Indirect Sexual Selection Drives Rapid Sperm Protein Evolution

Abstract

AbstractSexual selection can explain rapid evolution of fertilization proteins, yet sperm proteins evolve rapidly even if they are not directly involved in fertilization. Here we demonstrate that FITZAP, an intrinsically disordered sperm protein in the marine mollusk abalone, exploits differences in the intracellular and oceanic ionic environments to package the fertilization protein lysin at extraordinary concentrations inside sperm by forming Fuzzy Interacting Transient Zwitterion (FITZ) complexes. FITZAP binds lysin at the same protein interface as its egg receptor VERL, and as sexual selection rapidly alters the lysin-VERL interface, FITZAP coevolves rapidly to maintain lysin binding. Consequently, FITZAP-lysin interactions exhibit a similar species-specificity as lysin-VERL interactions. Thus, tethered molecular arms races driven by sexual selection can generally explain rapid sperm protein evolution.One Sentence SummaryStructural study of sperm proteins reveals a novel protein packaging/dispersion system embedded in a coevolutionary arms race.