| Abstract
| - Oligonucleotides representing 60 trinucleotide (21mers) and four dinucleotide (20mers) tandem repeats were directly synthesized and arrayed onto an aminated polypropylene substrate. DNA samples of different complexities (a CAG-containing 21mer oligonucleotide, PCR fragments of 200 to 3,000 bp, and cosmids with 31 to 35 kb inserts) were radiolabelled and hybridized to the oligonucleotide array at various temperatures. When compared to sequence data available from the test DNAs, the reverse blot system specifically identified various tri- and dinucleotide short tandem repeats (STRs) in every case. Moreover, there was no random or cross hybridization to nonspecific sequences. It was possible to detect as few as three repeated units in a particular location, as shown for (CCT)n, (GCC)n and (CAC)n triplets in cosmid DNA. Varying the hybridization stringency can enhance the detection of STRs. This single-step reverse blot system therefore allows the rapid, specific and sensitive identification of various STRs in DNA sources of different complexity.
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