Sperm chromatin compaction is physiologically essential for sperm to acquire the fertility. However, this unique structure composed of protamines makes us unable to solubilize the chromatin due to its resistance to sonication and enzymes usually used for chromatin fragmentation in somatic cells. Even when intense enzymatic treatment is applied, it appears to solubilize only certain portions of sperm chromatin presumably because of the heterogeneous properties. To overcome this issue, we previously developed a method to treat the sperm with recombinant nucleoplasmin, a protamine remover in fertilized embryos, followed by sonication. The nucleoplasmin treatment dramatically increased the efficiency of sperm chromatin solubilization, while a relatively large amount of recombinant nucleoplasmin was required. Here, we describe an improvement of nucleoplasmin method with a less amount of recombinant protein and a shorter reaction time.
Keywords: Chromatin; Histone; Mouse; Nuclear decondensation; Nucleoplasmin; Solubilization; Sperm.
© 2023. The Author(s), under exclusive license to Springer Science+Business Media, LLC, part of Springer Nature.