Endogenous DNases as a Tool for Isolation of Nuclear Matrix: Critical Parameters of Nucleolysis

The degree of nucleolysis is of critical significance for isolation of nuclear matrix (NM) specifically enriched in transcribed DNA sequences, as demonstrated using an example of inactive (c-fos, c-myc, andC ) and active (p53, albumin, and28S rRNA) genes in resting hepatocytes. The optimal degree of nucleolysis is characterized by degradation of loop domains of chromatin, with the relatively uniform molecular weight distribution of DNA being preserved. Deviation from these parameters leads to nonspecific fragmentation of chromatin in various gene loci and isolation of NM samples nonspecifically enriched with or depleted of transcribed DNA sequences. Under optimal hydrolytic conditions, the transcribed chromatin is more resistant to endogenous DNase attack, which allows selective conservation of its association with the nuclear matrix     

Preferential in vitro binding of high mobility group proteins 14 and 17 to nucleosomes containing active and DNase I sensitive single-copy genes

High mobility group (HMG) proteins 14 and 17 bind to mononucleosomes in vitro, but the exact nature of this binding has not been clearly established. A new method was developed to allow direct membrane transfer of DNA from HMG 14/17 bound and unbound nucleosomes, which have been separated by acrylamide gel electrophoresis. Hybridization analysis of membranes obtained by this method revealed that the HMG 14/17 bound nucleosomes of avian erythrocytes and rat hepatic tumor (HTC) cells were enriched, about 2-fold, in actively transcribed genes and also inactive but DNase I sensitive genes. Nucleosomes containing inactive, DNase I resistant genes were bound by HMG 14/17, but not preferentially. Several factors that have been reported to greatly influence the binding of HMG 14/17 to nucleosomes in vitro were tested and shown to not account for the preferential binding to DNase I sensitive chromatin. These factors include nucleosomal linker DNA length, single-stranded DNA nicks, and DNA bulk hypomethylation. An additional factor, histone acetylation, was preferentially associated with the HMG 14/17 bound chromatin fraction of avian erythrocytes, but it was not associated with the HMG 14/17 bound chromatin fraction of metabolically active HTC cells. The latter finding was true for all kinetic forms of histone acetylation.     

Nuclease sensitivity of the mouse HPRT gene promoter region: differential sensitivity on the active and inactive X chromosomes.

We investigated the conformation of the X-linked mouse hypoxanthine-guanine phosphoribosyltransferase gene (HPRT) promoter region both in chromatin from the active and inactive X chromosomes with DNase I and in naked supercoiled DNA with S1 nuclease. A direct comparison of the chromatin structures of the active and inactive mouse HPRT promoter regions was performed by simultaneous DNase I treatment of the active and inactive X chromosomes in the nucleus of interspecies hybrid cells from Mus musculus and Mus caroli. Using a restriction fragment length polymorphism to distinguish between the active and inactive HPRT promoters, we found a small but very distinct difference in the DNase I sensitivity of active versus inactive chromatin. We also observed a single DNase I-hypersensitive site in the immediate area of the promoter which was present only on the active X chromosome. Analysis of the promoter region by S1 nuclease digestion of supercoiled plasmid DNA showed an S1-sensitive site which maps adjacent to or within the DNase I-hypersensitive site found in chromatin but upstream of the region minimally required for normal HPRT gene expression.     

Chromatin accessibility shapes meiotic recombination in mouse primordial germ cells through assisting double-strand breaks and loop formation

Meiotic recombination is a driver of evolution, and aberrant recombination is a major contributor to aneuploidy in mammals. Mechanism of recombination remains elusive yet. Here, we present a computational analysis to explore recombination-related dynamics of chromatin accessibility in mouse primordial germ cells (PGCs). Our data reveals that: (1) recombination hotspots which get accessible at meiosis-specific DNase I-hypersensitive sites (DHSs) only when PGCs enter meiosis are located preferentially in intronic and distal intergenic regions; (2) stable DHSs maintained stably across PGC differentiation are enriched by CTCF motifs and CTCF binding and mediate chromatin loop formation; (3) compared with the specific DHSs aroused at meiotic stage, stable DHSs are largely encoded in DNA sequence and also enriched by epigenetic marks; (4) PRDM9 is likely to target nucleosome-occupied hotspot regions and remodels local chromatin structure to make them accessible for recombination machinery; and (5) cells undergoing meiotic recombination are deficient in TAD structure and chromatin loop arrays are organized regularly along the axis formed between homologous chromosomes. Taken together, by analyzing DHS-related DNA features, epigenetic marks and 3D genome structure, we revealed some specific roles of chromatin accessibility in recombination, which would expand our understanding of recombination mechanism.     

Affinity isolation of active murine erythroleukemia cell chromatin: uniform distribution of ubiquitinated histone H2A between active and inactive fractions.

This laboratory recently reported the development of a biotin-cellulose/streptavidin affinity chromatography method based on the DNase I sensitivity of active chromatin to isolate a DNA fraction from murine erythroleukemia (MEL) cells that is more than 15-fold enriched in active genes (Dawson et al.: Journal of Biological Chemistry 264:12830-12837, 1989). We now report the extension of this technique to isolate and characterize chromatin that is enriched in active genes. In this approach, DNA in nuclei isolated from MEL cells was nicked with DNase I at a concentration that does not digest the active beta-globin gene, followed by repair of the nicks with a cleavable biotinylated nucleotide analog, 5-[(N-biotin-amido)hexanoamido-ethyl-1,3'-dithiopropionyl-3- aminoallyl]-2'- deoxyuridine 5'-triphosphate (Bio-19-SS-dUTP), during a nick-translation reaction. After shearing and sonication of the nuclei to solubilize chromatin, chromatin fragments containing biotin were separated from non-biotinylated fragments by sequential binding to streptavidin and biotin cellulose. The bound complex contained approximately 10% of the bulk DNA. Reduction of the disulfide bond in the biotinylated nucleotide eluted approximately one-half of the affinity isolated chromatin. Hybridization analysis of DNA revealed that whereas inactive albumin sequences were equally distributed among the chromatin fractions, virtually all of the active beta-globin sequences were associated with chromatin fragments which had bound to the affinity complex. Western blot assessment for ubiquitinate histones revealed that ubiquitinated histone H2A (uH2A) was uniformly distributed among active (bound) and inactive (unbound) chromatin fractions.     

The release of high mobility group protein H6 and protamine gene sequences upon selective DNase I degradation of trout testis chromatin.

Limited digestion of trout testis nuclei with DNase I selectively degrades the protamine genes. Concomitant with the degradation of transcribed DNA sequences a series of chromosomal proteins are released; among these, the major species corresponds to the high mobility group protein H6. The amounts of H6 released from chromatin by limited DNase I action and that in the residual nuclear pellet have been determined. A very high proportion of H6 is associated with DNase I sensitive chromatin regions.     

RNA促进小鼠重组染色质白蛋白基因DNaseⅠ消化敏感性

同样的基因在不同的分化细胞中表达不同,基因的选择性表达问题涉及分化和衰老的本质。转录基因对DNaseⅠ(DNA酶Ⅰ)消化敏感,本文研究了RNA对小鼠重组染色质白蛋白基因DNaseⅠ消化敏感性的影响。分离BALB/c小鼠脑细胞核,加入终浓度为2mol/L的NaCl破坏核小体结构,加入不同量、不同来源的RNA,装透析袋,逐渐降低离子强度进行染色质重组。重组染色质中加入DNaseⅠ消化DNA,PCR扩增白蛋白基因的外显子1到外显子2约1200bp区段,PAGE电泳后,用银染色观察不同来源RNA促进DNaseⅠ对白蛋白基因的消化作用。不同组织来源（肝、肺、肾、脑）RNA对小鼠重组染色质中白蛋白基因DNaseⅠ消化敏感性均有促进作用,其中肝和肺RNA促进消化作用较强;酵母tRNA无显著促进消化作用;消化促进作用与RNA剂量有关。RNA能增加DNaseⅠ对白蛋白基因的消化敏感性且有组织（细胞）来源特异性。又委托丹麦Chemical R D 实验室合成2条与白蛋白基因互补的各23核苷酸的RNA,用其进行重组试验。结果表明,重组混合物中含有低至0.2μg/mL的RNA,即可以发挥显著的DNase I消化促进作用。     

Localization of antigens in the chromatin of normal rat liver cells, not detectable in hepatoma chromatin

Antibodies against rat liver chromatin interact with homologous chromatin as well as with chromatin of Zajdela ascite hepatoma and solid hepatoma 27, but not with the nuclear matrix isolated from these hepatomas. Rat liver chromatin regions hypersensitive to DNAase I and endogenous Mg2+-dependent nuclease are enriched with immunogenic nonhistone proteins. Using antiliver IgG pretreated with chromatin of Zajdela ascite hepatoma and solid hepatoma 27, it was shown that liver chromatin antigens that are not detectable in hepatoma cells are localized in hypersensitive to nucleases chromatin regions buy not in actively transcribed ones.