A new electrophoresis technique to separate microsatellite alleles*

Analysis of large numbers of SSR (simple sequence repeats: microsatellites) reactions can be tedious, time-consuming and expensive. The objective of this study was to report a new electrophoresis method to analyze and visualize SSR data quickly and accurately and compare it to the ability of four other electrophoresis methods. Individual PCR reactions consisting of DNA from several Cornus florida L. (flowering dogwood) cultivars and two SSR primer pairs were assembled for analysis using the following three methods: agarose gel, polyacrylamide gel and QIAxcel System. Two separate PCRreactions consisting of the same components plus a fluorescent-labeled primer were set up for analyses using the CEQTM 8000 Genetic Analysis System and ABI 3130xl DNA Sequencer. These fiveelectrophoretic methods were assessed for advantages and disadvantages. Polyacrylamide gels had highest resolution of alleles, whereas agarose gels had the lowest. However, with both separationmedia, it was difficult to score the size of alleles. Capillary electrophoresis with the CEQTM 8000 Genetic Analysis System and ABI 3130xl DNA Sequencer easily separated products and determined allelic size, but was more expensive than electrophoresis using either agarose or polyacrlamide gels. The QIAxcel System had lower  esolution than CEQTM 8000 Genetic Analysis System and ABI 3130xl DNA Sequencer. However, QIAxcel System was rapid and cost effective compared to the two widely used capillary sequencers, and also provided a computer generated gel image. For researchers in small to intermediate-sized laboratories, the QIAxcel System using a twelve channel, sieving-gel cartridge is an affordable device for SSR assays used for mapping and population diversity analysis

Screening pearl millet cultivars by ELISA for resistance to downy mildew disease

In an earlier study, we described identification of a protein from a virulent pathotype of Sclerospora graminicola, the binding reaction of which differentiated susceptible and resistant cultivars of pearl millet to downy mildew disease. This protein and corresponding antibody were used in an enzyme-linked immunosorbent assay (ELISA) to screen suspension cells of pearl millet cultivars for their resistance to the downy mildew pathogen. Screening results for 31 pearl millet cultivars correlated positively with the established field screening method