Foreign DNA introgression caused heritable cytosine demethylation in ribosomal RNA genes of rice

Significant cytosine demethylation in ribosomal RNA genes (18S or 25S) were detected in all four studied rice lines containing introgressed DNA from wild rice, Zizania latifolia Griseb. In each line, the changed RFLP (restriction fragment length polymorphism) patterns produced with the methylation-sensitive enzyme (HpaII) were identical between two randomly selected individual plants both within and between generations. This indicates that the methylation changes are non-random and stably inherited. Cytosine demethylation in ribosomal RNA genes could be a major cause for the drastically altered phenotypic variations observed in the introgression lines.     

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.     

Climate‐dependent variation in cold tolerance of weedy rice and rice mediated by OsICE1 promoter methylation

The mechanisms by which weedy rice (Oryza sativa f. spontanea) has adapted to endure low‐temperature stress in northern latitudes remain unresolved. In this study, we assessed cold tolerance of 100 rice varieties and 100 co‐occurring weedy rice populations, which were sampled across a broad range of climates in China. A parallel pattern of latitude‐dependent variation in cold tolerance was detected in cultivated rice and weedy rice. At the molecular level, differential cold tolerance was strongly correlated with relative expression levels of CBF cold response pathway genes and with methylation levels in the promoter region of OsICE1, a regulator of this pathway. Among all methylated cytosine sites of the OsICE1 promoter, levels of CHG and CHH methylation were found to be significantly correlated with cold tolerance among accessions. Furthermore, within many of the collection locales, weedy rice shared identical or near‐identical OsICE1 methylation patterns with co‐occurring cultivated rice. These findings provide new insights on the possible roles that methylation variation in the OsICE1 promoter may play in cold tolerance, and they suggest that weedy rice can rapidly acquire cold tolerance via methylation patterns that are shared with co‐occurring rice cultivars.     

Dedifferentiation-mediated changes in transposition behavior make the Activator transposon an ideal tool for functional genomics in rice

There is an inverse relationship between the level of cytosine methylation in genomic DNA and the activity of plant transposable elements. Increased transpositional activity is seen during early plant development when genomic methylation patterns are first erased and then reset. Prolonging the period of hypomethylation might therefore result in an increased transposition frequency, which would be useful for rapid genome saturation in transposon-tagged plant lines. We tested this hypothesis using transgenic rice plants containing Activator (Ac) from maize. R₁ seeds from an Ac-tagged transgenic rice line were either directly germinated and grown to maturity, or induced to dedifferentiate in vitro, resulting in cell lines that were subsequently regenerated into multiple mature plants. Both populations were then analyzed for the presence, active reinsertion and amplification of Ac. Plants from each population showed excision-reinsertion events to both linked and unlinked sites. However, the frequency of transposition in plants regenerated from cell lines was more than nine-fold greater than that observed in plants germinated directly from seeds. Other aspects of transposon behavior were also markedly affected. For example, we observed a significantly larger proportion of transposition events to unlinked sites in cell line-derived plants. The tendency for Ac to insert into transcribed DNA was not affected by dedifferentiation. The differences in Ac activity coincided with a pronounced reduction in the level of genomic cytosine methylation in dedifferentiated cell cultures. We used the differential transposon behavior induced by dedifferentiation in the cell-line derived population for direct applications in functional genomics and validated the approach by recovering Ac insertions in a number of genes. Our results demonstrate that obtaining multiple Ac insertions is useful for functional annotation of the rice genome.These authors contributed equally to the work     

Dynamics of phytohormone and DNA methylation patterns changes during dormancy induction in strawberry (Fragaria?×?ananassa Duch.)

Changes in endogenous phytohormone levels, DNA methylation patterns, and expression levels of related genes during induction of dormancy in two strawberry cultivars, Darselect and All Star, were studied under controlled environmental conditions. At 12°C, regardless of day length, potted, runner-derived plants of both cultivars gradually exhibited morphological traits typical of dormancy after treatment for 8 weeks. These morphological changes were accompanied by a synchronous significant decline in indole-3-acetic acid (IAA) level and increases in abscisic acid (ABA) content and global genomic DNA methylation in young leaves. Exposed at 15°C and a short-day photoperiod, the changes in morphology, phytohormone levels and DNA methylation of both cultivars were similar to those observed at 12°C. Slight but non-significant changes in IAA and ABA levels and genomic DNA methylation occurred in young leaves at both 15°C with long days and 18°C with short days. These results indicated that temperature alone was sufficient to induce strawberry to enter the typical dormant phase, and day length had no impact at 12°C. The higher temperature permissible for dormancy induction in strawberry was 15°C, but at this temperature dormancy induction was modified by day length. The expression patterns of FaPIN1, FaNCED1, FaDRM and FaROS1 were coincident with the changes in phytohormone levels and DNA methylation. Although the two tested cultivars have different temporal responses with the different degree of cold tolerance and depth of dormancy, both the endogenous phytohormone and DNA methylation were changed when induced by external environmental factors.     

Genome‐wide mapping of cytosine methylation revealed dynamic DNA methylation patterns associated with genes and centromeres in rice

We conducted genome‐wide mapping of cytosine methylation using methylcytosine immunoprecipitation combined with Illumina sequencing. The chromosomal distribution pattern of methylated DNA is similar to the heterochromatin distribution pattern on rice chromosomes. The DNA methylation patterns of rice genes are similar to those in Arabidopsis thaliana, including distinct methylation patterns asssociated with gene bodies and promoters. The DNA sequences in the core domains of rice Cen4, Cen5 and Cen8 showed elevated methylation levels compared with sequences in the pericentromeric regions. In addition, elevated methylation levels were associated with the DNA sequences in the CENH3‐binding subdomains, compared with the sequences in the flanking H3 subdomains. In contrast, the centromeric domain of Cen11, which is composed exclusively of centromeric satellite DNA, is hypomethylated compared with the pericentromeric domains. Thus, the DNA sequences associated with functional centromeres can be either hypomethylated or hypermethylated. The methylation patterns of centromeric DNA appear to be correlated with the composition of the associated DNA sequences. We propose that both hypomethylation and hypermethylation of CENH3‐associated DNA sequences can serve as epigenetic marks to distinguish where CENH3 deposition will occur within the surrounding H3 chromatin.     

Differential DNA methylation between two wing phenotypes adults of Sogatella furcifera

Sogatella furcifera is a major rice pest with wing dimorphism . DNA methylation is an important epigenetic modification that plays a role in gene regulation and phenotype variation in most organisms. The objective of the current research was to survey the frequencies and variation of cytosine methylation at CCGG sequences in macropterous female adults (MFA) and brachypterous female adults (BFA) of S. furcifera, and to determine the occurrence of methylation changes associated with wing phenotypes by using methylation‐sensitive amplification polymorphism (MSAP). No differences were found in the average proportions of methylated CCGG sites between MFA and BFA, but there were significant differences for methylation patterns between MFA and BFA. The fully methylated ratio was 5.81% in BFA, much higher than 2.40% in MFA; while the hemi‐methylated ratio was 4.35% in BFA, much lower than 8.35% in MFA. These results provide circumstantial evidence that DNA methylation might be related to wing phenotype variation in S. furcifera. We also cloned and got 14 satisfactory sequences, which displayed variable cytosine methylation patterns between MFA and BFA. All these data will facilitate the researches on the epigenetic mechanisms of insect wing polymorphism. genesis 51:819–826. © 2013 Wiley Periodicals, Inc.     

缺氮胁迫下雨生红球藻虾青素积累过程中的基因组MSAP分析

虾青素具有多种生物学活性,雨生红球藻为天然虾青素的最佳来源,缺氮胁迫会导致雨生红球藻积累虾青素。为了解缺氮条件下雨生红球藻虾青素积累的分子机制,该研究通过对雨生红球藻进行缺氮胁迫,结合MSAP法,研究了雨生红球藻在缺氮胁迫下虾青素积累过程中基因组甲基化水平的变化,结果表明:缺氮胁迫0~72 h期间,雨生红球藻生长速度减慢,而虾青素积累主要发生在缺氮处理12~24 h期间,随后积累速度减慢。同时,对缺氮胁迫0、24、72 h的雨生红球藻基因组DNA进行甲基化敏感扩增多态性分析,共得到了291个甲基化多态性位点,其中发生甲基化变化的位点在0~24 h和24~72 h分别占总位点的29.90%和53.95%。在缺氮胁迫24 h处DNA半甲基化率最大(为12.71%),全甲基化率最低(为26.80%);缺氮胁迫72 h处DNA全甲基化率最高(为28.52%),半甲基化率最低(为1.72%)。这表明DNA甲基化调节方式的改变是虾青素积累过程中的一种重要调控模式。     

Characterization of sunlight-grown transgenic rice plants expressing Arabidopsis phytochrome A

Transgenic rice (Oryza sativa) overexpressing Arabidopsis phytochrome A (phyA) was cultivated up to the T₃ generation in paddy to elucidate the role of phyA in determining the plant architecture and the productivity of sunlight-grown rice plants. PhyA is light-labile and controls plant growth in response to the far-red light-dependent high-irradiance response as well as the very low fluence response. The Arabidopsis phyA gene linked to the rice rbcS promoter was transformed into embryogenic rice calli, and the calli were regenerated to whole plants. Compared to wild-type seedlings, the rbcS::PHYA transgenic seedlings contained more phyA when grown in the dark, and at least 10-fold more phyA when exposed to white light. When grown in paddy, the phyA transgenic plants in general exhibited reduced plant height (dwarfing), larger grain size, higher chlorophyll content, smaller tiller number, and low grain fertility compared to wild-type plants. The heading stage was not significantly changed. However, it is likely that a certain level of phyA is a prerequisite for induction of such changes. It is suggested that phyA overproduction in rice could be a useful tool to improve rice grain productivity by the larger grain size that increases grain yield and the dwarfing that tolerates lodging-associated damage.     

Selective methylation of one of the two promoters residing in T-DNA inserted in a retroelement of rice

The upstream sequence of pinb previously isolated from rice and confirmed to be a wound-inducible promoter by detecting GUS in T0 transgenic rice transformed via Agrobacterium tumefaciens-mediated procedures. In a transgenic line (pinb-16), the selectable marker hptII driven by CaMV35S promoter was completely silenced in T2 sublines; but the uidA gene driven by pinb promoter was expressed without being affected, though it, together with hptII, exists in the same T-DNA insertion. Analyses of methylation patterns using bisulphite-sequencing in the homozygous T1 and T2 sublines showed that cytosines in CaMV35S were gradually methylated in T1 plants and almost completely methylated in T2 plants. Interestingly, the process of methylation was accompanied by the occurrence of lesion mimic phenotype in rice leaves. The activity of hygromycin-resistance could be reestablished by treatment with 5-azacytidine. Genomic Southern and isolation of the T-DNA flanking sequences indicated that T-DNA was inserted in a retroelement of rice. These results revealed that methylation shows preference for the heterogeneity promoter fragment in the transgenic rice line and may be induced by the retroelement. Published in Russian in Fiziologiya Rastenii, 2006, Vol. 53, No. 2, pp. 266–273. The text was submitted by the authors in English.     

Tissue culture-induced locus-specific alteration in DNA methylation and its correlation with genetic variation in <Emphasis Type="Italic">Codonopsis lanceolata</Emphasis> Benth. et Hook. f

We have reported recently that tissue culture induced a high level of genetic variation at the primary nucleotide sequence in regenerants of medicinal plant Codonopsis lanceolata. It is not known, however, whether epigenetic variation in the form of alteration in DNA methylation also occurred in these plants. Here, we investigated possible alterations in level and pattern of cytosine methylation at the CCGG sites in the same set of regenerants relative to the donor plant, by the MSAP method employing a pair of isoschizomers, HpaII and MspI, which recognize the same restriction site but are differentially sensitive to cytosine methylation at the CCGG sites. A total of 1,674 MSAP profiles were resolved using 39 primer combinations. Of these, 177 (10.5%) profiles were polymorphic among the regenerants and/or between the regenerant(s) and the donor plant, in EcoRI + HpaII or EcoRI + MspI digest but not in both, indicating alteration in cytosine methylation patterns of specific loci, though their estimated total level of methylation remained more or less the same as the donor plant. Gel blot analysis validated most of the variant MSAP profiles as bona fide alteration in methylation patterns. Correlation analysis between the MSAP data and the previously reported ISSR and RAPD data revealed significant correlations, suggesting their possible intrinsic interrelatedness. Thirty-seven typical variant MSAP profiles were isolated and sequenced, of which 5 showed significant homology to known-function genes, 2 to chloroplast sequences, whilst the rest 30 did not find a match in the database. Electronic supplementary material The online version of this article (doi:) contains supplementary material, which is available to authorized users. W. L. Guo and R. Wu contributed equally to this work.     

水稻NACA基因家族的鉴定及NACA2功能研究

该研究从水稻中鉴定了5个编码NACA蛋白的基因,并对其理化性质、结构、定位及表达进行分析,并针对NACA2的亚细胞定位及其在抗旱过程中的生物学功能进行了初步研究。结果表明：(1) 5个水稻NACA蛋白的氨基酸序列中含有多个保守的基序,NACA1-NACA4均含有NAC结构域和UBA结构域,但NACA5序列较短且不含UBA结构域;不同植物NACA蛋白的氨基酸序列进化关系与物种之间的进化关系高度统一。(2)组织表达模式分析发现,NACA1、NACA2和NACA3在不同水稻组织中具有较高的表达水平,尤其是在生殖器官中,但NACA4和NACA5在不同组织中的表达水平均很低;NACA基因的表达受到甘露醇、脱落酸(ABA)、茉莉酸(JA)、氯化钠(NaCl)、水杨酸(SA)及低温胁迫的诱导,其中NACA2和NACA5的表达变化最明显。(3)亚细胞定位表明,NACA2蛋白定位于细胞核和细胞质中。(4)与野生型相比,过表达NACA2拟南芥株系的萎蔫程度较轻,颜色较绿,显著降低了叶片的失水速率,且复水速度明显更快,并显著增强了对干旱和渗透胁迫的抗性。研究表明,NACA2正调控植物对干旱胁迫的抗性,为进一...     

DNA methylation profiles differ between field- andin vitro-grown leaves of apple

A reliable method has been previously developed to detect cytosine methylation at the 5′-CCGG-3′ sequence using isoschizomers (Msp I and Hpa II) and a modified amplified fragment length polymorphism (AFLP) technique. With this method, DNA methylation profiles were investigated in leaf tissues of apple (Malus × domestica cv. Gala) grown under two different growth conditions, field and tissue culture. A total of 1,622 AFLP bands were detected using 32 pairs of primers, and these banding patterns were assembled into three groups. Type I AFLP bands were present in both EcoR I/Hpa II and EcoR I/Msp I lanes. Type II bands were present in the EcoR I/Msp I lanes, but not in EcoR I/Hpa II lanes. Type III bands were present in EcoR I/Hpa II lanes, but not in the EcoR I/Msp I lanes. For leaf tissues of field- and in vitro-grown apples, the ratios of types I, II, and III to the total number of amplified fragments were 70 %, 24 %, and 6 %, and 71 %, 23 %, and 6 %, respectively. Although the ratios of the three types of banding patterns were similar in both leaf tissues, a few bands specific to either field-grown trees or in vitro-grown shoots were observed. This study provided evidence that changes in methylation occurred in apple leaf tissues subjected to tissue culture growth conditions.     

Methylation patterns in sentinel genes in peripheral blood cells of heavy smokers: Influence of cruciferous vegetables in an intervention study

Changes in DNA methylation patterns are a hallmark of tobacco-induced carcinogenesis. We have conducted a randomized 4-week intervention trial to investigate the effects of three dietary regimens to modify DNA methylation patterns in peripheral white blood cells of heavy smokers. A group of 88 smokers were randomly assigned to and distributed among three diets, including (1) normal isocaloric diet (balanced in fruits and vegetables), according to international guidelines; (2) a diet enriched in flavonoids and isothiocyanates (particularly cruciferous vegetables); (3) a regimen consisting of diet 1 supplemented with flavonoids (green tea and soy products). Methylation patterns were analyzed by pyrosequencing in LINE1 (Long Interspersed DNA Elements), RASSF1A, ARF and CDKN2a (tumor suppressor genes), MLH1 (mismatch DNA repair) and MTHFR (folate metabolism). Three distinct patterns of methylation were observed. In LINE1, methylation showed a small but reproducible increase with all three regimens. MTHFR was constitutively methylated with no significant modulation by diets. The four other loci showed low basal levels of methylation with no substantial change after intervention. These data suggest that the isocaloric diet may stabilize global epigenetic (LINE1 DNA methylation) patterns in peripheral white blood cells but does not provide evidence for methylation changes in specific genes associated with this short-term dietary intervention.     

Cation dependent O-methyltransferases from rice

Two lower molecular mass OMT genes (ROMT-15 and -17) were cloned from rice and expressed in Escherichia coli as glutathione S-transferase fusion proteins. ROMT-15 and -17 metabolized caffeoyl-CoA, flavones and flavonols containing two vicinal hydroxyl groups, although they exhibited different substrate specificities. The position of methylation in both luteolin and quercetin was determined to be the 3′ hydroxyl group and myricetin and tricetin were methylated not only at 3′ but also at 5′ hydroxyl groups. ROMT-15 and -17 are cation-dependent and mutation of the predicted metal binding sites resulted in the loss of the enzyme activity, indicating that the metal ion has a critical role in the enzymatic methylation.     

Utility of the methylation-sensitive amplified polymorphism (MSAP) marker for detection of DNA methylation polymorphism and epigenetic population structure in a wild barley species (<Emphasis Type="Italic">Hordeum brevisubulatum</Emphasis>)

We report here that by using a modified scoring criterion, the methylation-sensitive amplified polymorphism or MSAP marker can be used effectively to detect polymorphism in DNA methylation patterns within and among populations of a perennial wild barley species, Hordeum brevisubulatum. Twenty-four selected individual genotypes representing four natural populations of H. brevisubulatum distributed in the Songnen Prairie in northeastern China were studied. The utility of MSAP was evidenced by its detection of high levels of polymorphism in DNA methylation patterns between individuals within a given population, and the clear inter-population differentiation in methylation patterns (methylation-based epigenetic population structure) revealed among the four populations. The resolving power of MSAP to detect DNA methylation polymorphism was found to be comparable with that of a retrotransposon-based sequence-specific amplified polymorphism marker, or SSAP, to detect genetic polymorphism in the same set of plants, suggesting that MSAP with a modified scoring criterion can be used efficiently to detect DNA methylation polymorphism and assess epigenetic population structure in natural plant populations. Electronic supplementary material  The online version of this article (doi:) contains supplementary material, which is available to authorized users.