Abstract
Nuclear remodeling to a condensed state is a hallmark of spermatogenesis. This is achieved by replacement of histones with protamines. Regions retaining nucleosomes may be of functional significance. To determine their potential roles, sperm from wild type and transgenic mice harboring a single copy insert of the human protamine cluster were subjected to Micrococcal Nuclease-seq. CENTIPEDE, a hierarchical Bayesian model, was used to identify multiple spatial patterns, "footprints", of MNase-seq reads along the sperm genome. Regions predicted by CENTIPEDE analysis to be bound by a regulatory factor in sperm were correlated with genomic landmarks and higher order chromatin structure datasets to identify potential roles for these factors in regulating either prior or post spermatogenic, i.e., early embryonic events. This approach linked robust endogenous protamine transcription and transgene suppression to its chromatin environment within topologically associated domains. Of the candidate enhancer-bound regulatory proteins, Ctcf, was associated with chromatin domain boundaries in testes and embryonic stem cells. The continuity of Ctcf binding through the murine germline may permit rapid reconstitution of chromatin organization following fertilization. This likely reflects its preparation for early zygotic genome activation and comparatively accelerated preimplantation embryonic development program observed in mouse as compared to human and bull.
Highlights
Spermatogenesis is characterized by a series of morphological changes resulting in a motile, haploid and highly condensed cell
DNAs were released from wild type and transgenic mouse sperm with either Micrococcal Nuclease (MNase) or DNA fragmentation factor (DFF)[15,16,17]
To assess the impact of this inserted human locus, MNase-seq coverage of specific regions of the mouse genome were correlated. Applying this approach to 20 kb regions centered on the endogenous mouse protamine locus, sequences flanking the site of transgene integration[14], or on randomly selected regions of equal length demonstrated that nuclease sensitivity within these regions was similar (ρ~ 0.68) across all samples (Fig. 1D)
Summary
Spermatogenesis is characterized by a series of morphological changes resulting in a motile, haploid and highly condensed cell. The susceptibility of the spermatozoon to enzymatic dissection was compared in sperm from wild type mice and a homozygous transgenic mouse model harboring a single copy insert of the human protamine locus This 40 kb sequence was stable over many generations and did not alter spermatogenesis or impact fertility[14]. Regions predicted to be bound by a regulatory factor in mature sperm were correlated with genomic landmarks and higher order chromatin structure datasets to identify potential roles for these factors in regulating either prior or post spermatogenic, i.e., early embryonic, events This analysis identified a series of candidate enhancer-bound regulatory proteins that as mediated by Ctcf-DNA looping are expected to contribute to the robust expression of the endogenous protamines. Interspecies comparison of nuclease footprints failed to identify the presence of Ctcf in either human or bull sperm strongly suggesting its role(s) following fertilization are likely species specific
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