Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
8950987 | Plant Gene | 2018 | 72 Pages |
Abstract
Repeated DNA analysis was conducted in three Agave species (A. angustifolia Haworth, A. tequilana Weber and A. fourcroydes Lemaire). Self-priming PCR was initially used to generate repeated PCR products and their sequence information was then used to build different primers sets. The ATsat102-113 primer set was able to amplify repeated PCR products, including probably multimers without becoming a typical ladder profile, in all Agave accessions analyzed. Sequence analysis of these amplifications identified two subfamilies of repeated DNA which share six conserved short motifs but exhibit a high genetic distance and different sequence traits between them. Consensus monomers obtained have a length higher than 100â¯bp and are rich in Adenine/Thymine percentage, as many satellites of plants. A representative probe of these consensus monomers was able to hybridize in some PCR amplified products and the more frequent short motif 1 (CTYRAGTTSG) also exhibits probably multimers without becoming a typical ladder profile. These Agave satellite-like subfamilies have different homogenization rates and the subfamily 2 is more conserved. These satellite-like monomers are transcribed and exhibited a strong relation with transposable element signatures of the LTR/Gypsy families and with A. tequilana TSA sequences, some which exhibits transposon-related domains in different locations to the satellite-like sequences identified. FISH analysis of these satellites-like subfamilies only may be reliable determined in the diploid (A. angustifolia Haworth var. Marginata and A. tequilana Weber 'Azul') accessions. In these generally showed a subtelomeric hybridization with less interstitial signals.
Keywords
Related Topics
Life Sciences
Agricultural and Biological Sciences
Plant Science
Authors
Espinosa-Barrera L.A., Sánchez-Teyer L.F., Quiroz-Moreno A., Narváez-Zapata J.A.,