Genetic diversity among plants of non-transgenic and transgenic versions of a single cross maize hybrid

Previous studies have documented that transgene introduction may alter the phenotypic expression of several traits [e.g., biomass production, grain yield]. We hypothesized that genetic diversity could influence the phenotypic variation among hybrids of a same genetic background and also among plants...

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Detalles Bibliográficos
Otros Autores: Laserna, M. P., López, César G., Aulicino, M., Maddonni, Gustavo Angel
Formato: Artículo
Lenguaje:Español
Materias:
ZEA MAYS
TRANSGENIC PLANT
TRANSGENIC HYBRID
SINGLE NUCLEOTIDE POLYMORPHISM
POLYMORPHISM
PHYTOMASS
PHENOTYPE
NON-TRANSGENIC HYBRID
MAIZE
HYBRID
GENETIC VARIATION
GENETIC DIVERSITY
GENE EXPRESSION
Acceso en línea:http://ri.agro.uba.ar/files/intranet/articulo/2015laserna.pdf
LINK AL EDITOR
Aporte de:Registro referencial: Solicitar el recurso aquí
Biblioteca Central (FAUBA) de Universidad de Buenos Aires
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245 1 0 |a Genetic diversity among plants of non-transgenic and transgenic versions of a single cross maize hybrid 
520 |a Previous studies have documented that transgene introduction may alter the phenotypic expression of several traits [e.g., biomass production, grain yield]. We hypothesized that genetic diversity could influence the phenotypic variation among hybrids of a same genetic background and also among plants of a hybrid. The objectives of this preliminary study were: [i] to quantify the genetic diversity between the non-transgenic [DK747] and transgenic versions [DK747MG, DK747RR and DK747MGRR] of a single-cross maize hybrid and among plants of each version, [ii] to observe the distribution of genetic diversity along the genome and [iii] to explore relationships between phenotypic variability and genetic diversity. Hybrids were cultivated at field conditions during two growing seasons and plants of each hybrid with high, intermediate and low biomass at physiological maturity were selected to perform a study of single nucleotide polymorphisms [SNP]. Genetic diversity among plants of each version was greater than among versions and both sources of variation were significant [?ST=0.45, P less than 0.01]. Genetic diversity of the non-transgenic DK747 was higher than those of the transgenic versions, probably reflecting the conventional breeding history of these iso-hybrids. Similarity coefficients indicate that the most homogeneous group was that composed by plants of DK747MGRR. A Fisher's exact test together with a principal component analysis identified certain SNPs related to the contrasting plant biomass of DK747, 747MG and DK747RR. Caution should be taken with these results, because of the small sample size for SNPs study and the narrow set of tested hybrids. 
650 |2 Agrovoc  |9 26 
653 0 |a ZEA MAYS 
653 0 |a TRANSGENIC PLANT 
653 0 |a TRANSGENIC HYBRID 
653 0 |a SINGLE NUCLEOTIDE POLYMORPHISM 
653 0 |a POLYMORPHISM 
653 0 |a PHYTOMASS 
653 0 |a PHENOTYPE 
653 0 |a NON-TRANSGENIC HYBRID 
653 0 |a MAIZE 
653 0 |a HYBRID 
653 0 |a GENETIC VARIATION 
653 0 |a GENETIC DIVERSITY 
653 0 |a GENE EXPRESSION 
700 1 |9 71592  |a Laserna, M. P. 
700 1 |9 44389  |a López, César G. 
700 1 |a Aulicino, M.  |9 71593 
700 1 |9 7271  |a Maddonni, Gustavo Angel 
773 |t Field Crops Research  |g vol.176 (2015), p.56-60 
856 |u http://ri.agro.uba.ar/files/intranet/articulo/2015laserna.pdf  |i En reservorio  |q application/pdf  |f 2015laserna  |x MIGRADOS2018 
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