Conventional methods for labeling double-stranded DNA lead to high specific activity. Yet they often alter the target DNA sequence to such an extent as to prevent a meaningful protein/DNA interaction analysis. Therefore we tried to establish a polymerase chain reaction (PCR)-based method which allows radiolabeling to high specific activity and should maintain the protein binding capability of small double stranded DNA fragments. By using PCR it is possible to label double stranded DNA to high specificity, but the protein binding capability of such DNA is drastically reduced.
A cosmid library has been constructed from a hamster × human hybrid cell line and gridded into 270 microtiter plates containing a total of 25,920 single colonies. Approximately 84% of the recombinants contain human material, with an average length of 29 kb. This library represents a nearly three-fold coverage of human chromosome 4. We investigated this library for presumptive genes, using a set of oligonucleotides detecting Spl and splice-site consensus sequences. The presence of simple repeat motifs was investigated in the cosmids using the oligonucleotides (GGATTT)3, (GGAT)4, (CAC)5, (GCC)5, (AGC)5, (GATA)4, (GACA)4, and (CA)8 as hybridization probes.
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