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Nonhomologous end joining (NHEJ) is a critical DNA repair pathway, with proposed tumor suppression functions in many tissues. Mutations in the NHEJ factor ARTEMIS cause radiation-sensitive severe combined immunodeficiency in humans and may increase susceptibility to lymphoma in some settings. We now report that deficiency for Artemis (encoded by Dclre1c/Art in mouse) accelerates tumorigenesis in several tissues in a Trp53 heterozygous setting, revealing tumor suppression roles for NHEJ in lymphoid and non-lymphoid cells. We also show that B-lineage lymphomas in these mice undergo loss of Trp53 heterozygosity by allele replacement, but arise by mechanisms distinct from those in Art Trp53 double null mice. These findings demonstrate a general tumor suppression function for NHEJ, and reveal that interplay between NHEJ and Trp53 loss of heterozygosity influences the sequence of multi-hit oncogenesis. We present a model where p53 status at the time of tumor initiation is a key determinant of subsequent oncogenic mechanisms. Because Art deficient mice represent a model for radiation-sensitive severe combined immunodeficiency, our findings suggest that these patients may be at risk for both lymphoid and non-lymphoid cancers.

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Segments of the long arm of human chromosome 21 are conserved, centromere to telomere, in mouse chromosomes 16, 17, and 10. There have been 28 genes identified in human chromosome 21 between TMPRSS2, whose orthologue is the most distal gene mapped to mouse chromosome 16, and PDXK, whose orthologue is the most proximal gene mapped to mouse chromosome 10. Only 6 of these 28 genes have been mapped in mouse, and all are located on chromosome 17. To better define the chromosome 17 segment and the 16 to 17 transition, we used a combination of mouse radiation hybrid panel mapping and physical mapping by mouse: human genomic sequence comparison. We have determined the mouse chromosomal location of an additional 12 genes, predicted the location of 7 more,and defined the endpoints of the mouse chromosome 17 region. The mouse chromosome 16/chromosome 17 evolutionary breakpoint is between human genes ZNF295 and UMODL1, showing there are seven genes in the chromosome 16 segment distal to Tmprss2. The chromosome 17/chromosome 10 breakpoint seems to have involved a duplication of the gene PDXK, which on chromosome 21 lies immediately distal to the KIAA0179 gene. These data suggest that there may be as few as 21 functional genes in the mouse chromosome 17 segment. This information is important for defining existing and constructing more complete mouse models of Down syndrome.

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Fluorescent in situ hybridization (FISH) -- using mouse chromosome paints, probes for the mouse major centromeric satellite DNA, and probes for genes on chromosomes (Chr) 16 and 17 -- was employed to locate the breakpoint in a translocation used to produce a mouse model for Down syndrome. The Ts65Dn trisomy is derived from the reciprocal translocation T(16;17)65Dn. The Ts65Dn mouse carries a marker chromosome containing the distal segment of Chr 16, a region that shows linkage conservation with human Chr 21, and the proximal end of Chr 17. This chromosome confers trisomy for most of the genes in the Chr 16 segment and Ts65Dn mice show many of the phenotypic features characteristic of Down syndrome. We used FISH on metaphase chromosomes from translocation T65Dn/+ heterozygotes and Ts65Dn mice to show that the Chr 17 breakpoint is distal to the heterochromatin of Chr 17, that the Ts65Dn marker chromosome contains a small portion of Chr 17 euchromatin, that the Chr 16 breakpoint lies between the Ncam2 and Gabpa/App genes, and that the Ts65Dn chromosome contains >80% of the human Chr 21 homologs. The significance of this finding is discussed in terms of the utility of this mouse model.

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The paracentric inversion In(3)55Rk on mouse Chromosome 3 (Chr 3) was induced by cesium irradiation. Genetic crosses indicate the proximal breakpoint cosegregates with D3Mit324 and D3Mit92; the distal breakpoint cosegregates with D3Mit127, D3Mit160, and D3Mit200. Giemsa-banded chromosomes show the inversion spans approximately 80% of Chr 3. The proximal breakpoint occurs within band 3A2, not 3B as reported previously; the distal breakpoint occurs within band 3H3. Mice homozygous for the inversion exhibit nephropathy indicative of uricase deficiency. Southern blot analyses of urate oxidase, Uox, show two RFLPs of genomic mutant DNA: an EcoRI site between exons 4-8 and a BamHI site 3' to exon 6. Mutant cDNA fails to amplify downstream of base 844 at the 3' end of exon 7. FISH analysis of chromosomes from inversion heterozygotes, using a cosmid clone containing genomic wild-type DNA for Uox exons 2-4, shows that a 5' segment of the mutated Uox allele on the inverted chromosome has been transposed from the distal breakpoint region to the proximal breakpoint region. Clinical, histopathological, and Northern analyses indicate that our radiation-induced mutation, uox(In), is a putative null.

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This unit contains protocols for the preparation of mitotic chromosomes from mouse peripheral blood, Giemsa banding of those chromosomes, and classification into a karyotype, including recognition of some common pitfalls of misidentification and information for determining aberrant chromosomes. The methods described can be used to identify visible chromosomal rearrangements and their precise cytological breakpoints in the living mouse. In conjunction with fluorescent in situ hybridization (FISH), the metaphase spreads can also be used for the linear placement of loci on a chromosome and for determining the insertion site(s) of a foreign transgene.

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A new cataract mutation was discovered in an ongoing program to identify new mouse models of hereditary eye disease. Lens opacity 12 (Lop12) is a semidominant mutation that results in an irregular nuclear lens opacity similar to the human Coppock cataract. Lop12 is associated with a small nonrecombining segment that maps to mouse Chromosome 1 close to the eye lens obsolescence mutation (Cryge(Cat2-Elo)), a member of the gamma-crystallin gene cluster (Cryg). Using a systemic candidate gene approach to analyze the entire Cryg cluster, a G to A transition was found in exon 3 of Crygd associated with the Lop12 mutation and has been designated Crygd(Lop12). The mutation Crygd(Lop12) leads to the formation of an in-frame stop codon that produces a truncated protein of 156 amino acids. It is predicted that the defective gene product alters protein folding of the gamma-crystallin(s) and results in lens opacity.

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This paper provides the results of our study on automatic classification of mouse chromosomes. A radial basis function neural network was compared with a multi-layer perceptron and a probabilistic neural network. The networks were trained and tested with 3723 chromosomes presented to each network as 30-point banding profiles. The radial basis function classifier trained with the fast orthogonal search learning rule provided the best unconstrained classification error rate of 12.7% which was obtained with a training set of 2250 chromosomes.

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The clinically important issue of tumor heterogeneity was studied in C57BL/6-E mu-myc transgenic mice, which provide a genetically uniform model system in which all animals eventually develop B cell lymphomas after additional genetic changes beyond enforced expression of the transgenic oncogene. Three different approaches were compared for discerning the cellular and genetic homogeneity of these tumors. Analysis of Igh gene rearrangement showed mainly monoclonality and only infrequent oligoclonality in the tumors from a given animal. In contrast, cytogenetic examination indicated a substantial degree of heterogeneity in the tumors from a given animal and showed that a wide variety of secondary genetic changes occur in E mu-myc transgenic mice. Flow cytometry of DNA content also revealed a high degree of heterogeneity within and among the tumor masses from single E mu-myc mice. Estimates of tumor heterogeneity revealed by these three techniques often did not coincide, indicating that these different approaches reflect distinct cellular parameters. Transgenic E mu-myc mice additionally homozygous for the scid mutation displayed enhanced levels of secondary genetic changes that were valuable for the methodological comparisons performed here, and demonstrated that the extent of tumor heterogeneity can be influenced by specific genes other than the primary E mu-myc transgene. In summary, a combination of methodologies appears to be required to reveal the full extent of tumor heterogeneity within a single individual.

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Robertsonian chromosomes are metacentric chromosomes formed by the joining of two telocentric chromosomes at their centromere ends. Many Robertsonian chromosomes of the mouse suppress genetic recombination near the centromere when heterozygous. We have analyzed genetic recombination and meiotic pairing in mice heterozygous for Robertsonian chromosomes and genetic markers to determine (1) the reason for this recombination suppression and (2) whether there are any consistent rules to predict which Robertsonian chromosomes will suppress recombination. Meiotic pairing was analyzed using synaptonemal complex preparations. Our data provide evidence that the underlying mechanism of recombination suppression is mechanical interference in meiotic pairing between Robertsonian chromosomes and their telocentric partners. The fact that recombination suppression is specific to individual Robertsonian chromosomes suggests that the pairing delay is caused by minor structural differences between the Robertsonian chromosomes and their telocentric homologs and that these differences arise during Robertsonian formation. Further understanding of this pairing delay is important for mouse mapping studies. In 10 mouse chromosomes (3, 4, 5, 6, 8, 9, 10, 11, 15 and 19) the distances from the centromeres to first markers may still be underestimated because they have been determined using only Robertsonian chromosomes. Our control linkage studies using C-band (heterochromatin) markers for the centromeric region provide improved estimates for the centromere-to-first-locus distance in mouse chromosomes 1, 2 and 16.

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Mice trisomic for Chromosome (Chr) 16 have been used extensively as an animal model for human Down Syndrome (Trisomy 21). This system has drawbacks, however: trisomy for all of Chr 16 is incompatible with postnatal survival and produces trisomy for many more genes than those conserved in human Chr 21. We report here the development and preliminary characterization of mice that are trisomic for only the segment of mouse Chr 16 that is conserved in human Chr 21. While these segmentally trisomic mice, Ts(17(16)) 65Dn, do not appear to have all the features characteristic of Down Syndrome, they represent a mouse model that survives to adulthood and may be useful to study features of Down Syndrome that develop later in life, such as susceptibility to infection, increased incidence of leukemia, and Alzheimer-like neuropathology.

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The major satellite DNA of Mus musculus appears as a pericentromeric heterochromatin block in all chromosomes but the Y. While C-banding readily reveals the presence of this heterochromatin block, there is considerable polymorphism in C-band size among the chromosomes and among different subspecies. We have studied the distribution of C-band size differences in the chromosomes of 15 exotic inbred laboratory strains and substrains derived from wild populations of different subspecies of M. musculus. The variation in C-band size among these inbred strains can serve as a useful codominant cytological marker for estimating recombinational distances between the centromere and proximal genes in linkage crosses.

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The mouse mutation hairy ears (Eh) originated in a neutron irradiation experiment at Oak Ridge National Laboratory. Subsequent linkage studies with Eh and other loci on Chr 15 suggested that it is associated with a chromosomal rearrangement that inhibits recombination since it shows tight linkage with several loci occupying the region extending from congenital goiter (cog) distal to caracul (Ca). We report here (1) linkage experiments confirming this effect on recombination and (2) meiotic and mitotic cytological studies that confirm the presence of a chromosomal rearrangement. The data are consistent with the hypothesis of a paracentric inversion in the distal half of Chr 15. The effect of the inversion extends over a minimum of 30 cM, taking into account the genetic data and the cytologically determined chromosomal involvement extending to the region of the telomere.

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This paper describes a dominant neurological mutation identified among the progeny of a male parent treated with ethylene oxide. The defects observed in the heterozygous mutant include: head tossing, poor limb coordination, and corneal clouding. Both the behavior and ocular manifestations of the mutant syndrome worsen progressively as the affected animals grow older. The mutant animals swim poorly, although they do orient themselves in reference to the surface of the water. Breeding in general is poor. Very small litter sizes result when heterozygous animals of either sex are mated to normal mice. Many male carriers are functionally sterile. All mutant animals had abnormal karyotypes. The original carrier mouse had a translocation between Chromosomes 4 and 17, which was also present in all but one mutant animal. The exceptional animal, which showed all mutant behavioral characteristics, had 41 chromosomes which included two normal 4 and 17 homologs and the small 4(17) translocation chromosome. Karyotypes of unaffected siblings of mutants were normal. Because the small translocation chromosome appears to be inseparably associated with the mutant phenotype, we have named the mutation translocation induced circling mutation symbol, Tim.

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We describe here several improvements in the method we originally developed to prepare mitotic chromosomes from peripheral blood of laboratory mice. In addition, we have tried several methods to improve metaphase yield from lymphocytes of the inbred strain DBA/2J, which respond poorly to phytohemagglutinin. The yield of mitoses from DBA/2J cells cannot be improved by enhancing T-cell response using interleukin-2 or by using a different T-cell mitogen, concanavalin A. Metaphase yield from peripheral blood cells of DBA/2J mice can be improved significantly by adding lipopolysaccharide to cultures, probably stimulating B-cell as well as T-cell proliferation.

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The experiments described here delineate the position of the chromosome 16 markers Igl-1 (immunoglobulin lambda 1, light chain), md (mahoganoid), and Bst (belly spot and tail), and suggest their location relative to the endogenous proviral locus Akv-2, which is linked within 5.9 centimorgans to Igl-1 (Epstein et al. 1984). The data from an intercross and a three-point backcross detailed herein show the order of these three genes and distances between them to be: centromere-md-10.4 +/- 1.6-Igl-1-15.6 +/- 2.6-Bst. Using a recombinant chromosome recovered in the intercross, we have constructed a stock homozygous for md and Igl-1b (KpnI-), that will aid in mapping other genes on chromosome 16.

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