RRIDs were included in the Cell Reports paper "Respiratory Phenomics across Multiple Models of Protein Hyperacylation in Cardiac Mitochondria Reveals a Marginal Impact on Bioenergetics" (https://t.co/5PkXouc0Ee). Thank you for making your #methodsmatter. #
@CharlesMBrenner https://t.co/ZIFk84Saus Additional background: https://t.co/jyW2CpkDf9 Also, prospective respiratory impact of mitochondrial acylation remains an enigma - https://t.co/osxtssP0N5 https://t.co/Iue7ovwuZ7
RT @CellReports: Respiratory phenomics across multiple models of protein hyperacylation in cardiac mitochondria reveals a marginal impact o…
RT @KFW_Lab: Mitochondrial Diagnostics meets the Lysine Acylome! Could not have asked for a better team to work with then the top-shelf sci…
RT @CellReports: Respiratory phenomics across multiple models of protein hyperacylation in cardiac mitochondria reveals a marginal impact o…
RT @CellReports: Respiratory phenomics across multiple models of protein hyperacylation in cardiac mitochondria reveals a marginal impact o…
RT @CellReports: Respiratory phenomics across multiple models of protein hyperacylation in cardiac mitochondria reveals a marginal impact o…
RT @CellReports: Respiratory phenomics across multiple models of protein hyperacylation in cardiac mitochondria reveals a marginal impact o…
RT @CellReports: Respiratory phenomics across multiple models of protein hyperacylation in cardiac mitochondria reveals a marginal impact o…
RT @CellReports: Respiratory phenomics across multiple models of protein hyperacylation in cardiac mitochondria reveals a marginal impact o…
RT @CellReports: Respiratory phenomics across multiple models of protein hyperacylation in cardiac mitochondria reveals a marginal impact o…
RT @CellReports: Respiratory phenomics across multiple models of protein hyperacylation in cardiac mitochondria reveals a marginal impact o…
RT @KFW_Lab: Mitochondrial Diagnostics meets the Lysine Acylome! Could not have asked for a better team to work with then the top-shelf sci…
RT @CellReports: Respiratory phenomics across multiple models of protein hyperacylation in cardiac mitochondria reveals a marginal impact o…
RT @CellReports: Respiratory phenomics across multiple models of protein hyperacylation in cardiac mitochondria reveals a marginal impact o…
@KFW_Lab continuing to put out awesome work on #mitochondria and #redox biology! I'd say he's a burgeoning leader, but he's been crushing it for years.
RT @CellReports: Respiratory phenomics across multiple models of protein hyperacylation in cardiac mitochondria reveals a marginal impact o…
RT @CellReports: Respiratory phenomics across multiple models of protein hyperacylation in cardiac mitochondria reveals a marginal impact o…
Respiratory phenomics across multiple models of protein hyperacylation in cardiac mitochondria reveals a marginal impact on bioenergetics https://t.co/d2Gckm6nun
RT @FrezzaLab: Huge! "In sum, the findings suggest that the vast majority of mitochondrial acyl PTMs occur as stochastic events that minima…
RT @FrezzaLab: Huge! "In sum, the findings suggest that the vast majority of mitochondrial acyl PTMs occur as stochastic events that minima…
That mito protein acylation is stochastic is something I and many others have long suspected, but that it has no effect on mito function is surprising...
Respiratory Phenomics across Multiple Models of Protein Hyperacylation in Cardiac Mitochondria Reveals a Marginal Impact on Bioenergetics. https://t.co/MCG9QTJLwS https://t.co/nZWVkysGPd
RT @FrezzaLab: Huge! "In sum, the findings suggest that the vast majority of mitochondrial acyl PTMs occur as stochastic events that minima…
Respiratory Phenomics across Multiple Models of Protein Hyperacylation in Cardiac Mitochondria Reveals a Marginal Impact on Bioenergetics #CellRep #MassSpec https://t.co/dc9c7CIxsG
RT @FrezzaLab: Huge! "In sum, the findings suggest that the vast majority of mitochondrial acyl PTMs occur as stochastic events that minima…
Huge! "In sum, the findings suggest that the vast majority of mitochondrial acyl PTMs occur as stochastic events that minimally affect mitochondrial bioenergetics." Respiratory Phenomics across Multiple Models of Protein Hyperacylation... https://t.co/SF4E
Applications of metabolomics and a remarkable Mt diagnostics platform, the Mt method prior published in “Mitochondrial Diagnostics: A Multiplexed Assay Platform for Comprehensive Assessment of Mitochondrial Energy Fluxes” https://t.co/xHD1qGpPbU
RT @KFW_Lab: Mitochondrial Diagnostics meets the Lysine Acylome! Could not have asked for a better team to work with then the top-shelf sci…
RT @KFW_Lab: Mitochondrial Diagnostics meets the Lysine Acylome! Could not have asked for a better team to work with then the top-shelf sci…
RT @KFW_Lab: Mitochondrial Diagnostics meets the Lysine Acylome! Could not have asked for a better team to work with then the top-shelf sci…
RT @KFW_Lab: Mitochondrial Diagnostics meets the Lysine Acylome! Could not have asked for a better team to work with then the top-shelf sci…
RT @KFW_Lab: Mitochondrial Diagnostics meets the Lysine Acylome! Could not have asked for a better team to work with then the top-shelf sci…
RT @KFW_Lab: Mitochondrial Diagnostics meets the Lysine Acylome! Could not have asked for a better team to work with then the top-shelf sci…
KFW lab is on a roll, a very insightful contribution to the literature @EastCarolina @ECUREDE @ECUBrodySOM
Mitochondrial Diagnostics meets the Lysine Acylome! Could not have asked for a better team to work with then the top-shelf scientists at the Duke Molecular Physiology Institute. Congratulations and thanks to all involved @matthewhirschey. #Mitochondria ht