Practical Applications of the Bioinformatics Toolbox for Narrowing Quantitative Trait Loci

Burgess-Herbert, Sarah L.; Cox, Allison; Tsaih, Shirng‐Wern; Paigen, Beverly

doi:10.1534/genetics.108.090175

Cited by 53 publications

(61 citation statements)

References 42 publications

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“…Thus, if indeed there is a species-spanning homologous locus affecting mammalian bone growth, IBSP as well as secreted phosphoprotein 1 (SPP1, also known as osteopontin) and matrix extracellular phosphoglycoprotein (MEPE), all well described for their effects on bone metabolism (Beck et al 2000;Nampei et al 2004;Karadag and Fisher 2006), but located centromeric of IBSP on BTA6, should be excluded as candidate genes for this locus. Our results demonstrate that comparative QTL information originating from different species can help to refine the genetic background of a complex trait in the target species as suggested by Burgess-Herbert et al (2008).…”

Section: Discussionmentioning

confidence: 68%

Dissection of Genetic Factors Modulating Fetal Growth in Cattle Indicates a Substantial Role of the Non-SMC Condensin I Complex, Subunit G (NCAPG) Gene

Eberlein¹,

Takasuga

Setoguchi³

et al. 2009

Genetics

142

156

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The increasing evidence of fetal developmental effects on postnatal life, the still unknown fetal growth mechanisms impairing offspring generated by somatic nuclear transfer techniques, and the impact on stillbirth and dystocia in conventional reproduction have generated increasing attention toward mammalian fetal growth. We identified a highly significant quantitative trait locus (QTL) affecting fetal growth on bovine chromosome 6 in a specific resource population, which was set up by consistent use of embryo transfer and foster mothers and, thus, enabled dissection of fetal-specific genetic components of fetal growth. Merging our data with results from other cattle populations differing in historical and geographical origin and with comparative data from human whole-genome association mapping suggests that a nonsynonymous polymorphism in the non-SMC condensin I complex, subunit G (NCAPG) gene, NCAPG c.1326T.G, is the potential cause of the identified QTL resulting in divergent bovine fetal growth. NCAPG gene expression data in fetal placentomes with different NCAPG c.1326T.G genotypes, which are in line with recent results about differential NCAPG expression in placentomes from studies on assisted reproduction techniques, indicate that the NCAPG locus may give valuable information on the specific mechanisms regulating fetal growth in mammals.

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Section: Discussionmentioning

confidence: 68%

Dissection of Genetic Factors Modulating Fetal Growth in Cattle Indicates a Substantial Role of the Non-SMC Condensin I Complex, Subunit G (NCAPG) Gene

Eberlein¹,

Takasuga

Setoguchi³

et al. 2009

Genetics

142

156

View full text Add to dashboard Cite

show abstract

“…More than half of the 386 minor QTL were also repeatedly identified 2-10 times. Cloning such QTL via fine mapping may be unlikely, but the application of bioinformatics (such as meta-analysis, comparative genomics, and haplotype association mapping) and/or transcriptomics to narrow QTL/QTG (quantitative trait genes) without fine mapping seems promising (Price 2006;Burgess-Herbert et al 2008;Norton et al 2008). Recently, four minor QTL for disease resistance in rice, each explaining ,5% of the phenotypic variation, have been isolated successfully by a strategy involving candidate genes that integrated expression profiling, bioinformatics, and functional complementation analysis (Hu et al 2008).…”

Section: Discussionmentioning

confidence: 99%

Unraveling the Complex Trait of Crop Yield With Quantitative Trait Loci Mapping in Brassica napus

et al. 2009

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Yield is the most important and complex trait for the genetic improvement of crops. Although much research into the genetic basis of yield and yield-associated traits has been reported, in each such experiment the genetic architecture and determinants of yield have remained ambiguous. One of the most intractable problems is the interaction between genes and the environment. We identified 85 quantitative trait loci (QTL) for seed yield along with 785 QTL for eight yield-associated traits, from 10 natural environments and two related populations of rapeseed. A trait-by-trait meta-analysis revealed 401 consensus QTL, of which 82.5% were clustered and integrated into 111 pleiotropic unique QTL by metaanalysis, 47 of which were relevant for seed yield. The complexity of the genetic architecture of yield was demonstrated, illustrating the pleiotropy, synthesis, variability, and plasticity of yield QTL. The idea of estimating indicator QTL for yield QTL and identifying potential candidate genes for yield provides an advance in methodology for complex traits.

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“…29 -31 We used comparative genomics to both validate the utility of cloning this gene by position and further reduce the interval. This strategy has been used by several groups to reduce complex disease QTL intervals in the mouse and human for atherosclerosis, [32][33][34][35] hypertension, 32,36 and renal disease. 26 Sheehan et al 26 compared mouse and human homologous renal function QTL to narrow the candidate region, Albq5.…”

Section: Discussionmentioning

confidence: 99%

Refined Mapping of the Renal Failure Rf-3 Quantitative Trait Locus

O’Meara

Lazar

Hoffman

et al. 2011

Journal of the American Society of Nephrology

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Rf-3, a quantitative trait locus (QTL) on rat chromosome 3, affects the development of CKD in FawnHooded Hypertensive (FHH) rats. This QTL spans 110 Mb and approximately 1400 genes; therefore, narrowing the position of this locus is necessary to elucidate potential candidate genes. Here, we used congenic models and comparative genomics to refine the Rf-3 candidate region. We generated congenic lines carrying smaller intervals (subcongenics) of the Rf-3 region and used these lines to reduce the Rf-3 candidate region by 94% (to 7.1 Mb). We used comparative genomics to identify QTL for both nephropathy and albuminuria in the syntenic region of this interval for both human and mouse. We also used the overlapping homologous regions to reduce the number of likely positional candidate genes to 13 known or predicted genes. By combining congenic models and cross-species studies, we narrowed the list of candidate genes to a level that we could sequence the whole interval to further identify the causative gene in future studies.

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Practical Applications of the Bioinformatics Toolbox for Narrowing Quantitative Trait Loci

Cited by 53 publications

References 42 publications

Dissection of Genetic Factors Modulating Fetal Growth in Cattle Indicates a Substantial Role of the Non-SMC Condensin I Complex, Subunit G (NCAPG) Gene

Dissection of Genetic Factors Modulating Fetal Growth in Cattle Indicates a Substantial Role of the Non-SMC Condensin I Complex, Subunit G (NCAPG) Gene

Unraveling the Complex Trait of Crop Yield With Quantitative Trait Loci Mapping in Brassica napus

Refined Mapping of the Renal Failure Rf-3 Quantitative Trait Locus

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