An STS content map of human chromosome 11: localization of 910 YAC clones and 109 islands.

Physical mapping of human chromosomes at a resolution of 100 kb to 1 Mb will provide important reagents for gene identification and framework templates for ultimately determining the complete DNA sequence. Sequence-tagged site (STS) content mapping, coupled with large fragment cloning in yeast artificial chromosomes, provides an efficient mechanism for producing first-generation, low-resolution maps of human chromosomes. Previously, we produced a set of standardized STSs for human chromosome 11 regionally localized by fluorescence in situ hybridization or somatic cell hybrid analysis.

Large-scale screening of yeast artificial chromosome libraries using PCR.

The construction of physical maps of the human genome using sequence-tagged site content mapping requires that thousands of PCR amplifications be performed. On this scale, measures to reduce cost and to increase throughput become serious considerations. We describe relatively simple measures developed in our laboratory that increase the rate at which these reactions can be performed in a cost-effective manner.