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Methods Mol Biol

Title:		A Quantitative FRET Assay for the Upstream Cleavage Activity of the Integral Membrane Proteases Human ZMPSTE24 and Yeast Ste24
Author(s):		Hsu ET; Vervacke JS; Distefano MD; Hrycyna CA;
Address:		"Department of Chemistry, Purdue University, West Lafayette, IN, USA. Department of Chemistry, University of Minnesota, Minneapolis, MN, USA. Department of Chemistry, Purdue University, West Lafayette, IN, USA. hrycyna@purdue.edu"
Journal Title:		Methods Mol Biol
Year:		2019
Volume:		2009
Issue:
Page Number:		279 - 293
DOI:		10.1007/978-1-4939-9532-5_21
ISSN/ISBN:		1940-6029 (Electronic) 1064-3745 (Linking)
Abstract:		"The integral membrane protease ZMPSTE24 plays an important role in the lamin A maturation pathway. ZMPSTE24 is the only known enzyme to cleave the last 15 residues from the C-terminus of prelamin A, including a farnesylated and carboxyl methylated cysteine. Mutations in ZMPSTE24 lead to progeroid diseases with abnormal prelamin A accumulation in the nucleus. Ste24 is the yeast functional homolog of ZMPSTE24 and similarly cleaves the a-factor pheromone precursor during its posttranslational maturation. To complement established qualitative techniques used to detect the upstream enzymatic cleavage by ZMPSTE24 and Ste24, including gel-shift assays and mass spectrometry analyses, we developed an enzymatic in vitro FRET-based assay to quantitatively measure the upstream cleavage activities of these two enzymes. This assay uses either purified enzyme or enzyme in crude membrane preparations and a 33-amino acid a-factor analog peptide that is a substrate for both Ste24 and ZMPSTE24. This peptide contains a fluorophore (2-aminobenzoic acid-Abz) at its N-terminus and a quencher moiety (dinitrophenol-DNP) positioned four residues downstream from the cleavage site. Upon cleavage, a fluorescent signal is generated in real time at 420 nm that is proportional to cleavage of the peptide and these kinetic data are used to quantify activity. This assay should provide a useful tool for kinetic analysis and for studying the catalytic mechanism of both ZMPSTE24 and Ste24"
Keywords:		*Fluorescence Resonance Energy Transfer Humans Membrane Proteins/*chemistry/genetics Metalloendopeptidases/*chemistry/genetics Recombinant Proteins/chemistry/genetics Saccharomyces cerevisiae/*enzymology/genetics Saccharomyces cerevisiae Proteins/*chemist;
Notes:		"MedlineHsu, Erh-Ting Vervacke, Jeffrey S Distefano, Mark D Hrycyna, Christine A eng 2019/06/04 Methods Mol Biol. 2019; 2009:279-293. doi: 10.1007/978-1-4939-9532-5_21"