Loss of chromosome 3 alleles and multiplication of chromosome 8 alleles in uveal melanoma.

Uveal melanoma is the most frequent primary intraocular tumor. The etiology is unknown. Using neutral DNA polymorphisms on chromosomes 2, 3, and 8, we have detected loss of chromosome 3 alleles in 8 of 13 tumors and multiplication of chromosome 8 alleles in 6 of 11 tumors.

Interstitial deletions in DiGeorge syndrome detected with microclones from 22q11.

DiGeorge syndrome in humans is characterized by immunodeficiency, heart defects, mental retardation and facial dysmorphism; cytogenetic analysis has shown that deletions at 22q11 occur in approximately 25% of cases. To generate DNA markers from this region, we have microdissected and microcloned band q11 of human Chromosome (Chr) 22. Nineteen thousand clones were obtained from material dissected from 20 chromosome fragments.

The syntenic relationship between the critical deletion region for the Prader-Willi/Angelman syndromes and proximal mouse chromosome 7.

The deleted region of the proximal long arm of human chromosome 15, common to a large group of patients with the Prader-Willi and Angelman syndromes, has recently been defined. We have mapped to the mouse genome segments homologous to human probes found within and flanking this deletional region. These probes define a region of conserved synteny on proximal chromosome 7 of the mouse.

Characterization and mapping of microdissected genomic clones from the adenomatous polyposis coli (APC) region.

The gene associated with adenomatous polyposis coli (APC) has been mapped to the long arm of chromosome 5. To saturate the APC region with DNA markers, two independent microdissection libraries with an emphasis on 5q21.2-21.

New markers for the neurofibromatosis-2 region generated by microdissection of chromosome 22.

To identify new DNA markers around the neurofibromatosis-2 gene on human chromosome 22, the critical region (22q12-q13.1) was microdissected and microcloned from GTG-banded metaphase chromosomes. Eighteen thousand recombinant clones were obtained.

A tumor chromosome rearrangement further defines the 11p13 Wilms tumor locus.

A sporadic Wilms tumor, WT-21, with an (11;14)-(p13;q23) reciprocal translocation has been identified. The translocation is found in tumor cells, but not in the patients' circulating lymphocytes. Molecular analysis of somatic cell hybrids segregating the derivative translocation chromosomes reveals a submicroscopic interstitial deletion at the translocation breakpoint, as well as a cytologically undetectable interstitial deletion in the nontranslocation chromosome 11, resulting in a homozygous deletion in 11p13.

Characterization of deletions at the retinoblastoma locus in patients with bilateral retinoblastoma.

DNA samples from 92 unrelated patients with bilateral retinoblastoma were analyzed by Southern blot hybridization with cDNA and genomic clones of the retinoblastoma (RB-1) gene. Qualitative and quantitative evaluation of the Southern blot patterns showed a deletion of all or part of the RB-1 gene in 15 patients. Deletion hot spots were not detected.

Microdissection of chromosome band 11p15.5: characterization of probes mapping distal to the HBBC locus.

Both cytogenetic and molecular genetic analyses of the 11p15.5 subband suggest it may contain loci important in the genesis of a wide variety of tumors such as rhabdomyosarcomas and Wilms' tumors as well as the congenital tumors associated with the Beckwith-Wiedemann syndrome. As a first step in further defining the involvement of this chromosomal region in these various maladies, a library was constructed from the specific microdissection of chromosomal fragments representing 11p15.

No evidence for sequences structurally related to the RB1 gene in the human genome.

The retinoblastoma (RB1) gene is a ubiquitously expressed gene encoding a cell-cycle control protein. Inactivation of this gene plays a crucial role in the development of retinoblastoma, osteosarcoma, and other tumors. In a search for structurally related gene sequences we identified a 5.

Long-term treatment effects in patients with bilateral retinoblastoma: ocular and mid-facial findings.

A total of 99 patients with bilateral retinoblastoma who had been treated between 1965 and 1982 were reexamined in April 1988 to study the late effects of treatment. Their median age at the follow-up visit in 1988 was 16 years (range, 6-27 years), and the median follow-up was 15 years (range, 6-26 years). All patients underwent a full eye examination, morphometric measurements of the mid-face and genetic counselling.

Possible involvement of the retinoblastoma gene in undifferentiated sinonasal carcinoma.

Retinoblastoma tumor formation is initiated by the loss of function of both alleles of the RB-1 gene on chromosome 13. Patients with the hereditary form of retinoblastoma carry a germ line mutation at one of the two homologous gene loci in all cells and have an increased risk for nonocular tumors (mainly osteosarcoma and other mesenchymal tumors) in later life. The authors studied a 38-year-old patient with sinonasal undifferentiated carcinoma (SNUC) who had been treated for bilateral retinoblastoma by enucleation (left eye) and irradiation (right eye), respectively.

Somatic cell hybrid and long-range physical mapping of 11p13 microdissected genomic clones.

Microdissection and microcloning of banded human metaphase chromosomes have been used to construct a genomic library of 20,000 clones that is highly enriched for chromosome 11p13 DNA sequences. Clones from this library have been mapped on a panel of human-rodent somatic cell hybrids that divides the region from distal p12 to proximal p14 into seven physical intervals, A total of 1500 clones has been isolated, 250 clones have been characterized, and 58 clones have been mapped. Six of the clones were used to complete a long-range physical map of 7.

Microdissection of the fragile X region.

We have microdissected and cloned the region around the fragile site at Xq27.3 on the human X chromosome. All of the clones tested map to the Xq27-Xq28 region, and detailed mapping on a panel of somatic cell hybrids indicates that the microdissected library contains sequences derived from both sides of the fragile X mutation.

Newly established human retinoblastoma cell lines exhibit an "immortalized" but not an invasive phenotype in vitro.

Retinoblastoma (RB), an intraocular childhood tumor occurring in a hereditary (mostly bilateral) or non-hereditary (unilateral) form, is associated with the inactivation of both alleles of a putative tumor suppressor gene (RB-I) located on chromosome 13q14. Both the process of RB development and the biological characteristics of RB cells are as yet poorly understood. We have established 7 new RBL lines (RBL13, RBL14, RBL18 and RBL30, derived from unilateral RB; and RBL7, RBL15 and RBL20, derived from bilateral RB).

Somatic mosaicism in a patient with bilateral retinoblastoma.

We describe two cell lines with different deletions of the retinoblastoma gene in a patient with bilateral retinoblastoma. This patient has transmitted the mutation less frequent in his lymphocytes to two affected children. We cloned, mapped, and sequenced the junction fragments of the two deletions and found that they share one breakpoint but extend into opposite directions.

Microdissection of banded human chromosomes.

Physical dissection of metaphase chromosomes is the most straightforward approach for the isolation of DNA sequences from specific chromosome regions. However, conventional microdissection techniques are too crude and inefficient for analysis of the human genome. Here we describe a technique for the precise dissection of single bands from GTG-banded chromosomes.

Construction and characterization of band-specific DNA libraries.

A universally primed polymerase chain reaction was developed to amplify DNA dissected from GTG-banded human chromosomes. The amplification products are cloned into plasmid vectors, which allow the rapid characterization of recombinant clones. Starting from 20-40 chromosome fragments, several thousand independent clones detecting single-copy sequences can be obtained.

Microdissection of the Prader-Willi syndrome chromosome region and identification of potential gene sequences.

The Prader-Willi syndrome chromosome region on the long arm of human chromosome 15 was microdissected and microcloned from 20 GTG-banded metaphase chromosomes, and 5000 recombinant clones were obtained. Of these clones, 39% identify single-copy human DNA sequences, most of which map to the dissected chromosome region and are evolutionarily conserved in other species. Three of eleven clones studied in detail are deleted in several patients with Prader-Willi syndrome.