Your search keyword '"Leach, Lindsey"' showing total 5 results

1. Multilocus Tetrasomic Linkage Analysis Using Hidden Markov Chain Model

Author

Leach, Lindsey J., Wang, Lin, Kearsey, Michael J., Luo, Zewei, and Li, Wen-Hsiung

Published

2010

2. Orthogonal contrast based models for quantitative genetic analysis in autotetraploid species.

Author

Chen, Jing, Leach, Lindsey, Luo, Zewei, Zhang, Fengjun, and Wang, Lin

Subjects

*ORTHOGONAL systems, *PLANT genetics, *PLANT chromosomes, *AUTOTETRAPLOIDY, *GENOTYPES, *PHENOTYPES

Abstract

Summary: Dissecting the genetic architecture of quantitative traits is a crucial goal for efficient breeding of polyploid plants, including autotetraploid crop species, such as potato and coffee, and ornamentals such as rose. To meet this goal, a quantitative genetic model is needed to link the genetic effects of genes or genotypes at quantitative trait loci (QTL) to the phenotype of quantitative traits. We present a statistically tractable quantitative genetic model for autotetraploids based on orthogonal contrast comparisons in the general linear model. The new methods are suitable for autotetraploid species with any population genetic structure and take full account of the essential features of autotetrasomic inheritance. The statistical properties of the new methods are explored and compared to an alternative method in the literature by simulation studies. We have shown how these methods can be applied for quantitative genetic analysis in autotetraploids by analysing trait phenotype data from an autotetraploid potato segregating population. Using trait segregation analysis, we showed that both highly heritable traits of flowering time and plant height were under the control of major QTL. The orthogonal model directly dissects genetic variance into independent components and gives consistent estimates of genetic effects provided that tetrasomic gene segregation is considered. [ABSTRACT FROM AUTHOR]

Published

2018

3. Patterns of homoeologous gene expression shown by RNA sequencing in hexaploid bread wheat.

Author

Leach, Lindsey J., Belfield, Eric J., Jiang, Caifu, Brown, Carly, Mithani, Aziz, and Harberd, Nicholas P.

Subjects

*WHEAT, *NUCLEOTIDE sequence, *CYTOGENETICS, *PHENOTYPES, *PLANT chromosomes, *GENE expression in plants

Abstract

Background Bread wheat (Triticum aestivum) has a large, complex and hexaploid genome consisting of A, B and D homoeologous chromosome sets. Therefore each wheat gene potentially exists as a trio of A, B and D homoeoloci, each of which may contribute differentially to wheat phenotypes. We describe a novel approach combining wheat cytogenetic resources (chromosome substitution 'nullisomic-tetrasomic' lines) with next generation deep sequencing of gene transcripts (RNA-Seq), to directly and accurately identify homoeologuespecific single nucleotide variants and quantify the relative contribution of individual homoeoloci to gene expression. Results We discover, based on a sample comprising ~5-10% of the total wheat gene content, that at least 45% of wheat genes are expressed from all three distinct homoeoloci. Most of these genes show strikingly biased expression patterns in which expression is dominated by a single homoeolocus. The remaining ∼55% of wheat genes are expressed from either one or two homoeoloci only, through a combination of extensive transcriptional silencing and homoeolocus loss. Conclusions We conclude that wheat is tending towards functional diploidy, through a variety of mechanisms causing single homoeoloci to become the predominant source of gene transcripts. This discovery has profound consequences for wheat breeding and our understanding of wheat evolution. [ABSTRACT FROM AUTHOR]

Published

2014

4. A Robust Statistical Method for Association-Based eQTL Analysis.

Author

Ning Jiang, Minghui Wang, Tianye Jia, Lin Wang, Leach, Lindsey, Hackett, Christine, Marshal, David, and Zewei Luo

Subjects

LINKAGE disequilibrium, ROBUST statistics, GENE expression, GENE mapping, GENETIC polymorphisms, BIOMARKERS, GENOMES, PHENOTYPES

Abstract

Background: It has been well established that theoretical kernel for recently surging genome-wide association study (GWAS) is statistical inference of linkage disequilibrium (LD) between a tested genetic marker and a putative locus affecting a disease trait. However, LD analysis is vulnerable to several confounding factors of which population stratification is the most prominent. Whilst many methods have been proposed to correct for the influence either through predicting the structure parameters or correcting inflation in the test statistic due to the stratification, these may not be feasible or may impose further statistical problems in practical implementation. Methodology: We propose here a novel statistical method to control spurious LD in GWAS from population structure by incorporating a control marker into testing for significance of genetic association of a polymorphic marker with phenotypic variation of a complex trait. The method avoids the need of structure prediction which may be infeasible or inadequate in practice and accounts properly for a varying effect of population stratification on different regions of the genome under study. Utility and statistical properties of the new method were tested through an intensive computer simulation study and an association-based genome-wide mapping of expression quantitative trait loci in genetically divergent human populations. Results/Conclusions: The analyses show that the new method confers an improved statistical power for detecting genuine genetic association in subpopulations and an effective control of spurious associations stemmed from population structure when compared with other two popularly implemented methods in the literature of GWAS. [ABSTRACT FROM AUTHOR]

Published

2011

5. Constructing Genetic Linkage Maps Under a Tetrasomic Model.

Author

Luo, Z. W., Ze Zhang, Leach, Lindsey, Zhang, R. M., Bradshaw, John E., and Kearsey, M. J.

Subjects

*GENOMES, *POTATOES, *PHENOTYPES, *FOOD crops, *COMPUTER simulation, *COMPUTER software

Abstract

An international consortium has launched the whole-genome sequencing of potato, the fourth most important food crop in the world. Construction of genetic linkage maps is an inevitable step for taking advantage of the genome projects for the development of novel cultivars in the autotetraploid crop species. However, linkage analysis in autopolyploids, the kernel of linkage map construction, is theoretically challenging and methodologically unavailable in the current literature. We present here a theoretical analysis and a statistical method for tetrasomic linkage analysis with dominant and/or codominant molecular markers. The analysis reveals some essential properties of the tetrasomic model. The method accounts properly for double reduction and incomplete information of marker phenotype in regard to the corresponding phenotype in estimating the coefficients of double reduction and recombination frequency and in testing their significance by using the marker phenotype data. Computer simulation was developed to validate the analysis and the method and a case study with 201 AFLP and SSR markers scored on 228 full-sib individuals of autotetraploid potato is used to illustrate the utility of the method in map construction in autotetraploid species. [ABSTRACT FROM AUTHOR]

Published

2006