A new approach to extending the wheat marker pool by anchored PCR amplication of compound SSRs. Theoretical and Applied Genetics.

Hayden, Matthew James; Stephenson, P.; Logojan, A. M.; Khatkar, D.; Rogers, C.; Koebner, Robert Max David; Snape, J. W.; Sharp, P. J.; School of Agriculture, Food and Wine : Agricultural and Animal Science

A new approach to extending the wheat marker pool by anchored PCR amplication of compound SSRs. Theoretical and Applied Genetics.

2004

The original publication can be found at www.springerlink.com

Show more [+]

A study was undertaken to determine the utility in bread wheat of anchored PCR for the development of single locus SSR markers targeted at compound repeat motifs. In anchored PCR, microsatellite amplification is achieved using a single primer complementary to the flanking sequence, and one which anchors to the repeat junction of the compound SSR. The recovery rate of useable markers was found to be similar (43%) to that reported for conventionally generated SSRs. Thus, anchored PCR can be used to reduce the costs of marker development, since it requires that only half the number of primers be synthesised. Where fluorescence-based platforms are used, marker deployment costs are lower, since only the anchoring primers need to be labelled. In addition, anchored PCR improves the recovery of useful markers, as it allows assays to be generated from microsatellite clones with repeat sequences located close to their ends, a situation where conventional PCR amplification fails as two flanking primers cannot be designed. Strategies to permit the large-scale development of compound SSR markers amplified by anchored PCR are discussed.

Show more [+]

M. J. Hayden, P. Stephenson, A. M. Logojan, D. Khatkar, C. Rogers, R. M. D. Koebner, J. W. Snape and P. J. Sharp

Show more [+]