The mature spermatozoon, a highly differentiated cell equipped for the sole purpose of fertilization, lacks the protein machinery required for conventional endocytotic mechanisms. Perhaps contrary to expectation, cell-penetrating peptides (CPPs) rapidly translocate across the unique sperm plasma membrane to accrete within distinct intracellular compartments. Confocal microscopy, employing red-fluorescent CPPs and bioportides, is a convenient platform to study this membrane translocation process. In the virtual absence of genetic expression, rapid physiological responses of human sperm are dependent upon protein-protein interactions that may be regulated by posttranslational modifications including phosphorylation. This chapter provides an outline of the design of bioactive CPPs, or bioportides, which include protein-mimetic sequences from the interaction domains of sperm proteins. Protocols are included which enable the biological assessment of the impact of bioportides upon the viability and motility of spermatozoa.
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