2017
DOI: 10.18699/vj17.231
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Plant diversity and transcriptional variability assessed by retrotransposon-based molecular markers

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Cited by 11 publications
(9 citation statements)
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“…Bearing this is mind, molecular markers such as retrotransposons and simple sequence repeats (SSR) or microsatellites, which are more informative for the discrimination of closely related genotypes and are considered to be of great value in fingerprinting, mapping, and genetic analysis of plants can be used for discriminating between and within the two groups of plantains evaluated in this study. Thus far, retrotransposon- and microsatellite-based molecular markers have been readily utilized for purposes of genetic analysis, including an estimation of the genetic diversity of plants [33], determination of the relationships between plant accessions, elucidation of evolutionary relationships, as an aid in the taxonomic classification of many plants including tropical pasture grasses [3437] as well as in the molecular genotyping of important crops such as rice [38], orphan legume species [39, 40] and banana and plantain [12]. Consequently, their use in the evaluation of dichotomous bunching plantain cultivars will be in order and highly recommended as this will help to pinpoint the degree of divergence within them on the one hand and between them and the single bunching cultivar of False Horn plantains on the other.…”
Section: Discussionmentioning
confidence: 99%
“…Bearing this is mind, molecular markers such as retrotransposons and simple sequence repeats (SSR) or microsatellites, which are more informative for the discrimination of closely related genotypes and are considered to be of great value in fingerprinting, mapping, and genetic analysis of plants can be used for discriminating between and within the two groups of plantains evaluated in this study. Thus far, retrotransposon- and microsatellite-based molecular markers have been readily utilized for purposes of genetic analysis, including an estimation of the genetic diversity of plants [33], determination of the relationships between plant accessions, elucidation of evolutionary relationships, as an aid in the taxonomic classification of many plants including tropical pasture grasses [3437] as well as in the molecular genotyping of important crops such as rice [38], orphan legume species [39, 40] and banana and plantain [12]. Consequently, their use in the evaluation of dichotomous bunching plantain cultivars will be in order and highly recommended as this will help to pinpoint the degree of divergence within them on the one hand and between them and the single bunching cultivar of False Horn plantains on the other.…”
Section: Discussionmentioning
confidence: 99%
“…The RLX-based genetic marker techniques rely on PCR amplification between features such as the LTR that are conserved in RLXs, or between these features and other dispersed and conserved motifs in the genome. The methods include retrotransposonbased insertion polymorphism (RBIP) [21], sequencespecific amplified polymorphism (S-SAP) [22], interretrotransposon-amplified polymorphism (IRAP) [19], retrotransposon-microsatellite-amplified polymorphism (REMAP), and inter-primer binding site (iPBS) amplification [17][18][19][23][24][25][26][27].…”
Section: Introductionmentioning
confidence: 99%
“…Similarly to plants, activation of retrotransposons contributes to faster microbial evolution and increased environmental plasticity [9][10][11]. LTR retrotransposon sequences are used to detect mycelial fungal polymorphism using PCR fingerprinting [10][11][12][13][14][15][16].…”
Section: Introductionmentioning
confidence: 99%
“…Since many retrotransposons are embedded, recombined, inverted, or truncated, they can be easily amplified using conservative PBS primers in almost any organism, this allows this method to be used as a universal and highly effective method for direct detection of polymorphism (figure 1) [13]. The iPBS method has shown the usefulness of a wide range for plants and animals and has recently been used to characterize the genetic variability of fungal pathogens [12,[14][15][16][17].…”
Section: Introductionmentioning
confidence: 99%