Differential rRNA Genes Expression in Hexaploid Wheat Related to NOR Methylation

Ribosomal RNA genes expression was analysed in 18 Portuguese bread wheat accessions (Triticum aestivum L. em Thell.), and the number of argyrophilic-nucleolar organiser regions (Ag-NORs) per cultivar was scored. Ten accessions presented six Ag-NORs per metaphase and six nucleoli per interphase, and eight accessions presented four Ag-NORs per metaphase and four nucleoli per interphase. Fluorescent in situ hybridisation with the 45S rDNA sequence pTa71 and genomic DNA from Aegilops tauschii (2n = 2x= 14, DD) confirmed the Ag-NOR location and identified the six satellited chromosomes as being the chromosome pairs 1B, 6B and 5D. The methylation pattern of the NOR region was studied by Southern blot using pTa71 as probe, which represented a complete rDNA unit of bread wheat. DNA digestions performed by MspI and HpaII resulted in different patterns revealing the high level of cytosine methylation at their recognition sequences. The total percentage values of NOR methylation indicated that wheat accessions with a maximum of four Ag-NORs were more heavily methylated at the NOR region than accessions with a maximum of six Ag-NORs.     

Population differences in the expression of nucleolus organizer regions in the grasshopperEyprepocnemis plorans

Summary Fluorescence in situ hybridization revealed the presence of ribosomal RNA genes in paracentromeric regions of all A chromosomes and in the distal half of B chromosomes in embryonic cells from Moroccan specimens of the grasshopperEyprepocnemis plorans. The expression of these genes was monitored by the presence of nucleoli attached to each chromosome bivalent in diplotene cells from males collected from two different Moroccan populations and was compared to previous data of Spanish populations. Whereas only the nucleolus organizer regions (NORs) on S₉–S₁₁ and X chromosomes were active in the Spanish specimens. Moroccan individuals showed NOR activity in all chromosomes. The rRNA genes on the B chromosome were inactive in both populations. The S₉ and S₁₀ NORs were less active in Moroccan specimens than in Spanish specimen, which might be partly explained by the negative interdependence for expression of the S₁₀ NOR with respect to those on L₂ and X chromosomes. On the other hand, the X NOR was more active in Moroccan specimens than in Spanish specimens, and this might be partly due to the positive effect that the presence of B chromosomes has on the expression of this NOR. The implications of these observations on current models of NOR activity regulation are discussed.Abbreviation NOR nucleolus organizer region     

Activation of the Inactive X Chromosome Induced by Cell Fusion between a Murine EC and Female Somatic Cell Accompanies Reproducible Changes in the Methylation Pattern of theXistGene

Mouse embryonal carcinoma (EC) cell lines are divided into two classes with or without the capability of reactivating the inactive X chromosome from a fusion partner of female lymphocyte. The 5′ region ofXistwas partially methylated in reactivating-competent EC cells but was fully methylated in reactivating-incompetent EC cells having a single X chromosome. Partial or heterogeneous methylation implies methylation of each CpG site in about half of the cell independently of methylation status of neighboring CpG sites. Fusion of the reactivating-competent EC cells with female lymphocytes induced not onlyde novomethylation in the 5′ region ofXistallele on the hitherto inactivated X chromosome, but also demethylation of the same region ofXiston the other X chromosome from the female somatic cell. In contrast, no such changes occurred in hybrid cells involving reactivating-incompetent EC cells. Thus, partial methylation of the 5′ region ofXistmost probably maintained by low maintenance and highde novomethylation efficiency is correlated with reactivation potential of the EC cell. It is possible that this unique methylation pattern is implicated in random X inactivation in EC-hybrid cellsin vitroand in epiblast cellsin vivo.     

NOR Sites Detected by Ag-DAPI Staining of an Unusual Autosome Chromosome of Bradysia Hygida (Diptera:Sciaridae) Colocalize with C-banded Heterochromatic Region

The study of chromosomes in insects is a good tool in mitotic process analysis, zoographic localization and evolution investigation. Among them, the Sciaridae offers a karyotype with a small number of chromosomes, where the heterochromatin and nucleolar organizer region, NOR, are easily analyzed in metaphase chromosomes obtained from cerebral ganglia squashes. In this work, the heterochromatic regions on Bradysia hygida mitotic chromosomes, revealed by C-banding, were identified as centromeric blocks on A and C chromosomes and as dark interstitial region in B and X chromosomes. By Ag-DAPI staining, active nucleolus organizer region, NOR, was revealed associated to the constitutive heterochromatin in the end of the C autosome chromosome. The C-band regions and the unusual ribosomal site localization are discussed.     

Expression of ribosomal genes under the action of 5-azacytidine in the African green monkey RAMT cell line

The use of cytosine analogue--5-Azacytidine(5AzaC), derepression of ribosomal genes has been studied in one of organising chromosomes in the African green monkey RAMT cell line in which the nucleolar organizer region (NOR) in parental cells was active. The effect of 5AzaC on the functional state of NOR was assessed by the length of the secondary constriction in this chromosome and by the intensity of Ag-staining of NOR. 5AzaC was added to the cell culture at concentrations 2-16 M, either immediately after the cell passage or at the 24th h from the beginning of cell cultivation for the following 17-34 hours. As a control the cells cultivated in the absence of 5AzaC were used. Comparison of control cells with those treated with 5AzaC showed: 1) increase of the length of the second constriction in the chromosome with the initial inactive NOR in the 5AzaC--treated cells; 2) a marked increase of the intensity of NOR's Ag-staining in the same chromosome after incorporation of 5-AzaC into DNA. The conclusion about the methylation of cytosine bases in the DNA of ribosomal genes in one NOR organising chromosomes in RAMT cell line was made.     

A novel imprinted transgene located near a repetitive element that exhibits allelic imbalance in DNA methylation during early development

A mouse line carrying a lacZ transgene driven by the human EEF1A1/EF1alpha promoter was established. Although the promoter is known to show ubiquitous activity, only paternal transgene alleles were expressed, resulting in a transgene imprinting. At mid‐gestation, the promoter sequence was differentially methylated, hypomethylated for paternal and hypermethylated for maternal alleles. In germline, the promoter was a typical differentially methylated region. After fertilization, however, both alleles were hypermethylated. Thus, the differential methylation of the promoter required for transgene imprinting was re‐established during later embryonic development independently of the germline differential methylation. Furthermore, also a retroelement promoter closely‐flanking imprinted transgene and its wild type counterpart displayed similar differential methylation during early development. The retroelement promoter was methylated differentially also in germline, but in an opposite pattern to the embryonic differential methylation. These results suggest that there might be an unknown epigenetic regulation inducing transgene imprinting independently of DNA methylation in the transgene insertion site. Then, besides CpG dinucleotides, non‐CpG cytosines of the retroelement promoter were highly methylated especially in the transgene‐active mid‐gestational embryos, suggesting that an unusual epigenetic regulation might protect the active transgene against de novo methylation occurring generally in mid‐gestational embryo.     

Visualization of mitotic chromosomes in filamentous fungi by fluorescence staining and fluorescence in situ hybridization

Mitotic chromosomes of the plant pathogenic filamentous fungi Botrytis cinerea and Alternaria alternata were observed. Chromosomes prepared by the germ tube burst method were stained with the fluorescent dye 4,6-diamidino-2-phenylindole (DAPI) to yield figures with good resolution. Using this method, component chromosomes were clearly distinguished and the chromosome number could be determined. Fluorescence in situ hybridization (FISH) was also successfully applied to the specimens, revealing one ribosomal RNA gene cluster, or nucleolus organizer region (NOR) in the genome of each fungus. A long attenuated chromatid thread expanding from a condensed metaphase chromosome, which had been called a thread-like structure in B. cinerea, was proved to be an NOR. This is the first report of the successful application of FISH to the chromosomes of filamentous fungi.     

Chronic social stress induces DNA methylation changes at an evolutionary conserved intergenic region in chromosome X

Chronic stress resulting from prolonged exposure to negative life events increases the risk of mood and anxiety disorders. Although chronic stress can change gene expression relevant for behavior, molecular regulators of this change have not been fully determined. One process that could play a role is DNA methylation, an epigenetic process whereby a methyl group is added onto nucleotides, predominantly cytosine in the CpG context, and which can be induced by chronic stress. It is unknown to what extent chronic social defeat, a model of human social stress, influences DNA methylation patterns across the genome. Our study addressed this question by using a targeted-capture approach called Methyl-Seq to investigate DNA methylation patterns of the dentate gyrus at putative regulatory regions across the mouse genome from mice exposed to 14 days of social defeat. Findings were replicated in independent cohorts by bisulfite-pyrosequencing. Two differentially methylated regions (DMRs) were identified. One DMR was located at intron 9 of Drosha, and it showed reduced methylation in stressed mice. This observation replicated in one of two independent cohorts. A second DMR was identified at an intergenic region of chromosome X, and methylation in this region was increased in stressed mice. This methylation difference replicated in two independent cohorts and in Major Depressive Disorder (MDD) postmortem brains. These results highlight a region not previously known to be differentially methylated by chronic social defeat stress and which may be involved in MDD.     

Studies on the effects of a flanking repetitive sequence on the expression of single-copy transgenes in Nicotiana sylvestris and in N. sylvestris-N. tomentosiformis hybrids

To test the influence of a Nicotiana tomentosiformis repetitive sequence (R8.3) on transgene expression in N. sylvestris and in N. sylvestris-N. tomentosiformis hybrids, the R8.3 sequence was placed upstream of a nopaline synthase promoter (NOSpro)-NPTII reporter gene in a T-DNA construct. A number of transgenic N. sylvestris lines were produced and in most, the NPTII gene was expressed. In one line, however, the NPTII gene became silenced and methylated in the NOSpro region. The silenced locus was able to trans-inactivate and induce methylation of two stably expressed transgene loci comprising a similar construct. Nucleotide sequence analyses of the three transgene loci revealed that they each contained a single incomplete copy of the T-DNA, which had sustained deletions of varying sizes in the R8.3 region. Paradoxically, the R8.3 DNA upstream of the two active, unmethylated NOSpro-NPTII genes was highly methylated, whereas the R8.3 DNA upstream of the silenced, methylated NOSpro-NPTII gene was less methylated. The methylated portions of the R8.3 sequence corresponded to retroelement remnants. An active NOSpro-NPTII gene downstream of a nearly intact R8.3 sequence did not become methylated in N. sylvestris-N. tomentosiformis hybrids. Thus, methylation in the R8.3 sequence did not spread into adjoining transgene promoters and the effect of the R8.3 dispersed repeat family on transgene expression was negligible. The silencing phenomena observed with the three single-copy transgene loci are discussed in the context of other possible triggers of silencing.     

Comparative analysis of rDNA location in five Neotropical gomphocerine grasshopper species

We report here, for the first time, the chromosome complement, number and location of the nucleolar organizer regions (NORs) revealed by silver staining (AgNO₃) and fluorescent in situ hybridization (FISH) in five Neotropical gomphocerine species: Rhammatocerus brasiliensis, R. brunneri, R. palustris, R. pictus and Amblytropidia sp. The objective of this study was to summarize available data and propose a model of chromosome evolution in Neotropical gomphocerines. All five species studied showed chromosome numbers consisting of 2n = 23,X0 in males and 2n = 24,XX in females. Amblytropidia sp. was the only species showing a bivalent (M₈) with megameric behavior during meiosis. The rDNA sites were restricted to autosomal pairs, i.e. the pericentromeric region of the S₉ chromosome, the consensus NOR location in all five species. R. brasiliensis was the only species showing additional NORs on M₄ and M₆ pairs which, likewise the S₉ NOR, were active in all cells analyzed. Comparison of these results with those reported previously in Palearctic gomphocerine species suggests higher resemblance of Neotropical species with the Old World species also possessing 23/24 chromosomes. Evolutionary mechanisms responsible for the observed interspecific variation in NOR location in this group are discussed.     

Active X chromosome DNA is unmethylated at eight CCGG sites clustered in a guanine-plus-cytosine-rich island at the 5'' end of the gene for phosphoglycerate kinase.

The 5' control region and first exon for human X-chromosome-linked phosphoglycerate kinase is contained in a G + C-rich island. We measured methylation at all HpaII sites in this 5' region of leukocyte DNA. By use of a blotting procedure that allows analysis of small DNA fragments, we found that the HpaII sites are entirely methylated when from an inactive X chromosome and entirely unmethylated when from an active one. In contrast, methylation of HpaII sites in more downstream regions of the gene is essentially the same in active and inactive X chromosomes.     

Gender specific differences in levels of DNA methylation at selected loci from human total blood: a tendency toward higher methylation levels in males

Abnormal patterns of DNA methylation are observed in many diseases such as tumors and imprinting disorders. Little is known about inter-individual and gender specific variations. Here, we report on accurate and sensitive quantitative measurements of methylation in DNA from total blood in 96 healthy human males and 96 healthy human females. Global methylation was estimated by studying two repetitive DNA elements, namely Line-1 and Alu repeats, while single loci were investigated for three differentially methylated regions (DMRs) at PEG3, NESP55 and H19 imprinted genes and two additional loci at Xq28 (F8 gene) and at 19q13.4 (locus between PEG3 and ubiquitin specific protease 29). We observed inter-individual correlations in the degree of methylation between Alu and Line-1 repeats. Moreover, all studied CpGs showed slightly higher methylation in males (P < 0.0003–0.0381), with the exception of DMRs at imprinted genes (P = 0.0342–0.9616) which were almost equally methylated in both sexes with only a small tendency towards higher methylation in males. This observed difference could be due to the process of X chromosome inactivation or merely to the presence of an additional X chromosome in female cells or could be a result of downstream effects of sex determination. Electronic supplementary material The online version of this article (doi:) contains supplementary material, which is available to authorized users.     

Quantitative analysis of NOR expression in a B chromosome of the grasshopper <Emphasis Type="Italic">Eyprepocnemi</Emphasis>s <Emphasis Type="Italic">ploran</Emphasis>s

The B₂₄ chromosome in the Torrox population of the grasshopper Eyprepocnemis plorans is recurrently attached to a nucleolus in diplotene cells, indicating the activity of its distally located ribosomal DNA (rDNA). The frequency of males expressing the B chromosome nucleolus organizer region (B-NOR) almost doubled in 4 years. The likelihood of expressing the B-NOR increased with the B number and, in males expressing it, about 20% of their cells showed a nucleolus attached to the B. When active, the B-NOR contributed more than 25% of total cell nucleolar area (NA). Within males expressing the B-NOR, total cell NA did not differ between cells showing the active or inactive B-NOR, suggesting that total cell NA is tightly regulated in this species. However, this parameter tended to increase in this population from 1999 to 2004, in parallel to the neutralization process which is taking place in this population. Finally, an analysis of A chromosome NOR interdependence for activity revealed a positive correlation among autosomes but a negative correlation between autosomes and the X chromosome, the manifestation of which depends on B-NOR activity. These results are discussed in the context of the nucleolus as a sensor of the stress caused by parasitic B chromosomes.     

MPTP诱导的帕金森病小鼠模型黑质脑组织DNA甲基化研究

为研究DNA甲基化在帕金森病发病机制中的作用,本研究用环境毒素1-甲基-4-苯基-1,2,3,6-四氢吡啶(MPTP)连续腹腔给药诱导小鼠帕金森病(Parkison's disease,PD)模型,应用ELISA检测小鼠黑质脑组织总体甲基化水平,应用实时荧光定量PCR方法检测DNA甲基转移酶表达水平,探讨MPTP诱导的小鼠PD模型黑质部位是否存在DNA甲基化异常.进一步应用甲基化DNA免疫共沉淀结合DNA甲基化芯片方法,构建MPTP诱导的小鼠PD模型黑质脑组织DNA甲基化谱,并寻找DNA甲基化修饰异常的PD相关基因对其进行验证.结果表明,模型组小鼠黑质脑组织DNA总体甲基化水平较对照组显著降低,Dnmt1的表达水平显著增高.利用DNA甲基化芯片在全基因组内筛选出甲基化差异修饰位点共48个,涉及44个基因,这些甲基化差异基因参与信号转导、分子转运、转录调控、发育、细胞分化、凋亡调控、氧化应激、蛋白质降解等生物学过程.在甲基化差异修饰基因中,对Uchl1基因及Arih2基因进行了甲基化水平以及表达水平的验证.结果表明,模型组小鼠黑质脑组织Uchl1启动子区域甲基化水平较对照组增高,m RNA及蛋白质表达水平降低,Arih2启动子区域甲基化水平较对照组降低,m RNA及蛋白质表达水平增高.实验结果进一步证实,DNA甲基化修饰异常在帕金森病发病机制中有重要作用,环境因素(如MPTP)可以通过改变DNA甲基化修饰参与帕金森病的发生发展.     

Changes in NOR activity pattern in the presence of supernumerary heterochromatin in the grasshopper Eyprepocnemis plorans

Nucleolus organizer region (NOR) activity was analysed in four types of males of the grasshopper Eyprepocnemis plorans, possessing two kinds of supernumerary heterochromatin: a B chromosome and a supernumerary chromosome segment proximally located on the smallest autosome (S11). In males lacking extra heterochromatin, the four active NORs located on the S9, S10, S11, and X chromosomes showed independent activity patterns, but several kinds of dependence appeared in the presence of supernumerary heterochromatin. Furthermore, temporal changes in NOR activity were observed during the first 2 weeks of adult life in standard males but not in males carrying supernumerary heterochromatin. It is suggested that all these effects are related to the DNA content of both types of extra heterochromatin.     

DNA methylation pattern in a barley reconstructed karyotype with deleted ribosomal gene cluster of chromosome 6H

A reconstructed barley karyotype (T-35) was utilised to study the influence of chromosomal rearrangements on the DNA methylation pattern at chromosome level. Data obtained were also compared with the distribution of Giemsa N-bands and high gene density regions along the individual chromosomes that have been previously described. In comparison to the control karyotype (T-1586), the DNA methylation pattern was found to vary not only in the reconstructed chromosomes but also in the other chromosomes of the complement. Significant remodelling process of methylation pattern was found also in the residual nucleolus organiser regions (NOR) on chromosome 5H as a consequence of deletion comprising the whole NOR of chromosome 6H in T-35. Moreover, differences between corresponding segments of the homologues with respect to some other chromosome locations were also observed. Repositioning of genomic DNA methylation along the metaphase chromosomes following chromosomal reconstruction in barley seems to be essential to ensure correct chromatin organisation and function.