A new study that centered on the swimming behavior of sperm cells is the first to establish a direct effect of mutation on sperm behavior. It suggests that the development and application of screens based on sperm behavior can improve the quality of the genetics they carry.
Research offers additional insights into the reproductive process.
A team of scientists has discovered that the behavior of sperm cells is due, in part, to the individual DNADNA, or deoxyribonucleic acid, is a molecule composed of two long strands of nucleotides that coil around each other to form a double helix. It is the hereditary material in humans and almost all other organisms that carries genetic instructions for development, functioning, growth, and reproduction. Nearly every cell in a person’s body has the same DNA. Most DNA is located in the cell nucleus (where it is called nuclear DNA), but a small amount of DNA can also be found in the mitochondria (where it is called mitochondrial DNA or mtDNA).” data-gt-translate-attributes=”[{“attribute”:”data-cmtooltip”, “format”:”html”}]”>DNA makeup of these cells, rather than only the genetics of males. These results, which provide a new understanding of the competition among sperm cells to fertilize the egg, have larger implications for the reproductive process.
The study, which centers on the swimming behavior of sperm cells, is the first to establish a direct effect of mutation on sperm behavior and suggests that the development and application of screens based on sperm behavior can improve the quality of the genetics they carry.
Male Astyanax mexicanus (blind cave fish). Credit: Richard Borowsky, New York University
“Until now, the predominant view was that this variation in swimming behavior reflected the overall genetics of the male rather than the variable genetics of the individual sperm cells,” explains Richard Borowsky, a professor emeritus in NYU’s Department of Biology and the senior author of the paper, which will be published today (November 11) in the journal Scientific Reports. “This study is the first to demonstrate that genetic differences can directly affect the swimming behavior of sperm cells.”
This fuller grasp, he adds, may offer additional knowledge on the impact of abnormal sperm cells on offspring, notably birth defects.
The work, which included Haining Chen, an NYU graduate student at the time of the study and now at Westlake University in Hangzhou, China, focused on sperm cells in male fish—specifically Astyanax mexicanus cave fish. It compared the sperm cells in normal fish with those of fish whose sperm production had been artificially mutated. This allowed the scientists to identify behavioral and morphological characteristics potentially altering the sperm’s chances in the race to fertilize the egg.
Paths of individual swimming sperm over a one-second interval, illustrating the great variation among individual sperm in swimming velocity and curvature. Credit: Richard Borowsky, New York University
Their results showed no difference in flagellar length— the hair-like appendage that propels them as they swim toward the egg—between the normal and mutated samples. However, there was greater variability in the velocity, or swimming speed, of the mutated samples compared to the normal ones—meaning that in many instances, the mutated samples swam at lower and faster speeds than the normal ones did. Overall, while both types of sperm cells appeared similar, their behaviors are quite different and at crucial stages.
The findings offer additional insights into the nature of reproduction.
It’s been long established that sperm from different males vary in their characteristics because of the genetic differences between the males. This study established that different sperm from the same male vary in their characteristics because they differ in their genetic cargo.
Reference: “Mutagenesis alters sperm swimming velocity in Astyanax cave fish” 11 November 2022, Scientific Reports.
DOI: 10.1038/s41598-022-22486-5
Source: SciTechDaily
