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Web URL(s):	http://www.grasslandoregon.com/assets/molecular-breeding-of-forage-and-turf.pdf#page=58     Last checked: 09/02/2016     Requires: PDF Reader     Notes: Item is within a single large file
Publication Type:	Report
Author(s):	Thorogood, Daniel; Manzanares, Chloe; Studer, Bruno; Hayes, Richard; Barth, Susanne; Asp, Torben
Author Affiliation:	Thorogood and Manzanares: IBERS, Aberystwyth; Hayes: Aberystwyth University, Ceredigion, United Kingdom; Studer and Asp: Institute of Molecular Biology and Genetics, Aarhus University, Slagelse, Denmark; Barth: Teagasc, Carlow, Ireland
Title:	Determination of self-incompatibility genotypes in Lolium perenne through linked DNA marker genotyping
Section:	Other invited oral presentation abstracts Other records with the "Other invited oral presentation abstracts" Section
Meeting Info.:	Salt Lake City, Utah: June 4-7, 2012
Source:	Proceedings of the 7th International Symposium on the Molecular Breeding of Forage and Turf. 2012, p. 58.
# of Pages:	1
Publishing Information:	s.l.: s.n.
Keywords:	TIC Keywords: Chromosome number; Genetic markers; Lolium perenne; Self-incompatibility
Abstract/Contents:	"Self-incompatibility (SI) is a mechanism under genetic control that prevents inbreeding by blocking fertilisation of ovules by like-pollen. Subject to frequency dependent selection, rare alleles, originating through mutation or ingression into populations, are at a selective advantage and theoretically increase in frequency under balancing selection. SI loci are therefore highly poly-allelic. The grass family shares a common two locus SI system controlled gametophytically by two loci, S and Z. Although the genes responsible for SI in grasses have not been identified yet, ne-mapping of S and Z in Lolium perenne has resulted in a number of close flanking markers. For this proof of principle study, we investigate the possibility of using S- and Z-linked marker variation to predict genotypes and their frequencies in plant populations. We used a population of 55 plants derived from a base population of nine genotypes that has been subjected to twelve generations of mixed and half-sib family selection. We screened non- and infrequently-recombinant S and Z DNA markers using high resolution melting curve analysis (HRM) which is highly discriminating, quick and relatively easy to perform. Marker genotypes were then grouped and relative S/Z genotypes were predicted. Marker polymorphisms were confirmed by DNA base sequencing. S/Z genotypes will be confirmed by making selected in-vitro cross-pollinations to demonstrate that the genotype combinations produce the predicted incompatible, half-, three-quarters- and fully-compatible pollinations. The ability to readily determine S/Z genotypes of grass plants will be of interest to population geneticists investigating properties of SI loci and their evolutionary significance. Being able to genotype large numbers of plants quickly and cheaply will also enhance breeders' ability to select plants on SI genotype in order to produce highly intra-incompatible, inter-compatible population combinations for the production of heterotic F1 hybrid populations in forage, turf and bio-energy grass crops."
Language:	English
References:	0
Note:	This item is an abstract only! "ISBN: 978-1-4675-4762-8" "MBFT2012"
	ASA/CSSA/SSSA Citation (Crop Science-Like - may be incomplete): Thorogood, D., C. Manzanares, B. Studer, R. Hayes, S. Barth, and T. Asp. 2012. Determination of self-incompatibility genotypes in Lolium perenne through linked DNA marker genotyping. Proceedings of the 7th International Symposium on the Molecular Breeding of Forage and Turf. p. 58.
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	Web URL(s): http://www.grasslandoregon.com/assets/molecular-breeding-of-forage-and-turf.pdf#page=58     Last checked: 09/02/2016     Requires: PDF Reader     Notes: Item is within a single large file
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