Abstract
Many 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 systematically study transient PPIs are underutilized. In this study, we create a novel approach to systematically compare stable or transient PPIs between two yeast proteins. Our approach, Cel-lctiv (CELlular biotin-Ligation for Capturing Transient Interactions in vivo), uses high-throughput pairwise proximity biotin ligation for comparing PPIs systematically and in vivo. As a proof of concept, we studied 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.