A systematic approach to study protein-substrate specificity enables the identification of Ssh1 substrate range

Abstract

AbstractMany cellular functions are carried out by protein pairs, or families, providing robustness alongside functional diversity. For such processes, it remains a challenge to map the degree of specificity versus promiscuity. Protein-protein interactions (PPIs) can be used to inform on these matters as they highlight cellular locals, regulation and, in cases where proteins affect other proteins – substrate range. However, methods to study transient PPIs systematically are underutilized. In this study we create a novel approach to study stable as well as transient PPIs in yeast. Our approach, Cel-lctiv (CELlular biotin-Ligation for Capturing Transient Interactions in Vivo), uses high- throughput pairwise proximity biotin ligation for uncovering PPIs systematically and in vivo. As a proof of concept we study the homologous translocation pores Sec61 and Ssh1. We show how Cel-lctiv can uncover the unique substrate range for each translocon allowing us to pinpoint a specificity determinator driving interaction preference. More generally this demonstrates how CEl-lctiv can provide direct information on substrate specificity even for highly homologous proteins.