A considerable proportion of cytosine residues in plants are methylated at carbon 5. According to a well‐accepted rule, cytosine methylation is confined to symmetrical sequences such as CpG and CpNpG, which provide the signal for faithful transmission of symmetrical methylation patterns by maintenance methylase. Using a genomic sequencing technique, we have analysed cytosine methylation patterns within a hypermethylated and a hypomethylated state of a transgene in Petunia hybrida. Examination of a part of the transgene promoter revealed that in both states m5C residues located within non‐symmetrical sequences could be detected. Non‐symmetrical C residues in the two states were methylated at frequencies of 5.9 and 31.9%, respectively. Methylation appeared to be distributed heterogeneously, but some DNA regions were more intensively methylated than others. Our results show that at least in a transgene, a heterogeneous methylation pattern, which does not depend on symmetry of target sequences, can be established and conserved.
The chromatin structures of two epigenetic alleles of a transgene were investigated by measuring the local accessibility of transgene chromatin to endonucleases. The two epialleles represented the active, hypomethylated state of a transgene in line 17-I of Petunia hybrida, and a transcriptionally inactive, hypermethylated derivative of the same transgene in line 17-IV. In nuclear preparations the inactive epiallele was significantly less sensitive to DNasel digestion and nuclease S7 digestion than the transcriptionally active epiallele, whereas no significant differences in accessibility were observed between naked DNA samples of the two epialleles. Our data suggest that a condensed chromatin structure is specifically imposed on transcribed regions of the construct in line 17-IV. In contrast, in both epialleles the plasmid region of the transgene, which is not transcriptionally active in plants, retains the same accessibility to endonucleases as the chromosomal integration site. These data suggest that transcriptional inactivation is linked to the process of transcription, and imply that control of transgene expression via the use of inducible or tissue-specific promoters might prevent transgene silencing and conserve the active state of transgenes during sexual propagation.
A long-chain polyhydroxy polyene amide, zooxanthellamide D (ZAD-D, 1, C54H83NO19), was isolated from a cultured marine dinoflagellate of the genus Symbiodinium. ZAD-D (1) is a polyhydroxy amide consisting of a C22-acid part and a C32-amine part and furnishes three tetrahydropyran rings and six isolated butadiene chromophores. The relative stereochemistry of the tetrahydropyran ring systems was elucidated by NMR techniques. This metabolite showed moderate cytotoxicity against two human tumor cell lines. A phylogenetic tree of Symbiodinium has been updated and compared with the structures of the hitherto isolated polyols of Symbiodinium, zooxanthellatoxins and zooxanthellamides, providing a promising chemotaxonomic perspective for the classification of this morphologically indistinguishable dinoflagellate.
A 1.6 kb repetitive DNA sequence (RPS) from Petunia hybrida was identified that destabilizes expression of a GUS marker transgene. Following polyethylene glycol (PEG)-mediated tobacco and petunia protoplast transformations, GUS expression patterns analysed on callus and plant levels were clearly more variable when constructs contained the RPS sequence. The effect on transgene expression required chromosomal integration since the two different RPS constructs employed did not exhibit reduced levels of GUS activities in transient assays. DNA methylation analysis implies a hypermethylated default state of endogenous RPS copies present in the petunia genome. Analysis of the transgene DNA in different transgenic tobacco plants showed almost complete hypermethylation of a particular Hhal site of the RPS sequence. It is proposed that, due to the presence of specific signals within the RPS region or based on interaction of RPS with other endogenous homologous sequences, RPS functions as an initiation region for de novo methylation and induces expression variegation in adjacent sequences.
A method is described for isolating high molecular weight D N A from somatic tissue of soft corals. The method avoids problems associated with the presence of nucleases, pigments and other secondary metabolites in soft corals. Tissue is frozen in liquid nitrogen, pulverized with a pestle and mortar, and the powder extracted with buffered sodium dodecyl sulphate at 4 °C in the presence of phenol/chloroform. This technique has been applied to Alcyonium, Sinularia, Sarcophyton and Lobophytum species. Repeated sequences have been cloned from Alcyonium sp., and used to probe slot-blots of genomic D N A and Southern blots of restriction digests. Homologous repeated sequences were detected in three Alcyonium sp., but not in three Sinularia sp., despite these genera being closely related.
Two phenotypic marker genes (A1 and GUS) were employed to monitor the influence of small chain fatty acids on transgene expression in petunia and tobacco. In plants homozygous with respect to the A1 transgene, which normally carry red flowers due to A1 expression, fatty acid treatment induced a range of variegated and white pigmentation patterns which persisted for several months after terminating the treatment. The inhibitory effect was clearly less pronounced for heterozygous plants of the same transgenic line. In all cases the reduction of transgene activities correlated with an increase in transgene promoter methylation. Contrary to evidence reported for mammals and Drosophila, we do not observe an increase in gene expression, but an enhancement of DNA methylation and epigenetic variegation. The inhibition of transgene activity was also observed in several tobacco transformants cultured on fatty acid containing media. Some tobacco transformants carrying Gus-coding regions driven by either 35S or 1'2' promoters responded with a significant reduction in GUS activity. This study suggests that, rather than exerting a general response on all chromatin regions, fatty acids appear to affect genes in a labile epigenetic surrounding or all genes in a susceptible chromatin configuration. Thus, application of these agents may be useful to screen and monitor transgenes prone to epigenetic instabilities.
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