Abstract
When females mate with more than one male, the males' paternity share is affected by biases in sperm use. These competitive interactions occur while female and male molecules and cells work interdependently to optimize fertility, including modifying the female's physiology through interactions with male seminal fluid proteins (SFPs). Some modifications persist, indirectly benefiting later males. Indeed, rival males tailor their ejaculates accordingly. Here, we show that SFPs from one male can directly benefit a rival's sperm. We report that Sex Peptide (SP) that a female Drosophila receives from a male can bind sperm that she had stored from a previous male, and rescue the sperm utilization and fertility defects of an SP-deficient first-male. Other seminal proteins received in the first mating 'primed' the sperm (or the female) for this binding. Thus, SP from one male can directly benefit another, making SP a key molecule in inter-ejaculate interaction.
Highlights
In many animal species, females mate with more than one male
To test whether Sex Peptide (SP) from a second male can bind to SP-deficient sperm stored by mates of sperm in doubly mated females (SP-null) males, we first confirmed that no SP was detectable on sperm stored in females that had singly-mated to SP-null males (Fig 1A)
Sperm stored in seminal receptacles of females that had mated to SP-null males and subsequently remated to spermless males were dissected and probed for the presence of SP
Summary
Females mate with more than one male This polyandry lays the foundation for sperm competition, in which ejaculates from rival males compete for fertilization opportunities [1,2]. These conflicts and associated cryptic female choice can drive the evolution of male traits including optimal sperm numbers, morphology, and seminal protein sequences [3,4,5]. SFPs are produced within glandular tissues in the male reproductive tract and are transferred to females along with sperm during mating [6,7,8,9,10,11]. SFPs mediate an array of post-mating responses such as, in insects, changes in egg production, elevated feeding rates, higher activity or reduced sleep levels, long-term memory, activation of the immune system and reduced sexual receptivity [12,13,14,15,16,17,18]
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
