Please use this identifier to cite or link to this item: http://223.31.159.10:8080/jspui/handle/123456789/106
Title: Isolation of microsatellites from Catharanthus roseus (L.) G. Don using enriched libraries
Authors: Bhatia, Sabhyata
Shokeen, Bhumika
Keywords: STMS
Microsatellites
Biotinylated
Streptavidin
C. roseus
Enriched library
Degenerate primers
Issue Date: 2009
Publisher: Springer
Citation: Methods Mol. Biol., 547: 289-302
Abstract: Catharanthus roseus is an indispensable source of the anticancerous alkaloids-vincristine and vinblastine, even though they are produced in trace amounts in vivo. In order to increase the yield of alkaloids, in vitro tissue culture studies are carried out which result in a large number of lines/cultures. For identification and characterization of the in vitro cultures, microsatellites in the form of STMS (Sequenced Tagged Microsatellite Sites) markers are used for identification of genetic polymorphism. STMS markers are also used for assessment of genetic diversity within natural populations as well as for construction of genetic linkage maps. Isolation of microsatellites and development of STMS markers typically involves library construction and screening, DNA sequencing, polymerase chain reaction (PCR) primer design, and PCR optimization. This chapter details two approaches for the isolation of microsatellite loci. The first approach is based on PCR using microsatellite containing primers which also have degenerate bases at the 5¢-end that act as anchors preventing the primers from slippage to the 3¢-end and the subsequent loss of polymorphism. The multi-locus PCR amplified product is cloned and sequenced. Though this method generates a large number of microsatellites, the major drawback is the high redundancy observed in this method. The second approach described in this chapter is based on the construction of a microsatellite enriched library which involves preferential cloning of the microsatellite enriched fraction of genomic DNA. This method therefore necessitates the isolation of microsatellites through hybridization with biotin labeled oligoprobe followed by their capture with streptavidin-coated magnetic beads. In comparison to the first approach, this approach yields less redundant clones with high microsatellite enrichment. Moreover enriched libraries are 40–60 times more efficient than the conventional small insert genomic libraries.
URI: http://hdl.handle.net/123456789/106
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