橡胶树体细胞胚发生过程中DNA甲基化分析

为探讨巴西橡胶树(Hevea brasiliensis)自根幼态无性系与供体间差异产生的原因,应用甲基化敏感扩增多态性扩增技术,对巴西橡胶树体细胞胚发生过程中基因组DNA 胞嘧啶甲基化程度和模式进行了分析。结果表明,在巴西橡胶树体细胞胚发生过程中不同阶段的DNA 甲基化程度不同,以花药的DNA 甲基化程度最高,体细胞胚的DNA 甲基化水平最低。在体细胞胚发生过程中出现了I、Ⅱ和Ⅲ 3 种类型的甲基化多态性带型的改变,包括他们的出现与消失。因此,橡胶树体细胞胚发生过程中可能通过DNA 甲基化甲基化和去甲基化来调控基因的表达。     

欧石楠体细胞胚发生过程中的DNA甲基化

利用甲基化敏感扩增多态性（MSAP）方法,对欧石楠大田苗、胚性愈伤组织和再生苗的DNA甲基化进行了研究。从64对选扩增引物中筛选出19对,共扩增得到506条带,统计显示,大田苗、胚性愈伤组织和再生苗的全基因组DNA甲基化水平分别为31．42％、27．86％和29．05％,3种试材发生甲基化变异的有175条带,变异率为34．58％。体细胞胚诱导形成胚性愈伤组织过程中,甲基化水平降低,而在再生苗中有所恢复,与大田苗接近。在外侧胞嘧啶甲基化水平上,胚性愈伤组织的甲基化水平有所增加,且在再生苗中可部分维持。另外,在175条变异带中,再生苗恢复到大田苗DNA甲基化模式的有62条,占总变异条带的35．43％,而与胚性愈伤组织维持相同DNA甲基化模式的有59条,占33．71％。回收部分甲基化变异条带,最终得到8条有效的基因组DNA序列。BLASTnI：对分析表明,在欧石楠基因组中,包括抗性基因、蛋白激酶、质体基因等在内的多种DNA序列均存在DNA基化修饰现象。     

Assessments of somaclonal variation in micropropagated shoots of <Emphasis Type="Italic">Cedrus</Emphasis>: consequences of axillary bud breaking

Reversed-phase HPLC analysis and random amplified polymorphic DNA (RAPD) markers were used to monitor DNA methylation status and genetic stability of C. atlantica and C. libani shoots generated through axillary bud proliferation. Average DNA methylation in C. atlantica or C. libani seedlings and mature 200-year-old trees of C. libani was 19.8, 19.5 and 22.3%, respectively. These global amounts showed no significant variation after the in vitro establishment of seedling-originated shoot stocks. In contrast, in vitro culture caused a significant decrease in the amount of 5-methylcytosine in genomic DNA of the tissue culture (TC) progenies of one of the adult C. libani genotypes. This DNA demethylation event accompanied an enhancement of the regrowth capacity of this genotype. Detected RAPD variation between mother plants and their TC progenies was species-related, with C. libani TC progenies being genetically more stable than those of C. atlantica. Nevertheless, similarity indices ranged from 0.97 to 1 among mother plants and their TC progenies. Furthermore, the analyses of molecular variance (AMOVA) suggest that RAPD variation among the mother plants and their TC progenies might be considered as not significant. The application of various statistical approaches, including cluster-based genetic distance methods and AMOVA, demonstrates that RAPD markers discriminate C. atlantica and C. libani appropriately.     

Detection of epigenetic variation in tissue-culture-derived plants of <Emphasis Type="Italic">Doritaenopsis</Emphasis> by methylation-sensitive amplification polymorphism (MSAP) analysis

Somaclones exhibiting variations with flower characteristics were recovered from the tissue-culture-derived plants of Doritaenopsis. Two molecular techniques, random amplified polymorphic DNA (RAPD) and methylation-sensitive amplification polymorphism (MSAP) analyses, were used to characterize the somaclones. RAPD analysis, using 100 randomly selected primers, failed to differentiate variants and normal plants, even though some primers (six out of 100 primers) exhibited 6–10 distinct banding patterns. However, MSAP analysis revealed the differences in the DNA methylation patterns in the normal and variant plants which were correlated with phenotypic variation. In all, 311, 337, 366, and 343 fragments were obtained with normal and V1, V2, and V3 variant plants, respectively; each representing recognition site cleaved by either or both of the isoshizomers were amplified using 12 combination of primers. A total of 36 (11.6%), 77 (22.9%), 73 (19.9%), and 47 (13.7%) sites were found to be methylated at cytosine in the genomes of normal and V1, V2, and V3 variant Doritaenopsis plants. This study demonstrates usefulness of MSAP to detect DNA methylation events in tissue cultured Doritaenopsis plants.     

Different genomic DNA methylation patterns between male and female adults of white-backed planthoppers Sogatella furcifera

DNA methylation plays a key role in gene regulation and phenotype variation in many organisms. The aim of this study was to survey the frequency and variation of cytosine methylation at CCGG sequences in adult male and female planthoppers Sogatella furcifera, a major rice pest in Asia, and to determine the occurrence of methylation changes associated with sexual dimorphism using methylation-sensitive amplification polymorphism. 1131 DNA fragments including CCGG sites were amplified using 36 pairs of selective primers: about 191 methylated bands were identified. In male planthoppers, we got a total of 581 bands, including 40 fully-methylated bands, 65 hemi-methylated bands and 476 none-methylated bands, so the fully-methylated ratio, hemi-methylated ratio and total methylated ratio were 6.88%, 11.19% and 18.07%, respectively. In the female planthopper, there were a total of 550 bands, including 44 fully-methylated bands, 42 hemi-methylated bands and 464 none-methylated bands. The fully-methylated ratio was 7.64% in female planthoppers, which was slightly higher than in the male planthoppers, however, the hemi-methylated ratio was lower (8.00%) in the female compared with the male planthopper. Altogether, 46 DNA bands displayed variable cytosine methylation patterns between male and female samples: 20 of them occurred only in male samples and 26 only in female samples. Thus, the genome methylation patterns are different between male and female adults. The results suggest that DNA methylation might be related to sexual differentiation and development in S. furcifera.     

Identification,cloning and sequence analysis of a dwarf genome-specific RAPD marker in rubber tree [<Emphasis Type="Italic">Hevea brasiliensis</Emphasis> (Muell.) Arg.]

High-yielding dwarf clones of Hevea brasiliensis are tolerant to wind damage and therefore useful for high-density planting. The identification of molecular markers for the dwarf character is very important for isolating true-to-type high-yielding dwarf hybrid lines in the early stage of plant breeding programs. We have identified a dwarf genome-specific random amplified polymorphic DNA (RAPD) marker in rubber tree. A total of 115 random oligonucleotide 10-mer primers were used to amplify genomic DNA by PCR, of which 19 primers produced clear and detectable bands. The primer OPB-12 generated a 1.4-kb DNA marker from both natural and controlled F₁ hybrid progenies (dwarf stature) derived from a cross between a dwarf parent and a normal cultivated clone as well as from the dwarf parent; it was absent in other parent (RRII 118). To validate this DNA marker, we analyzed 22 F₁ hybrids (13 with a dwarf stature and nine with a normal stature); the dwarf genome-specific 1.4-kb RAPD marker was present in all dwarf-stature hybrids and absent in all normal-stature hybrids. This DNA marker was cloned and characterized. DNA marker locus specificity was further confirmed by Southern blot hybridization. Our results indicate that Southern blot hybridization of RAPD using probes made from cloned DNA fragments allows a more accurate analysis of the RAPD pattern based on the presence/absence of specific DNA markers than dye-stained gels or Southern blot analysis of RAPD blots using probes made from purified PCR products. Detection of RAPD markers in the hybrid progenies indicates that RAPD is a powerful tool for identifying inherited genome segments following different hybridization methods in perennial tree crops.     

Newly developed MSAP analysis reveals the different polymorphism patterns in transgenic tobacco plants with the dsRNA MET1 gene

DNA methylation is known to play an important role in the regulation of gene expression in eukaryotes. In this study, we isolated NtMET1 from Nicotiana tabacum cv. Havana (SR1) and obtain transgenic plants that reduced MET1 expression level with the double-strand RNA (dsRNA) MET1 gene. Transgenic tobacco plants showed dwarf and abnormal flower development when compared with the wild type. Using methylation-sensitive amplified polymorphism (MSAP) analysis, the patterns of cytosine methylation in transformed plants and the wild type were compared. MseI/HpaII selection primers showed an interesting polymorphism, and 153 DNA bands of interest were detected. Among these, 30 selective fragments were sequenced and analyzed with a BLAST search by successful MSAP modifications. The homology search showed that the transposons and tandem repeated sequences were related to the phenotypes. These results suggested that the decreased degree of methylation by dsRNA strategy caused abnormal growth and development in N. tabacum.     

大鼠衰老过程中脑细胞DNA与c－Ha－ras原癌基因的甲基化

用ＭｓｐⅠ／ＨｐａⅡ酶解电泳法和高效液相色谱（ＨＰＬＣ）两种方法进行比较,研究了不同年龄大鼠的肝、脑细胞基因组ＤＮＡ的甲基化程度。从酶解电泳图谱可观察到,肝、脑细胞基因组ＤＮＡ甲基化在青年鼠和老年鼠之间没有差异。但用具有高分辨率的高效液相色谱测量ＤＮＡ中５－ｍＣ的含量时发现,老年鼠脑细胞ＤＮＡ甲基化程度较大年鼠的下降６２％,而肝细胞ＤＮＡ甲基化程度在老年鼠与青年鼠之间并没有显著差异。这些结果提示：（１）用常规的酶解电泳法所分析的ＤＮＡ甲基化结果并不能反映整个基因组ＤＮＡ甲基化的水平。（２）衰老过程中,不同组织ＤＮＡ甲基化的改变存在差异,引起这种差异的原因可能与组织的增殖和分化程度有关。进一步分析脑细胞原癌基因ｃ－Ｈａ－ｒａｓ的甲基化水平,无论ＭｓｐⅠ酶切图谱,还是ＨｐａⅡ酶切图谱均可观察到分子大小为１９ｋｂ、７．５ｋｂ、１．３ｋｂ、０．９ｋｂ的四条阳性带,说明该基因未发生甲基化,且与年龄无关。     

Extent and pattern of DNA methylation alteration in rice lines derived from introgressive hybridization of rice and Zizania latifolia Griseb

We have reported previously that introgression by Zizania latifolia resulted in extensive DNA methylation changes in the recipient rice genome, as detected by a set of pre-selected DNA segments. In this study, using the methylation-sensitive amplified polymorphism (MSAP) method, we globally assessed the extent and pattern of cytosine methylation alterations in three typical introgression lines relative to their rice parent at ∼2,700 unbiased genomic loci each representing a recognition site cleaved by one or both of the isoschizomers, HpaII/MspI. Based on differential digestion by the isoschizomers, it is estimated that 15.9% of CCGG sites are either fully methylated at the internal Cs and/or hemi-methylated at the external Cs in the rice parental cultivar Matsumae. In comparison, a statistically significant increase in the overall level of both methylation types was detected in all three studied introgression lines (19.2, 18.6, 19.6%, respectively). Based on comparisons of MSAP profiles between the isoschizomers within the rice parent and between parent and the introgression lines, four major groups of MSAP banding patterns are recognized, which can be further divided into various subgroups as a result of inheritance of, or variation in, parental methylation patterns. The altered methylation patterns include hyper- and hypomethylation changes, as well as inter-conversion of hemi- to full-methylation, or vice versa, at the relevant CCGG site(s). Most alterations revealed by MSAP in low-copy loci can be validated by DNA gel blot analysis. The changed methylation patterns are uniform among randomly selected individuals for a given introgression line within or among selfed generations. Sequencing on 31 isolated fragments that showed different changing patterns in the introgression line(s) allowed their mapping onto variable regions on one or more of the 12 rice chromosomes. These segments include protein-coding genes, transposon/retrotransposons and sequences with no homology. Possible causes for the introgression-induced methylation changes and their implications for genome evolution and crop breeding are discussed.Electronic Supplementary Material Supplementary material is available for this article at and is accessible for authorized users.Z. Y. Dong and Y. M. Wang have equally contributed to the work.     

Comparative analysis of DNA methylation changes in two contrasting wheat genotypes under water deficit

DNA methylation is one of the epigenetic mechanisms regulating gene expression in plants in response to environmental conditions. In this study, analysis of methylation patterns was carried out in order to assess the effect of water stress in two contrasting wheat genotypes using methylation-sensitive amplified polymorphism (MSAP). The results revealed that demethylation was higher in drought-tolerant genotype (C306) as compared to drought-sensitive genotype (HUW468) after experiencing drought stress. Comparisons of different MSAP patterns showed a high percentage of polymorphic bands between tolerant and susceptible wheat genotypes (from 74.79 % at anthesis to 88.89 % at tillering). Furthermore, differential DNA methylation in roots and leaves also revealed tissue-specific methylation of genomic DNA. Interestingly, 54 developmental stage-specific bands and 23 bands that were found contrasting between these two wheat genotypes were detected. Furthermore, a few sites with stable DNA methylation differences were identified between drought-tolerant and drought-sensitive cultivars, thus providing genotype-specific epigenetic markers. These results not only provide data on differences in DNA methylation changes but also contribute to dissection of molecular mechanisms of drought response and tolerance in wheat.     

Analysis of DNA methylation in various swine tissues

DNA methylation is known to play an important role in regulating gene expression during biological development and tissue differentiation in eukaryotes. In this study, we used the fluorescence-labeled methylation-sensitive amplified polymorphism (F-MSAP) method to assess the extent and pattern of cytosine methylation in muscle, heart, liver, spleen, lung, kidney and stomach from the swine strain Laiwu, and we also examined specific methylation patterns in the seven tissues. In total, 96,371 fragments, each representing a recognition site cleaved by either or both EcoRI + HpaII and EcoRI + MspI, the HpaII and MspI are isoschizomeric enzymes, were amplified using 16 pairs of selective primers. A total of 50,094 sites were found to be methylated at cytosines in seven tissues. The incidence of DNA methylation was approximately 53.99% in muscle, 51.24% in the heart, 50.18% in the liver, 53.31% in the spleen, 51.97% in the lung, 51.15% in the kidney and 53.39% in the stomach, as revealed by the incidence of differential digestion. Additionally, differences in DNA methylation levels imply that such variations may be related to specific gene expression during tissue differentiation, growth and development. Three types of bands were generated in the F-MSAP profile, the total numbers of these three types of bands in the seven tissues were 46,277, 24,801 and 25,293, respectively.In addition, different methylation patterns were observed in seven tissues from pig, and almost all of the methylation patterns detected by F-MSAP could be confirmed by Southern analysis using the isolated amplified fragments as probes. The results clearly demonstrated that the F-MSAP technique can be adapted for use in large-scale DNA methylation detection in the pig genome.     

Variation of cytosine methylation in 57 sweet orange cultivars

Sweet orange is an important group of citrus cultivars, which includes a number of bud sport cultivars. Little is known about the CpG methylation status of the CCGG sequences in the orange genome. In this study, methylation-sensitive amplification polymorphism (MSAP), based on the application of isoschizomers (Hpa II and Msp I), was first used to analyze cytosine methylation patterns in 57 orange cultivars that were not fully differentiated by regular DNA molecular markers. Three types of bands were generated from ten primer pairs. Type I bands were present following restriction with Eco RI + Hpa II and Eco RI + Msp I; type II or type III were present only following restriction with either Eco RI + Hpa II or with Eco RI + Msp I. The total number of these three types of bands was 802, 72, and 157, respectively. Among these, the number of polymorphic bands were 244 (30.2%), 23 (31.9%), and 32 (20.4%), in type I, II and III, respectively. The methylation patterns of these 57 cultivars are discussed and assessed by dendrograms derived from the analysis of polymorphic MSAP bands. The distribution of polymorphic bands of the above three types demonstrate the methylation patterns and frequency at the cytosine loci. We suggest that methylation events could be more frequent than demethylation events, and that the methylation patterns maybe associated with phenotypic traits.     

Methylation-sensitive amplification polymorphism in date palms (Phoenix dactylifera L.) and their off-shoots

DNA methylation plays an important role in the regulation of gene expression in eukaryotes. In this study, the extent and patterns of DNA methylation were assessed in date palm mother-plants and their off-shoots using the methylation-sensitive amplified polymorphism (MSAP) technique. Three types of bands were generated using 12 pairs of primers. Type I were present in both ECOR I + HPA II and ECOR I + MSP I lanes; type II were present in ECOR I + HPA II lanes, but not in ECOR I + MSP I lanes; and type III bands were present in ECOR I + MSP I lanes, but not in ECOR I + HPA II lanes. The total numbers of these three types of bands were 782, 55, and 34, respectively. Among these three types of bands, the polymorphic bands were, respectively, 37, 10, and 0. The distribution of polymorphic bands among mother-plants and off-shoots suggests the methylation variation was present in both the mother-plants and off-shoots. Forty- four out of these 47 polymorphic bands show clear difference between mother-plant and off-shoots: 38 were present only in off-shoots and 6 in both mother-plants and off-shoots. Compared to methylation status in mother-plants, the methylation variation during off-shoot growth of date palm can be characterized as a process involving primarily de-methylation. Hypomethylation of DNA in off-shoots, compared with mother-plants, reflects the marked expression of this molecular feature, which may be related to gene expression during off-shoot development. The methylation or de-methylation status of specific loci in the mother-plants and their off-shoots were probably random events.     

Genetic fingerprinting for determining the mode of reproduction in Paspalum notatum, a subtropical apomictic forage grass

 Paspalum is an important genus of the family Gramineae that includes several valuable forage grasses. Many of the species are polyploid and either obligate or facultative apomicts. Cyto-embryological observations of several tetraploid genotypes of P. notatum were performed to determine their mode of reproduction. Afterwards, selfed progenies of the genotypes F131, Q3664 and Q4117 were analysed using RFLP and RAPD genetic fingerprints to identify maternal and non-maternal (aberrant) plants, and to establish the degree of apomictic reproduction. Five maize clones and six primers were used for detecting genetic deviations from the maternal profile. Maize clones umc379, umc384 and umc318 and primers OPG10 and OPI4 were the most informative for discriminating between maternal and aberrant individuals within the progenies of F131 and Q3664. The combined results of three RFLP clones or 4–6 RAPD primers were necessary to ascertain the mode of reproduction in plants F131 and Q3664. The results obtained with the RFLP and RAPD markers were in agreement with the cyto-embryological studies in ascertaining the mode and degree of apomictic reproduction. Plant F131 showed a completely sexual reproductive behaviour, Q3664 an elevated expression of sexuality, while Q4117 was highly apomictic. A fingerprint analysis of an outcrossing population, aimed at the identification of hybrid plants, was also performed. Maize clones um318 and umc379 and primers OPC2 and OPC9 were used. The presence of specific bands belonging to the male parent permitted a rapid and easy detection of hybrids. The methodology described here can be applied both for the characterisation of P. notatum populations and to identify hybrid progenies in Paspalum breeding programs. Received: 5 March 1997 / Accepted: 13 May 1997     

Variation in oil palm (Elaeis guineensis Jacq.) tissue culture-derived regenerants revealed by AFLPs with methylation-sensitive enzymes

Tissue culture-derived plants of oil palm (Elaeis guineensis Jacq.) can develop abnormal flowers in which stamen primordia are converted into carpel-like tissues (mantled fruit). This abnormality can be heritable; individual palms may show variation in mantling and reversion to the normal phenotype over time has been observed. Four sets of ortets (mother plant used as tissue source) and ramets (regenerated plants) were compared using standard amplified fragment length polymorphism (AFLP) analysis and AFLPs using methylation-sensitive enzymes. No polymorphisms were found when standard AFLPs were produced with ten different primer combinations. In contrast, when methylation-sensitive AFLPs were used, polymorphisms were detectable. Polymorphisms appeared as new bands in the ramets, suggesting that a reduction in methylation had occurred during tissue culture. The highest number of polymorphic bands (0.3%) was obtained when HpaII was used as the restriction endonuclease, indicating that the loss of methylation had occurred most frequently at the internal C within the HpaII recognition sequence 5’-CCGG-3’. Conversion of nine of the polymorphic bands into probes for Southern analysis confirmed that these were not due to partial digestion of the AFLP templates and showed that the majority were single-copy sequences. The exceptions were fragments showing homology to 25S ribosomal RNA genes and the chalcone synthase gene family. Examination of the Southern blots suggested that most of the single-copy sequences were partially de-methylated, and one example was found in which de-methylation affected only one allele. No polymorphism was consistently different between normal and abnormal clones in all the sets. This suggests that, whilst this method is an effective way of detecting variation in tissue culture-derived plants, different approaches will be required to identify the causal basis of the mantled fruit abnormality. Received: 25 May 2000 / Accepted: 28 August 2000     

Genotyping of somatic hybrids between <Emphasis Type="Italic">Festuca arundinacea</Emphasis> Schreb. and <Emphasis Type="Italic">Triticum aestivum</Emphasis> L.

In order to genotype hybrid genomes of distant asymmetric somatic hybrids, we synthesized hybrid calli and plants via PEG-mediated protoplast fusion between recipient tall fescue (Festuca. arundinacea Schreb.) and donor wheat (Triticum aestivum L.). Seventeen and 25 putative hybrid clones were produced from the fusion combinations I and II, each with the donor wheat protoplast treated by UV light for 30 s and 1 min, respectively. Isozyme and RAPD profiles confirmed that ten hybrid clones were obtained from combination I and 19 from combination II. Out of the 29 hybrids, 12 regenerated hybrid plants with tall fescue phenotype. Composition and methylation-variation of the nuclear and cytoplasmic genomes of some hybrids, either with or without regenerative ability, were compared by genomic in situ hybridization, restriction fragment length polymorphism, and DNA methylation-sensitive amplification polymorphism. Our results indicated that these selected hybrids all contained introgressed nuclear and cytoplasmic DNA as well as obvious methylation variations compared to both parents. However, there were no differences either in nuclear/cytoplasmic DNA or methylation degree between the regenerable and non-regenerable hybrid clones. We conclude that both regeneration complementation and genetic material balance are crucial for hybrid plant regeneration.     

DNA methylation in the Alcohol dehydrogenase-1 gene of maize

Using a battery of methylation-sensitive restriction enzymes, cytosine methylation at 23 sites in a 7.6 kb region surrounding the Alcohol dehydrogenase-1 (Adh1) gene was measured in DNA prepared from immature maize cobs. Both the 5 upstream region and the entire coding region were hypomethylated in the two alleles examined. Methylation in Adh1 is independent of changes in Mutator transposable element methylation. The role of DNA methylation in Adh1 gene regulation is discussed.