Featured Publications
Encoding human serine phosphopeptides in bacteria for proteome-wide identification of phosphorylation-dependent interactions
Barber KW, Muir P, Szeligowski RV, Rogulina S, Gerstein M, Sampson JR, Isaacs FJ, Rinehart J. Encoding human serine phosphopeptides in bacteria for proteome-wide identification of phosphorylation-dependent interactions. Nature Biotechnology 2018, 36: 638-644. PMID: 29889213, PMCID: PMC6590076, DOI: 10.1038/nbt.4150.Peer-Reviewed Original Research
2022
Enhanced access to the human phosphoproteome with genetically encoded phosphothreonine
Moen J, Mohler K, Rogulina S, Shi X, Shen H, Rinehart J. Enhanced access to the human phosphoproteome with genetically encoded phosphothreonine. Nature Communications 2022, 13: 7226. PMID: 36433969, PMCID: PMC9700786, DOI: 10.1038/s41467-022-34980-5.Peer-Reviewed Original ResearchConceptsUbiquitous post-translational modificationCo-translational insertionKinase activation mechanismProtein interaction platformOrthogonal translation systemProtein-protein interactionsPost-translational modificationsPhospho-amino acidsAminoacyl-tRNA synthetaseHuman phosphoproteomePhosphorylation eventsTRNA pairsFunctional assignmentCellular processesProtein phosphorylationUpstream kinasePhysiological functionsActivation mechanismTranslation systemKinasePhosphorylationInteraction platformPhosphoproteomePhosphothreoninePhospho