Abstract
During the development of multicellular organisms and cell differentiation, the chromatin structure in the cell nucleus undergoes extensive changes, and the nucleosome structure is formed by a combination of various histone variants. Histone variants with diverse posttranslational modifications are known to play crucial roles in different regulatory functions. We have previously reported that H3t, a testis-specific histone variant, is essential for spermatogenesis. To elucidate the function of this chromatin molecule in vivo, we generated knock-in mice with a FLAG tag attached to the carboxyl terminus of H3t. In the present study, we evaluated the utility of the generated knock-in mice and comprehensively analyzed posttranslational modifications of canonical H3 and H3t using mass spectrometry. Herein, we found that H3t-FLAG was incorporated into spermatogonia and meiotic cells in the testes, as evidenced by immunostaining of testicular tissue. According to the mass spectrometry analysis, the overall pattern of H3t-FLAG posttranslational modification was comparable to that of the control H3, while the relative abundances of certain specific modifications differed between H3t-FLAG and the control bulk H3. The generated knock-in mice could be valuable for analyzing the function of histone variants in vivo.