Chromatin structure of histone genes in sea urchin sperms and embryos.

机译：海胆精子和胚胎中组蛋白基因的染色质结构。

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The nucleosomal organization of active and repressed alpha subtype histone genes has been investigated by micrococcal nuclease digestion of P. lividus sperm, 32-64 cell embryo and mesenchyme blastula nuclei, followed by hybridization with 32P-labeled specific DNA probes. In sperms, fully repressed histone genes are regularly folded in nucleosomes, and exhibit a greater resistance to micrococcal nuclease cleavage than bulk chromatin. In contrast, both coding and spacer alpha subtype histone DNA sequences acquire an altered conformation in nuclei from early cleavage stage embryos, i.e., when these genes are maximally expressed. Switching off of the alpha subtype histone genes, in mesenchyme blastulae, restores the typical nucleosomal organization on this chromatin region. As probed by hybridization to D.melanogaster actin cDNA, actin genes retain a regular nucleosomal structure in all the investigated stages.

机译：已通过微球菌核酸酶消化青枯菌精子，32-64细胞胚和间质囊胚核，然后与32P标记的特异性DNA探针杂交，研究了活性和受抑制的alpha亚型组蛋白基因的核小体组织。在精子中，被完全抑制的组蛋白基因在核小体中规则折叠，并且比散装染色质对微球菌核酸酶切割表现出更大的抵抗力。相反，编码和间隔子α亚型组蛋白DNA序列都从早期卵裂期胚胎（即，当这些基因被最大表达时）获得改变的核构象。关闭间充质囊中的α亚型组蛋白基因，可以恢复该染色质区域上的典型核小体组织。通过与D.melanogaster肌动蛋白cDNA杂交检测，肌动蛋白基因在所有研究阶段均保持规则的核小体结构。

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期刊名称 Nucleic Acids Research
作者
G Spinelli; I Albanese; L Anello; M Ciaccio; I Di Liegro;
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作者单位

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年(卷),期 1982(10),24
年度 1982
页码 7977–7991
总页数 15
原文格式 PDF
正文语种
中图分类分子生物学;
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专利

1. Nucleosomal structure of sea urchin and starfish sperm chromatin. Histone H2B is possibly involved in determining the length of linker DNA [J] . A.O. Zalensky, I.A. Zalenskaya, V.A. Pospelov, Nucleic acids research . 1981,第3期

机译：海胆和海星精子染色质的核仁结构。组蛋白H2B可能与确定接头DNA的长度有关
2. Transient alterations of the chromatin structure of sea urchin early histone genes during embryogenesis [J] . Robert T. Simpson, Tzu-Chen Wu Nucleic acids research . 1985,第17期

机译：胚胎发生过程中海胆早期组蛋白基因染色质结构的瞬时变化
3. Chromatin structure of the developmentally regulated early histone genes of the sea urchin Strongylocentrotus purpuratus [J] . Graeme A. Tank, Jan Fronk, John P. Langmore Nucleic acids research . 1990,第17期

机译：海胆Strongylocentrotus purpuratus的发育受调控的早期组蛋白基因的染色质结构
4. Role of the structural domains of linker histones and histone H3 in the chromatin fiber structure at low-ionic strength: scanning force microscopy (SFM) studies on partially trypsinized chromatin [C] . Jordanka Zlatanova, Oregon State Univ., Institute of Genetics (Bulgari a), Scanning Probe Microscopies III . 1995

机译：低离子强度下连接蛋白组蛋白和组蛋白H3在染色质纤维结构中的结构域的作用：部分胰蛋白酶消化的染色质的扫描力显微镜（SFM）研究
5. A DNA delivery system using sea urchin sperm specific histone H1 for DNA vaccine development and gene therapy. [D] . Okoroukwu, Odilia. 2009

机译：使用海胆精子特异组蛋白H1进行DNA疫苗开发和基因治疗的DNA传递系统。
6. Nucleosomal structure of sea urchin and starfish sperm chromatin. Histone H2B is possibly involved in determining the length of linker DNA. [O] . I A Zalenskaya, V A Pospelov, A O Zalensky, 1981

机译：海胆和海星精子染色质的核仁结构。组蛋白H2B可能与确定接头DNA的长度有关。
7. Chromatin structure of histone genes in sea urchin sperms and embryos. [O] . Spinelli, G, Albanese, I, Anello, L, 1982

机译：海胆精子和胚胎中组蛋白基因的染色质结构。

Chromatin structure of histone genes in sea urchin sperms and embryos.

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