Determination of the DNA methylation level of the marbled crayfish: An increase in sample throughput by an optimised sample preparation

Schiewek, Ralf; Wirtz, Michaela; Thiemann, Matthias; Plitt, Kay; Vogt, Günter; Schmitz, Oliver J.

doi:10.1016/j.jchromb.2006.11.040

Cited by 18 publications

(12 citation statements)

References 16 publications

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“…Analyses were performed with capillary electrophoresis, using a novel and highly sensitive sample preparation technique (Schiewek et al, 2007). Each sample was measured at least 20 times.…”

Section: Investigation Of Dna Methylationmentioning

confidence: 99%

“…In order to test if differently grown batch-mates of the marbled crayfish also show differences in the epigenetic code, we measured global methylation of cytosines in the DNA of the hepatopancreas and the abdominal musculature, using an improved and highly sensitive analytical technique recently developed by us (Schiewek et al, 2007). This method allows the determination of very low genome-wide methylation levels (<1%) from DNA samples as small as 1·g.…”

Section: Variation Of Global Dna Methylationmentioning

confidence: 99%

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Production of different phenotypes from the same genotype in the same environment by developmental variation

Vogt

Huber

Thiemann

et al. 2008

Journal of Experimental Biology

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184

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SUMMARY The phenotype of an organism is determined by the genes, the environment and stochastic developmental events. Although recognized as a basic biological principle influencing life history, susceptibility to diseases, and probably evolution, developmental variation (DV) has been only poorly investigated due to the lack of a suitable model organism. This obstacle could be overcome by using the recently detected, robust and highly fecund parthenogenetic marbled crayfish as an experimental animal. Batch-mates of this clonal crayfish, which were shown to be isogenic by analysis of nuclear microsatellite loci,exhibited surprisingly broad ranges of variation in coloration, growth,life-span, reproduction, behaviour and number of sense organs, even when reared under identical conditions. Maximal variation was observed for the marmorated coloration, the pattern of which was unique in each of the several hundred individuals examined. Variation among identically raised batch-mates was also found with respect to fluctuating asymmetry, a traditional indicator of the epigenetic part of the phenotype, and global DNA methylation, an overall molecular marker of an animal's epigenetic state. Developmental variation was produced in all life stages, probably by reaction–diffusion-like patterning mechanisms in early development and non-linear, self-reinforcing circuitries involving behaviour and metabolism in later stages. Our data indicate that, despite being raised in the same environment, individual genotypes can map to numerous phenotypes viaDV, thus generating variability among clone-mates and individuality in a parthenogenetic species. Our results further show that DV, an apparently ubiquitous phenomenon in animals and plants, can introduce components of randomness into life histories, modifying individual fitness and population dynamics. Possible perspectives of DV for evolutionary biology are discussed.

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“…Analyses were performed with capillary electrophoresis, using a novel and highly sensitive sample preparation technique (Schiewek et al, 2007). Each sample was measured at least 20 times.…”

Section: Investigation Of Dna Methylationmentioning

confidence: 99%

Section: Variation Of Global Dna Methylationmentioning

confidence: 99%

Production of different phenotypes from the same genotype in the same environment by developmental variation

Vogt

Huber

Thiemann

et al. 2008

Journal of Experimental Biology

Self Cite

196

184

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“…However, not all of the established ageing models are suitable to investigate alterations of DNA methylation throughout life because Caenorhabditis elegans lacks methylated DNA at all (Bird 2002) and Drosophila melanogaster possesses methylated DNA only in the early stages of embryonic development (Lyko et al 2006). The marbled crayfish, in contrast, has methylated DNA in both the juvenile and adult life stages, corresponding to approximately half of the value of humans (Schiewek et al 2007;Vogt et al 2008). Measurement of global 5-methyl cytosine methylation in two communally reared batches of the marbled crayfish revealed variations among batch-mates, tissue and age (Vogt et al 2008).…”

Section: Epigenetic Drift During Ageing and Epigenetic Interventionmentioning

confidence: 99%

“…Alterations of global DNA methylation during lifetime could be determined from blood or limb muscle samples using a refined analytical technique to precisely measure low methylation levels in small sample sizes (Schiewek et al 2007). Age-related changes of the genome-wide DNA methylation patterns in various tissues could be determined by restriction landmark genomic scanning even without knowing particular genes (Thompson et al 2010).…”

Section: Epigenetic Drift During Ageing and Epigenetic Interventionmentioning

confidence: 99%

Suitability of the clonal marbled crayfish for biogerontological research: a review and perspective, with remarks on some further crustaceans

Vogt

2010

Biogerontology

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This article examines the suitability of the parthenogenetic marbled crayfish for research on ageing and longevity. The marbled crayfish is an emerging laboratory model for development, epigenetics and toxicology that produces up to 400 genetically identical siblings per batch. It is easily cultured, has an adult size of 4-9 cm, a generation time of 6-7 months and a life span of 2-3 years. Experimental data and biological peculiarities like isogenicity, direct development, indeterminate growth, high regeneration capacity and negligible senescence suggest that the marbled crayfish is particularly suitable to investigate the dependency of ageing and longevity from non-genetic factors such as stochastic developmental variation, allocation of metabolic resources, damage and repair, caloric restriction and social stress. It is also well applicable to examine alterations of the epigenetic code with increasing age and to identify mechanisms that keep stem cells active until old age. As a representative of the sparsely investigated crustaceans and of animals with indeterminate growth and extended brood care the marbled crayfish may even contribute to evolutionary theories of ageing and longevity. Some relatives are recommended as substitutes for investigation of topics, for which the marbled crayfish is less suitable like genetics of ageing and achievement of life spans of decades under conditions of low food and low temperature. Research on ageing in the marbled crayfish and its relatives is of practical relevance for crustacean fisheries and aquaculture and may offer starting points for the development of novel anti-ageing interventions in humans.

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“…Nonchromatographic methods used for the assessment of genomic DNA methylation include: the preferential conversion of unmethylated cytosine to uracil by sodium bisulphite and subsequent determination by PCR amplification and sequencing [2,8]; a radioactive assay which involves the de novo transfer of a radioactive methyl donor by DNA methyltransferase to 2′-deoxycytidine (dC) sites within the DNA [9]; a Southern blot assay that utilises DNA digestion with restriction endonucleases that are sensitive to methylated sites [2,10]; an assay involving single nucleotide extension with radiolabelled [ 3 H]dCTP following cleavage of DNA with methylation-sensitive restriction endonucleases [11]. Chromatographic approaches include methods such as thin layer chromatography (following 32 P-postlabelling) [12,13], high performance liquid chromatography (HPLC) coupled to UV and mass spectrometric [14][15][16][17] detection, gas chromatography [18,19] and capillary electrophoresis [20][21][22][23][24].…”

Section: Introductionmentioning

confidence: 99%

Determination of 5-methyl-2′-deoxycytidine in genomic DNA using high performance liquid chromatography-ultraviolet detection

Sandhu

Kaur

Armstrong

et al. 2009

Journal of Chromatography B

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2 Abbreviations: 5-MedC, 5-methyl-2′-deoxycytidine; dC, 2′-deoxycytidine; dG, 2′-deoxyguanosine; T, thymidine; dA, 2′-deoxyadenosine; G, guanosine 3 AbstractThe formation of 5-methyl-2′-deoxycytidine (5-MedC) following methylation of the C-5 position of cytosine in genomic DNA provides an epigenetic mechanism for the regulation of gene expression and cellular differentiation. We describe the development of a method using HPLC-ultraviolet (UV) detection for the accurate determination of 5-MedC in DNA. Genomic DNA was obtained from HeLa cells and rat liver tissue using an optimised anion-exchange column DNA extraction procedure incorporating a ribonuclease incubation step to remove any potential interference from RNA. Following extraction the DNA samples were enzymatically hydrolysed to 2′-deoxynucleosides using a combination of an endo-exonuclease plus 5′-exonuclease together with a 3′-nucleotidase. The hydrolysed DNA samples (10 µg on column)were analysed using narrow-bore reverse phase HPLC-UV detection. The level of 5-MedC in the DNA samples was expressed as a percentage of the level of 2′-deoxycytidine (dC) determined from calibration lines constructed using authentic standards for 5-MedC and dC. The percentage 5-MedC level determined for commercially available calf thymus DNA was 6.26%, for HeLa cell DNA was 3.02% and for rat liver DNA was 3.55%.4

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Determination of the DNA methylation level of the marbled crayfish: An increase in sample throughput by an optimised sample preparation

Cited by 18 publications

References 16 publications

Production of different phenotypes from the same genotype in the same environment by developmental variation

Production of different phenotypes from the same genotype in the same environment by developmental variation

Suitability of the clonal marbled crayfish for biogerontological research: a review and perspective, with remarks on some further crustaceans

Determination of 5-methyl-2′-deoxycytidine in genomic DNA using high performance liquid chromatography-ultraviolet detection

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