Somaclonal variation in rye (Secale cereale L.) analyzed using polymorphic and sequenced AFLP markers

Puente, Raúl de la; González, Ana Isabel; Ruiz, María Luisa Sanchiz; Polanco, Carlos

doi:10.1007/s11627-008-9152-z

Cited by 31 publications

(24 citation statements)

References 33 publications

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“…These changes can modify the regenerated plant phenotype and thus are considered to be an impediment to processes such as clonal micropropagation or genetic transformation. The rate of somaclonal variation can differ between species and, in some, the mutation frequency is quite high, 50.8% of variable regenerated plants, as previously reported for rye (Linacero and Vázquez 1993) and subsequently confirmed by others (Linacero et al 2000;Rakoczy-Trojanowska 2002;de la Puente et al 2008). Somaclonal variation, considered as a mutation inductive process, shows particular features (Vázquez 2001).…”

Section: Introductionsupporting

confidence: 57%

“…Epigenetic regulation is a common cellular mechanism underlying both genetic and epigenetic instabilities in plant tissue cultures (Zhang et al 2009;Vázquez and Linacero 2010). In rye, several methodologies have been used to assess in vitro induced variation (Linacero and Vázquez 1992a, b;Linacero and Vázquez 1993;Puolimatka and Karp 1993;Linacero et al 2000;Rakoczy-Trojanowska 2002;de la Puente et al 2008) confirming high levels of genetic variability in this species. In this study, the ISSR technique was applied for the first time in regenerated rye plants, and a high number of plants with at least one genetic modification were observed.…”

Section: Discussionmentioning

confidence: 99%

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Genetic and epigenetic relationship in rye, Secale cereale L., somaclonal variation within somatic embryo-derived plants

Linacero

Rueda

Esquivel

et al. 2011

In Vitro Cell.Dev.Biol.-Plant

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In vitro regenerated plants of rye, Secale cereale L., Ailés and Merced cultivars, were studied to verify if genetic and/or epigenetic changes were promoted by in vitro conditions. Inter-simple sequence repeat (ISSR) fingerprints on HpaII/MspI-digested and uncut DNA were generated. DNA digested with methylation-sensitive isoschizomers revealed epigenetic modifications, while modification of ISSR patterns obtained with undigested DNA indicated genetic changes. With this technique, it was possible to study both genetic and/or epigenetic changes within the same DNA sequences. The frequency of plants with at least one variation was high: 73% and 30% of rye plants showed at least one genetic change, and 50% and 73% carried at least one methylation change, in the Ailés and Merced cultivars, respectively. Further analyses revealed that a considerable number of variable markers showed both types of modifications, indicative of both genetic and epigenetic changes. Moreover, genetic variation was related to the presence of the CCGG target in the analyzed bands. These results indicate the possible existence of a common mechanism connecting both types of variation.

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Section: Introductionsupporting

confidence: 57%

Section: Discussionmentioning

confidence: 99%

Genetic and epigenetic relationship in rye, Secale cereale L., somaclonal variation within somatic embryo-derived plants

Linacero

Rueda

Esquivel

et al. 2011

In Vitro Cell.Dev.Biol.-Plant

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“…This does not mean that all tissue-cultured cells contained a particular mutation but indicates that it was present in at least some cells in each callus sample. A similar phenomenon was observed in rye, where variation in the same RAPD or AFLP products was detected in plants regenerated from different initial calli (Linacero et al, 2000;de la Puente et al, 2008). Those authors showed that such independent mutational events affected exactly the same sequences.…”

Section: Discussionsupporting

confidence: 65%

“…Micropropagation techniques are of practical importance; many currently published papers on in vitro-induced genetic changes relate to the variability of cloned plants (somaclonal variation). Most of them show a rich array of genetic variants (Bednarek et al, 2007;Jin et al, 2008;de la Puente et al, 2008;Aversano et al, 2009;Mo et al, 2009) though only a small part of the genetic variability is transferred from cultured tissues to micropropagated plants. Genetic variation in vitro arises from chromosome alterations and/or changes on the DNA level (Lee and Phillips, 1988;Kaeppler et al, 2000;Kwasniewska et al, 2012), but it remains unclear whether these phenomena occur independently.…”

Section: Discussionmentioning

confidence: 99%

DNA Stability Contrasts with Chromosome Variability in Allium Fistulosum Calli

Mizia¹,

Kwolek²,

Ilnicki³

2014

Acta Biologica Cracoviensia S. Botanica

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RAPD analysis was applied to assess the degree of DNA polymorphism in A. fistulosum calli of high chromosomal instability. Nineteen of 24 randomly selected RAPD primers revealed scorable polymorphism between calli and seeds (reference material). Polymorphic band frequency was 55/237 in seeds and 36/233 in calli; variability on the DNA level was thus lower in calli than in seeds (15.4% vs. 23.2% of band positions). UPGMA analysis of Jaccard's coefficients confirmed the genetic similarity of the analyzed cultures. The most distinctive DNA changes in calli involved coincident loss of original bands or the appearance of novel bands. Seven such changes (4 losses, 3 gains) were observed. Our results suggest that changes on the chromosomal level and on the DNA level occurred independently of each other and that different callus lines underwent similar genetic changes during culture, presumably due to strong selection pressure effected by standard in vitro conditions. K Ke ey y w wo or rd ds s: : Allium fistulosum, tissue culture, RAPD, DNA polymorphism, somaclonal variation.

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“…Such nonrandom genetic changes may result from the occurrence of the regions within U. victoris genome that show increased susceptibility to variation in culture in vitro. Existence of such regions was suggested earlier in Secale cereale (Linacero et al 2000, De la Puente et al 2008, Arabidopsis thaliana (Polanco and Ruiz 2002), Allium sativum (Al-Zahim et al 1999), Iris pseudacorus (Kozyrenko et al 2004), Allium cepa (Bohanec et al 1995) and Eucalyptus globulus (Mo et al 2009). Simultaneous occurrence of the same novel band in several regenerants may also results from their origin from the callus composed of cells bearing specific mutation.…”

Section: ⎯⎯⎯⎯mentioning

confidence: 72%

Genetic variability in regenerated plants of Ungernia victoris

et al. 2012

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To determine the suitability of micropropagation techniques developed for conserving rare medicinal herb Ungernia victoris we estimated the genetic fidelity of plants produced through direct regeneration from the bulb scale segments and organogenesis from long-term callus culture. Average value of the Jaccard's distances between explant-derived regenerants and maternal plants calculated from RAPD data was 0.5 %, while that of estimated between callus-derived regenerants and maternal cell line was 4.2 %; average distances between the objects among the explant-derived and callus-derived regenerants were 0.7 % and 2.5 %, respectively. The data obtained suggest that conditions for in vitro culture applied in this work provide relatively high genetic stability of the species upon the direct regeneration in vitro and regeneration from the long-term cultured callus.

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Somaclonal variation in rye (Secale cereale L.) analyzed using polymorphic and sequenced AFLP markers

Cited by 31 publications

References 33 publications

Genetic and epigenetic relationship in rye, Secale cereale L., somaclonal variation within somatic embryo-derived plants

Genetic and epigenetic relationship in rye, Secale cereale L., somaclonal variation within somatic embryo-derived plants

DNA Stability Contrasts with Chromosome Variability in Allium Fistulosum Calli

Genetic variability in regenerated plants of Ungernia victoris

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