期刊论文详细信息
Asian Journal of Andrology
Human sperm chromatin epigenetic potential: genomics, proteomics, and male infertility
关键词: gene regulation;    Musashi;    Musashi-1;    Musashi-2;    posttranscriptional control;    RNA binding proteins;    spermatogenesis;    splicing;    testis;    translation;    cell fate;    cell stress;    importin;    karyopherin;    nucleocytoplasmic transport;    spermatid;    spermatocyte;    spermatogenesis;    artificial insemination;    biomarker;    fertility;    fertilization;    flow cytometry;    infertility;    nanotechnology;    oocyte activation;    Postacrosomal Sheath WWI Domain Binding Protein;    sperm;    SPTRX3;    thioredoxin;    ubiquitin;    ATP binding cassette transporters;    albumin;    high-density lipoprotein;    lipid rafts;    membrane fluidity;    membrane microdomains;    membrane packing;    oxysterols;    reverse cholesterol transport;    sterol transporters;    egg;    fertilization;    heat shock protein A2;    molecular chaperone;    sperm;    sperm-egg interactions;    dehydrogenases;    oxidases;    peroxiredoxins;    reactive oxygen species;    spermatozoa;    thiols;    thioredoxins;    antigen-presenting cells;    autoimmunity;    dendritic cells;    epididymis;    macrophages;    peripheral tolerance;    sperm maturation;    spermatozoa;    genomics;    male infertility;    proteomics;    sperm chromatin;    sperm epigenetics;   
DOI  :  10.4103/1008-682X.153302
来源: DOAJ
【 摘 要 】

The classical idea about the function of the mammalian sperm chromatin is that it serves to transmit a highly protected and transcriptionally inactive paternal genome, largely condensed by protamines, to the next generation. In addition, recent sperm chromatin genome-wide dissection studies indicate the presence of a differential distribution of the genes and repetitive sequences in the protamine-condensed and histone-condensed sperm chromatin domains, which could be potentially involved in regulatory roles after fertilization. Interestingly, recent proteomic studies have shown that sperm chromatin contains many additional proteins, in addition to the abundant histones and protamines, with specific modifications and chromatin affinity features which are also delivered to the oocyte. Both gene and protein signatures seem to be altered in infertile patients and, as such, are consistent with the potential involvement of the sperm chromatin landscape in early embryo development. This present work reviews the available information on the composition of the human sperm chromatin and its epigenetic potential, with a particular focus on recent results derived from high-throughput genomic and proteomic studies. As a complement, we provide experimental evidence for the detection of phosphorylations and acetylations in human protamine 1 using a mass spectrometry approach. The available data indicate that the sperm chromatin is much more complex than what it was previously thought, raising the possibility that it could also serve to transmit crucial paternal epigenetic information to the embryo.

【 授权许可】

Unknown   

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