The Gene Cluster Instability (GCI) Assay for Recombination.

A newly developed method for quantitatively detecting genomic restructuring in cultured human cell lines as the result of recombination is presented: the "gene cluster instability" (GCI) assay. The assay is physiological in that it detects spontaneous restructuring without the need for exogenous recombination-initiating treatments such as DNA damage. As an assay for genotoxicity, the GCI assay is complementary to well-established sister chromatid exchange (SCE) methods.

The Sister Chromatid Exchange (SCE) Assay.

A fully optimized staining method for detecting sister chromatid exchanges in cultured cells is presented. The method gives reproducibly robust quantitative results. Sister chromatid exchange is a classic toxicology assay for genotoxicity and for detecting alterations to the biochemistry underlying cellular homologous recombination.

The gene cluster instability (GCI) assay for recombination.

A newly developed method for quantitatively detecting genomic restructuring in cultured human cell lines as the result of recombination is presented: the "gene cluster instability" (GCI) assay. The assay is physiological in that it detects spontaneous restructuring without the need for exogenous recombination-initiating treatments such as DNA damage. As an assay for genotoxicity, the GCI assay is complementary to well-established sister chromatid exchange (SCE) methods.

The sister chromatid exchange (SCE) assay.

A fully optimized staining method for detecting sister chromatid exchanges in cultured cells is presented. The method gives reproducibly robust quantitative results. Sister chromatid exchange is a classic toxicology assay for genotoxicity and for detecting alterations to the biochemistry underlying cellular homologous recombination.

Escherichia coli RecG functionally suppresses human Bloom syndrome phenotypes.

Defects in the human BLM gene cause Bloom syndrome, notable for early development of tumors in a broad variety of tissues. On the basis of sequence similarity, BLM has been identified as one of the five human homologs of RecQ from Escherichia coli. Nevertheless, biochemical characterization of the BLM protein indicates far greater functional similarity to the E.

Configuration and rearrangement of the human GAGE gene clusters.

The GAGE protein is detected only in cancer and in testis and is expressed from a cluster of nearly identical gene copies on the X-chromosome. We determined the lengths of these GAGE gene clusters from human families, identical twins, and in clinical samples from cancer patients. The GAGE cluster lengths proved to be highly heterogeneous, ranging from 13 to 39 gene copies, with an average content of 20 GAGE genes per cluster.

Recombination phenotypes of the NCI-60 collection of human cancer cells.

Background: The NCI-60 is a collection of tumor cell lines derived from a variety of human adult cancer tissue types and is commonly used for genetic analysis and screening of potential chemotherapeutic agents. We wanted to understand the contributions of specific mechanisms of genomic instability to the etiology of cancers represented by the NCI-60.

Results: We screened the NCI-60 for dysregulated homologous recombination by using the gene cluster instability (GCI) assay we pioneered, and for defects in base excision repair by sensitivity to 5-hydroxymethyl-2'-deoxyuridine (hmdUrd).

Human rRNA gene clusters are recombinational hotspots in cancer.

The gene that produces the precursor RNA transcript to the three largest structural rRNA molecules (rDNA) is present in multiple copies and organized into gene clusters. The 10 human rDNA clusters represent <0.5% of the diploid human genome but are critically important for cellular viability.

Loss of Bloom syndrome protein destabilizes human gene cluster architecture.

Bloom syndrome confers strong predisposition to malignancy in multiple tissue types. The Bloom syndrome patient (BLM) protein defective in the disease biochemically functions as a Holliday junction dissolvase and human cells lacking functional BLM show 10-fold elevated rates of sister chromatid exchange. Collectively, these phenomena suggest that dysregulated mitotic recombination drives the genomic instability underpinning the development of cancer in these individuals.

Genomic architecture and inheritance of human ribosomal RNA gene clusters.

The finishing of the Human Genome Project largely completed the detailing of human euchromatic sequences; however, the most highly repetitive regions of the genome still could not be assembled. The 12 gene clusters producing the structural RNA components of the ribosome are critically important for cellular viability, yet fall into this unassembled region of the Human Genome Project. To determine the extent of human variation in ribosomal RNA gene content (rDNA) and patterns of rDNA cluster inheritance, we have determined the physical lengths of the rDNA clusters in peripheral blood white cells of healthy human volunteers.