{"database":"biostudies-literature","file_versions":[],"scores":null,"additional":{"submitter":["Auger SA"],"funding":["Advancing a Healthier Wisconsin Endowment","NIA NIH HHS","University of Minnesota","National Institute of General Medical Sciences","NIGMS NIH HHS","National Institute on Aging"],"pagination":["138-155"],"full_dataset_link":["https://www.ebi.ac.uk/biostudies/studies/S-EPMC11706708"],"repository":["biostudies-literature"],"omics_type":["Unknown"],"volume":["64(1)"],"pubmed_abstract":["Prenylation consists of the modification of proteins with either farnesyl diphosphate (FPP) or geranylgeranyl diphosphate (GGPP) at a cysteine near the C-terminus of target proteins to generate thioether-linked lipidated proteins. In recent work, metabolic labeling with alkyne-containing isoprenoid analogues including C15AlkOPP has been used to identify prenylated proteins and track their levels in different diseases. Here, a systematic study of the impact of isoprenoid length on proteins labeled with these probes was performed. Chemical synthesis was used to generate two new analogues, C15hAlkOPP and C20AlkOPP, bringing the total number of compounds to eight used in this study. Enzyme kinetics performed <i>in vitro</i> combined with metabolic labeling <i>in cellulo</i>, resulted in the identification of 8 proteins for C10AlkOPP, 70 proteins for C15AlkOPP, 41 proteins for C15hAlkOPP, and 7 proteins for C20AlkOPP. While C10AlkOPP was the most selective for farnesylated proteins and C20AlkOPP was most selective for geranylgeranylated proteins, the number of proteins identified using those probes was relatively small. In contrast, C15AlkOPP labeled the most proteins including representatives from all classes of prenylated proteins. Functional analysis of these analogues demonstrated that C15AlkOPP was particularly well suited for biological studies since it was efficiently incorporated <i>in cellulo</i>, was able to confer correct plasma membrane localization of H-Ras protein and complement the effects of GGPP depletion in macrophages to yield correct cell polarization and filopodia. Collectively, these results indicate that C15AlkOPP is a biologically functional, universal probe for metabolic labeling experiments that has minimal effects on cellular physiology."],"journal":["Biochemistry"],"pubmed_title":["An Alkyne-Containing Isoprenoid Analogue Based on a Farnesyl Diphosphate Scaffold Is a Biologically Functional Universal Probe for Proteomic Analysis."],"pmcid":["PMC11706708"],"funding_grant_id":["R35GM141853","RF1 AG056976","T32GM132029","1447","T32AG029796","R01GM132606","R01 GM132606","R35 GM141853","RF1AG056976","T32 AG029796","T32 GM132029"],"pubmed_authors":["Pedersen JS","Auger SA","Koehn OJ","Krauklis SA","Williams CL","Justyna K","Sprague-Getsy AM","Maity S","Distefano MD","Thao P","Li L","Bernhagen K","Hougland JL","Lorimer EL","Berns B","Hussain J","Sundaresan AP","McKim DB","Murphy KM"],"additional_accession":[]},"is_claimable":false,"name":"An Alkyne-Containing Isoprenoid Analogue Based on a Farnesyl Diphosphate Scaffold Is a Biologically Functional Universal Probe for Proteomic Analysis.","description":"Prenylation consists of the modification of proteins with either farnesyl diphosphate (FPP) or geranylgeranyl diphosphate (GGPP) at a cysteine near the C-terminus of target proteins to generate thioether-linked lipidated proteins. In recent work, metabolic labeling with alkyne-containing isoprenoid analogues including C15AlkOPP has been used to identify prenylated proteins and track their levels in different diseases. Here, a systematic study of the impact of isoprenoid length on proteins labeled with these probes was performed. Chemical synthesis was used to generate two new analogues, C15hAlkOPP and C20AlkOPP, bringing the total number of compounds to eight used in this study. Enzyme kinetics performed <i>in vitro</i> combined with metabolic labeling <i>in cellulo</i>, resulted in the identification of 8 proteins for C10AlkOPP, 70 proteins for C15AlkOPP, 41 proteins for C15hAlkOPP, and 7 proteins for C20AlkOPP. While C10AlkOPP was the most selective for farnesylated proteins and C20AlkOPP was most selective for geranylgeranylated proteins, the number of proteins identified using those probes was relatively small. In contrast, C15AlkOPP labeled the most proteins including representatives from all classes of prenylated proteins. Functional analysis of these analogues demonstrated that C15AlkOPP was particularly well suited for biological studies since it was efficiently incorporated <i>in cellulo</i>, was able to confer correct plasma membrane localization of H-Ras protein and complement the effects of GGPP depletion in macrophages to yield correct cell polarization and filopodia. Collectively, these results indicate that C15AlkOPP is a biologically functional, universal probe for metabolic labeling experiments that has minimal effects on cellular physiology.","dates":{"release":"2025-01-01T00:00:00Z","publication":"2025 Jan","modification":"2026-06-16T03:10:38.1Z","creation":"2026-06-16T03:06:34.041Z"},"accession":"S-EPMC11706708","cross_references":{"pubmed":["39652878"],"doi":["10.1021/acs.biochem.4c00558"]}}