@mzspectrum @ShomitSengupta @Caroline_Bartma @JoseLCadavid For tissues, this paper is the best example I can think of. Compares short chain acyl-CoA absolute quant across heart, liver, kidney, brain , muscle https://t.co/tnWG4nAybw
Metabolomics-assisted proteomics identifies succinylation and SIRT5 as important regulators of cardiac function https://t.co/l8kq1GunAx
RT @SanderHouten: Succinyl-CoA is the most abundant acyl-CoA molecule in the heart. #SIRT5 https://t.co/9I7dpJW66r
RT @SanderHouten: Succinyl-CoA is the most abundant acyl-CoA molecule in the heart. #SIRT5 https://t.co/9I7dpJW66r
Succinyl-CoA is the most abundant acyl-CoA molecule in the heart. #SIRT5 https://t.co/9I7dpJW66r
SIRT5 as important regulator of heart function [Biochemistry] https://t.co/vmjjAk1iZv | https://t.co/m4OIzTIdU9
Metabolomics-Assisted Proteomics Identifies Succinylation & SIRT5 as Regulators of Cardiac Function @Cornell https://t.co/d3y3SsedPY
Nice study demonstrating the importance of lysine succinylation and SIRT5 de-succinylation in heart metabolism :https://t.co/v27ZkEiKsk