Refinement of the Van der Woude gene location and construction of a 3.5-Mb YAC contig and STS map spanning the critical region in 1q32-q41.

Van der Woude syndrome (VWS) is the most frequent form of syndromic clefting. Linkage analysis has localized the gene between D1S245 and D1S414, an interval of 4.1 cM with the following order of loci: centromere-D1S245/D1S471-D1S491-D1S205-D1S414 -telomere. A microdeletion around D1S205 aided in narrowing the critical region to D1S491-D1S414 by heterozygosity testing. In this study, the location was refined by detection of a recombinant with D1S205 in a new family, indicating that VWS lies between D1S491 and D1S205, a 1.6-cM interval. A roughly 3.5-Mb YAC contig was built from D1S245 through D1S414, encompassing the interval D1S491-D1S205 in level 1 or level 2 paths. Clones were assembled by sequence tagged site (STS) content using the five polymorphic markers from above, four novel STSs identified from YAC ends, and a new STS derived from probe CRI-L461 (D1S70). D1S70 was assigned to the critical region. One single YAC, yCEPH785B2, contains both flanking STSs (D1S491, D1S205). STS content mapping suggests neither chimerism nor deletion of yCEPH785B2 but does suggest that the maximum size of the critical region is approximately 850 kb. All STSs were tested for their presence on a somatic cell hybrid containing the microdeleted chromosome 1 as the sole human chromosome 1 component. Both the proximal and distal ends of the microdeletion mapped to the 850-kb YAC, yCEPH785B2. Therefore, the microdeletion overlapped the critical region, confirming the genetic recombinant data.