Identification of Quantitative Trait Loci Influencing Wood Specific Gravity in an Outbred Pedigree of Loblolly Pine

Overview

Journal Genetics

Publisher Oxford University Press

Specialty Genetics

Date 1994 Dec 1

PMID 7896107

Citations 32

Authors

A Groover

M Devey

T Fiddler

J Lee

R Megraw

B Sherman

S Vujcic

C Williams

D Neale

Affiliations

Soon will be listed here.

Abstract

We report the identification of quantitative trait loci (QTL) influencing wood specific gravity (WSG) in an outbred pedigree of loblolly pine (Pinus taeda L.). QTL mapping in an outcrossing species is complicated by the presence of multiple alleles (> 2) at QTL and marker loci. Multiple alleles at QTL allow the examination of interaction among alleles at QTL (deviation from additive gene action). Restriction fragment length polymorphism (RFLP) marker genotypes and wood specific gravity phenotypes were determined for 177 progeny. Two RFLP linkage maps were constructed, representing maternal and paternal parent gamete segregations as inferred from diploid progeny RFLP genotypes. RFLP loci segregating for multiple alleles were vital for aligning the two maps. Each RFLP locus was assayed for cosegregation with WSG QTL using analysis of variance (ANOVA). Five regions of the genome contained one or more RFLP loci showing differences in mean WSG at or below the P = 0.05 level for progeny as grouped by RFLP genotype. One region contained a marker locus (S6a) whose QTL-associated effects were highly significant (P > 0.0002). Marker S6a segregated for multiple alleles, a prerequisite for determining the number of alleles segregating at the linked QTL and analyzing the interactions among QTL alleles. The QTL associated with marker S6a appeared to be segregating for multiple alleles which interacted with each other and with environments. No evidence for digenic epistasis was found among the five QTL.

Citing Articles

Genome-wide association study identified novel candidate loci affecting wood formation in Norway spruce.

Baison J, Vidalis A, Zhou L, Chen Z, Li Z, Sillanpaa M Plant J. 2019; 100(1):83-100.

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Accounting for Errors in Low Coverage High-Throughput Sequencing Data When Constructing Genetic Maps Using Biparental Outcrossed Populations.

Bilton T, Schofield M, Black M, Chagne D, Wilcox P, Dodds K Genetics. 2018; 209(1):65-76.

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Quantitative trait loci influencing forking defects in an outbred pedigree of loblolly pine.

Xiong J, McKeand S, Isik F, Wegrzyn J, Neale D, Zeng Z BMC Genet. 2016; 17(1):138.

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Quantitative trait locus mapping with background control in genetic populations of clonal F1 and double cross.

Zhang L, Li H, Ding J, Wu J, Wang J J Integr Plant Biol. 2015; 57(12):1046-62.

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Multiple-population versus hierarchical conifer breeding programs: a comparison of genetic diversity levels.

Williams C, Hamrick J, Lewis P Theor Appl Genet. 2013; 90(3-4):584-94.

PMID: 24173955 DOI: 10.1007/BF00222007.

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