A duplicated gene in the breakpoint regions of the 7q11.23 Williams-Beuren syndrome deletion encodes the initiator binding protein TFII-I and BAP-135, a phosphorylation target of BTK.

Williams-Beuren syndrome (WBS) is a neurodevelopmental disorder with multisystemic manifestations caused by heterozygosity for a partial deletion of chromosome band 7q11.23. The breakpoints cluster within regions located approximately 1 cM either side of the elastin (ELN) locus. We have characterized a duplicated region near the common deletion breakpoints, which includes a transcribed gene. The centromeric (C) and telomeric (T) copies are almost identical in the duplicated 3[prime] portions but diverge at their 5[prime]-ends. C-specific 4.3 kb mRNA and T-specific 5.4 kb mRNA are widely expressed in embryonic and adult tissues. The telomeric gene gives rise to several alternatively spliced forms and is deleted in all WBS individuals who have documented ELN deletions. Database searches revealed that this gene encodes BAP-135, a protein phosphorylated by Bruton's tyrosine kinase in B cells, as well as the multifunctional transcription factor TFII-I, hence the gene name GTF2I. The centromeric gene is not deleted in WBS and appears to be a partially truncated expressed pseudogene with no protein product (gene name GTF2IP1). Both loci map to different genomic clone contigs that also contain other deleted and non-deleted loci. A probe from the shared region recognizes a >3 Mb Not I junction fragment that is unique to individuals with the WBS deletion. Therefore, the duplicated region containing GTF2I and GTF2IP1 respectively is located close to the deletion breakpoints and may predispose to unequal meiotic recombination between chromosome 7 homologs and/or to intrachromosomal rearrangements. Hemizygosity for GTF2I may also contribute to the WBS phenotype.

Pérez Jurado LA ，Wang YK ，Peoples R ，Coloma A ，Cruces J ，Francke U ... -  《HUMAN MOLECULAR GENETICS》

A mouse single-copy gene, Gtf2i, the homolog of human GTF2I, that is duplicated in the Williams-Beuren syndrome deletion region.

Wang YK ，Pérez-Jurado LA ，Francke U 《GENOMICS》

Identification of GTF2IRD1, a putative transcription factor within the Williams-Beuren syndrome deletion at 7q11.23.

Franke Y ，Peoples RJ ，Francke U 《cytogenetics and cell genetics》

Delineation of 7q11.2 deletions associated with Williams-Beuren syndrome and mapping of a repetitive sequence to within and to either side of the common deletion.

The majority of Williams-Beuren syndrome (WBS) patients have been shown to have a microdeletion within 7q11.2 including the elastin gene locus. The extent of these deletions has, however, not been well characterized. Thirty-five deletion patients were tested for all polymorphic markers in the 7q11.2 region bounding ELN to define the extent of deletions associated with WBS. With only one exception, ELN, D7S1870, and one copy of the D7S489 locus (D7S489U) were always included in the deletions. One patient showed lack of maternal inheritance at D7S1870 and not at ELN or D7S489U. A product corresponding to D7S489U was amplified from YAC 743G6 and from the P1 clone RMC07P008, thereby localizing both to within the common deletion. The boundary of the deleted region on the proximal (centromeric) side is D7S653 and on the distal side is D7S675, neither of which were ever included in the deletion. One locus, D7S489L, was variably deleted in patients, indicating a minimum of two common breakpoints on the proximal side. At least one additional repeat amplified by D7S489 (D7S489M) was localized to a YAC contig mapping distal to the common deletion. The D7S489 sequence is highly homologous to several cDNA clones in the GenBank database and contains an Alu sequence. It is possible that this andsolidusor other repetitive sequences in this region could play a role in the mechanism of deletion.

Robinson WP ，Waslynka J ，Bernasconi F ，Wang M ，Clark S ，Kotzot D ，Schinzel A ... -  《GENOMICS》

TBL2, a novel transducin family member in the WBS deletion: characterization of the complete sequence, genomic structure, transcriptional variants and the mouse ortholog.

Williams-Beuren syndrome (WBS) is a developmental disorder with multi-system manifestations caused by haploinsufficiency for contiguous genes deleted in chromosome region 7q11.23. The size of the deletion is similar in most patients due to a genomic duplication that predisposes to unequal meiotic crossover events. While hemizygosity at the elastin locus is responsible for the cardiovascular features, the contribution of other genes to the WBS phenotype remains to be demonstrated. We have identified a novel gene, TBL2, in the common WBS deletion. TBL2 is expressed as a 2. 4-kb transcript predominantly in testis, skeletal muscle, heart and some endocrine tissues, with a larger approximately 5-kb transcript detected ubiquitously at lower levels. TBL2 encodes a protein with four putative WD40-repeats. An alternatively spliced transcript in TBL2 introduces a novel second exon with an in frame stop codon. This mRNA encodes a 75 amino acid protein with 43 amino acids identical to TBL2 at the N-terminus and no known functional domain. The mouse homolog, Tbl2, shows 84% sequence identity at the nucleotide level and 92% similarity at the amino acid level. Comparison of the mouse and human sequences identifies a conserved region that extends upstream of the previously published sequence with an initiation codon common to both species that adds 21 amino acids at the N-terminus. The Tbl2 gene has been mapped to mouse chromosome 5 in a region of conserved synteny with human 7q11.23. Since haploinsufficiency has been shown for other WD-repeat containing proteins, hemizygosity of TBL2 may contribute to some of the aspects of the complex WBS phenotype.

Pérez Jurado LA ，Wang YK ，Francke U ，Cruces J ... -  《cytogenetics and cell genetics》