Title page for ETD etd-10182002-222354


Type of Document Dissertation
Author Cicek, Mine
Author's Email Address cicekm1@ccf.org
URN etd-10182002-222354
Title Genetic marker analysis of three major carbohydrates in soybean seeds
Degree PhD
Department Crop and Soil Environmental Sciences
Advisory Committee
Advisor Name Title
Buss, Glenn R. Committee Co-Chair
Maroof, M. A. Saghai Committee Co-Chair
Veilleux, Richard E. Committee Member
Wilkinson, Carol A. Committee Member
Zobel, Richard W. Committee Member
Keywords
  • HPLC
  • raffinose
  • molecular markers
  • soybean
  • QTL
  • sucrose
  • stachyose
Date of Defense 2001-09-21
Availability unrestricted
Abstract
Carbohydrate content sucrose, raffinose, and stachyose are one of the important seed quality traits in soybean. However, little is known about the genetics of these quantitative traits. Recombinant inbred lines (RIL) were developed from the interspecific hybridization between a Glycine max breeding line (V71-370) and a Glycine soja plant introduction (PI407162). The 308 RILs, each parent, and one cultivar were arranged in a randomized complete block design with two replications and planted at two locations in Virginia. The main objective of the first part of this research was to devise a quick, economical, and reliable HPLC methodology to determine the amount of sucrose, raffinose, and stachyose in soybean seeds.

Concentration of sucrose, raffinose and stachyose are quantitative traits, which are hard to manipulate genetically due to the influence of genotype, environment, and genotype by environment interactions on seed chemical composition. The objectives of the second study were to evaluate agronomic and quality traits over locations and to study correlations among traits. The agronomic traits analyzed in this study included; maturity, plant canopy height, canopy spread, leaflet length, leaflet width, yield, and seed size. Seed quality traits studied were sucrose, raffinose, and stachyose content. Although some correlation coefficients were statistically significant at P<0.001, many were not large enough to be of practical value. A positive correlation was observed between all three sugars. Significant variation was observed among RILs and locations for all traits studied. Genotype by environment interaction was significant for all of the agronomic traits, but was not significant for seed sucrose, stachyose, or raffinose. Maturity, seed size, and sucrose content were highly heritable traits, whereas plant height, canopy spread, yield, leaf length, leaf width, stachyose content, and raffinose content had relatively low broad-sense heritabilities.

The RIL population was used to investigate the genetic basis for these agronomic and seed quality traits. Seven out of twenty soybean molecular linkage groups (MLG), A1, A2, E, F, G, I, and M, were selected on the basis of previous research and mapped in this population with restriction fragment length polymorphism (RFLP) and simple sequence repeat (SSR) markers. Five QTL for seed sucrose content, one QTL each for raffinose and stachyose, and one for each agronomic trait except yield and leaflet width, and two QTL each for yield and leaflet width were detected using the Blacksburg data. Four QTL for seed sucrose content, one QTL for raffinose, two QTL for stachyose, one QTL each for plot width and yield and two QTL for leaflet width were detected using the Warsaw data. Several QTL affecting different agronomic traits shared common genomic regions suggesting pleiotropy at some loci. The majority of the seed quality QTL was stable at both locations. Agronomic traits were more environmentally sensitive and no QTL were common to both locations. Epistasis analysis showed interactions between QTL that detected new genomic regions associated with raffinose content. These results suggest that these potential QTL are definitely on the genomic regions of interest and would be more powerful in marker-assisted selection when we find closer markers to each QTL.

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