Skip to main content
ARS Home » Southeast Area » Charleston, South Carolina » Vegetable Research » Research » Publications at this Location » Publication #248093
Title: Oligonucleotides that Exist in High Frequency in EST-unigenes are Useful in Producing Polymorphism among Watermelon Genotypes

Author
item Levi, Amnon
item Wechter, William - Pat
item Harris-Shultz, Karen
item Davis, Angela
item FEI, Z - Boyce Thompson Institute

Submitted to: Plant and Animal Genome Conference
Publication Type: Abstract Only
Publication Acceptance Date: 11/7/2009
Publication Date: 1/9/2010
Citation: Levi, A., Wechter, W.P., Harris, K.R., Davis, A.R., Fei, Z. 2010. Oligonucleotides that Exist in High Frequency in EST-unigenes are Useful in Producing Polymorphism among Watermelon Genotypes. Plant and Animal Genome Conference. January 9-13, 2010, P-204.

Interpretive Summary: N/A

Technical Abstract: In this study, we report a simple procedure for developing and using a new type of polymerase chain reaction (PCR) primers, named ‘high frequency oligonucleotides - targeting active genes (HFO-TAG)’. The HFO-TAG primers are constructed by first using a “practical extraction and report language (Perl)” script to identify oligonucleotides (8, 9, and 10 base) that exist in high frequency in a 4,700 EST-unigene watermelon fruit library. This computer-based screening yielded 3,200 oligonucleotides that exist 32 to 335 times in 4,700 EST-unigenes constructed for watermelon. Of these, 192 HFO-TAG primers (present 51-269 times in the 4,700 EST-unigenes) were used to amplify DNA from closely related watermelon cultivars. The average number of DNA fragments produced by a single HFO-TAG primer among the watermelon cultivars was considerably higher than the number of fragments produced by inter-simple sequence repeat (ISSR) or randomly amplified polymorphic DNA (RAPD) primers. Also, the HFO-TAG primers produced considerably more fragments than the ISSR or RAPD primers from a watermelon cDNA library that was used as a template. These results indicate that the HFO-TAG primers should be more specific in targeting active gene loci. The extensive EST database available for a large number of plant and animal species should be useful for developing HFO-TAG primers that can be used in genetic mapping and phylogenic studies of important crop plants and animal species.