The recombinant congenic strains for analysis of multigenic traits: genetic composition

Groot, Peter C.; Moen, C. J. A.; Dietrich, William F.; Stoye, Jonathan P.; Lander, Eric S.; Démant, Peter

doi:10.1096/fasebj.6.10.1634045

Cited by 83 publications

(46 citation statements)

References 17 publications

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“…Theoretical considerations predict that $95% of the genome of the donor strain can be transferred and distributed within a series of 20 RCSs (Demant and Hart 1986;Moen et al 1997). Five sets of such RCSs have been produced between pairs of laboratory inbred strains (Groot et al 1992;Martin et al 1992b;Fortin et al 2001b) and the results have fulfilled the theoretical expectations . Since each RCS carries only a small fraction of the donor genome, multiple genes controlling a trait are likely to be isolated in different strains (Demant and Hart 1986;Moen et al 1991).…”

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confidence: 70%

“…We observed that in 87% of cases, strains segregating for the two alleles at a particular locus in the first series of genotyping (average F ¼ 8.7) had fixed the B6 allele in the second series (average F ¼ 24.6). No such genomewide selection has been observed in recombinant inbred or recombinant congenic strains established from laboratory strains, which showed the expected proportion from the two parental strains (Groot et al 1992;Stassen et al 1996). The final genetic makeup of IRCSs and ICSs suggests that it is hardly feasible to introduce .4-5% of the M. spretus genome in a B6 background, because of the large number of interchromosomal epistatic interactions.…”

Section: Discussionmentioning

confidence: 99%

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Interspecific Recombinant Congenic Strains Between C57BL/6 and Mice of the Mus spretus Species: A Powerful Tool to Dissect Genetic Control of Complex Traits

Burgio

Szatanik

Guénet³

et al. 2007

Genetics

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Complex traits are under the genetic control of multiple genes, often with weak effects and strong epistatic interactions. We developed two new collections of mouse strains to improve genetic dissection of complex traits. They are derived from several backcrosses of the Mus spretus SEG/Pas or STF/Pas strains on the C57BL/6J background. Each of the 55 interspecific recombinant congenic strains (IRCSs) carries up to eight SEG/Pas chromosomal segments with an average size of 11.7 Mb, totalizing 1.37% of the genome. The complete series covers 39.7% of the SEG/Pas genome. As a complementary resource, six partial or complete interspecific consomic strains were developed and increased genome coverage to 45.6%. To evaluate the usefulness of these strains for QTL mapping, 16 IRCSs were compared with C57BL/6J for seven hematological parameters. Strain 66H, which carries three SEG/Pas chromosomal segments, had lower red blood cell volume and higher platelet count than C57BL/6J. Each chromosomal segment was isolated in a congenic strain to evaluate individual effects. Congenic strains were combined to assess epistasis. Our data show that both traits were controlled by several genes with complex epistatic interactions. IRCSs are therefore useful to unravel QTL with small effects and gene-by-gene interactions.

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confidence: 70%

Section: Discussionmentioning

confidence: 99%

Interspecific Recombinant Congenic Strains Between C57BL/6 and Mice of the Mus spretus Species: A Powerful Tool to Dissect Genetic Control of Complex Traits

Burgio

Szatanik

Guénet³

et al. 2007

Genetics

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“…To this end, we studied TXNIP-deficient HcB-19 mice. HcB-19 mice are an inbred congenic C3H mouse strain (33,34) that harbors a spontaneous inactivating nonsense mutation in exon 2 at codon 97, resulting in dramatically reduced TXNIP mRNA and protein levels (29). Glucose induces TXNIP expression and apoptosis in primary islets.…”

Section: Resultsmentioning

confidence: 99%

Thioredoxin-Interacting Protein

et al. 2008

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OBJECTIVE-In diabetes, glucose toxicity affects different organ systems, including pancreatic islets where it leads to ␤-cell apoptosis, but the mechanisms are not fully understood. Recently, we identified thioredoxin-interacting protein (TXNIP) as a proapoptotic ␤-cell factor that is induced by glucose, raising the possibility that TXNIP may play a role in ␤-cell glucose toxicity.RESEARCH DESIGN AND METHODS-To assess the effects of glucose on TXNIP expression and apoptosis and define the role of TXNIP, we used INS-1 ␤-cells; primary mouse islets; obese, diabetic BTBR.ob mice; and a unique mouse model of TXNIP deficiency (HcB-19) that harbors a natural nonsense mutation in the TXNIP gene. RESULTS-Incubation of INS-1 cells at 25 mmol/l glucose for24 h led to an 18-fold increase in TXNIP protein, as assessed by immunoblotting. This was accompanied by increased apoptosis, as demonstrated by a 12-fold induction of cleaved caspase-3. Overexpression of TXNIP revealed that TXNIP induces the intrinsic mitochondrial pathway of apoptosis. Islets of diabetic BTBR.ob mice also demonstrated increased TXNIP and apoptosis as did isolated wild-type islets incubated at high glucose. In contrast, TXNIP-deficient HcB-19 islets were protected against glucose-induced apoptosis as measured by terminal deoxynucleotidyl transferase-mediated dUTP nick-end labeling and caspase-3, indicating that TXNIP is a required causal link between glucose toxicity and ␤-cell death.CONCLUSIONS-These findings shed new light onto the molecular mechanisms of ␤-cell glucose toxicity and apoptosis, demonstrate that TXNIP induction plays a critical role in this vicious cycle, and suggest that inhibition of TXNIP may represent a novel approach to reduce glucotoxic ␤-cell loss. Diabetes 57: 938-944, 2008

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“…18 In several diseases, the recombinant congenic (RC) strains of mice have proven to be a powerful tool to provide the mapping of genes controlling complex traits. 17,[19][20][21][22][23][24][25][26][27] A series of RC strains comprises approximately 20 homozygous strains, each of which contains on average 87.5% genes of a common background strain and 12.5% of a common donor strain. 26,28 In this way, the RC system transforms a multigenic difference into a set of mono-or oligogenic differences and hence offers higher resolution power in mapping the quantitative trait loci and detecting their mutual interactions than the standard genetic methods.…”

Section: Polymorphisms Of Both Adam33 and Spink5mentioning

confidence: 99%

Mouse genetic model for antigen-induced airway manifestations of asthma

et al. 2006

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Allergic asthma is a genetically complex disease characterized by allergen-specific immunoglobulin (Ig)E, eosinophilic inflammation of the lungs and airway hyper-responsiveness to bronchospasmogenic stimuli. In this study, we compared 13 recombinant congenic (RC) mouse strains in an ovalbumin model of allergic asthma. Different intensities and types of responses are observed throughout the RC strains. Intensities range from resistance to asthma in CcS05, to a very severe bronchoconstrictive reaction upon methacholine challenge for the parental STS strain. All strains show a 'modified' Th2 response except CcS14, which shows a 'true' Th2 response. When data from all strains are pooled, airway reactivity shows significant correlations with the serum Ig levels and the levels of interleukin (IL)-4, IL-5 and IL-13 in the broncho-alveolar lavage (BAL), at low dosage of methacholine (below 25 mg/ml), whereas at high dosage airway reactivity only correlates with BAL neutrophil levels. This indicates that at least two different mechanisms are involved in the airway reactivity to methacholine. None of these correlations can be found in every individual strain, which demonstrates that the asthma traits in this mouse model are genetically dissociated and that the loci can be genetically mapped.

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The recombinant congenic strains for analysis of multigenic traits: genetic composition

Cited by 83 publications

References 17 publications

Interspecific Recombinant Congenic Strains Between C57BL/6 and Mice of the Mus spretus Species: A Powerful Tool to Dissect Genetic Control of Complex Traits

Interspecific Recombinant Congenic Strains Between C57BL/6 and Mice of the Mus spretus Species: A Powerful Tool to Dissect Genetic Control of Complex Traits

Thioredoxin-Interacting Protein

Mouse genetic model for antigen-induced airway manifestations of asthma

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