Sung Taeg Kang scite author profile

Although oligosaccharides and sucrose are very important nutritional components of soybean seeds, little information is available about inheritance of oligosaccharide and sucrose content. The objective of this study was to identify quantitative trait loci (QTLs) that determine the oligosaccharide and sucrose content of soybean. The 117 F(2:10) recombinant inbred lines developed from a cross of "Keunolkong" and "Shinpaldalkong" were used. Narrow-sense heritability estimates, on a plot mean basis, of oligosaccharide and sucrose content were 79.07 and 74.84%, respectively. Four QTLs for oligosaccharide content were located on linkage groups (LG) C2, H, J, and L. Sucrose content was related with two QTLs located on LG H and J. Total oligosaccharide and sucrose content have two common QTLs on LG H and J.

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Identification of haplotypes at the Rsv4 genomic region in soybean associated with durable resistance to soybean mosaic virus

Ilut

Lipka

Jeong

et al. 2015

Theor Appl Genet

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Discovery of new germplasm sources and identification of haplotypes for the durable Soybean mosaic virus resistance gene, Rsv 4, provide novel resources for map-based cloning and genetic improvement efforts in soybean. The Soybean mosaic virus (SMV) resistance locus Rsv4 is of interest because it provides a durable type of resistance in soybean [Glycine max (L.) Merr.]. To better understand its molecular basis, we used a population of 309 BC3F2 individuals to fine-map Rsv4 to a ~120 kb interval and leveraged this genetic information in a second study to identify accessions 'Haman' and 'Ilpumgeomjeong' as new sources of Rsv4. These two accessions along with three other Rsv4 and 14 rsv4 accessions were used to examine the patterns of nucleotide diversity at the Rsv4 region based on high-depth resequencing data. Through a targeted association analysis of these 19 accessions within the ~120 kb interval, a cluster of four intergenic single-nucleotide polymorphisms (SNPs) was found to perfectly associate with SMV resistance. Interestingly, this ~120 kb interval did not contain any genes similar to previously characterized dominant disease resistance genes. Therefore, a haplotype analysis was used to further resolve the association signal to a ~94 kb region, which also resulted in the identification of at least two Rsv4 haplotypes. A haplotype phylogenetic analysis of this region suggests that the Rsv4 locus in G. max is recently introgressed from G. soja. This integrated study provides a strong foundation for efforts focused on the cloning of this durable virus resistance gene and marker-assisted selection of Rsv4-mediated SMV resistance in soybean breeding programs.

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Analysis of quantitative trait loci associated with leaflet types in two recombinant inbred lines of soybean

Kim¹,

Kang²,

Suh³

2005

Plant Breeding

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Leaf area, length and width affect the photosynthetic capability of a plant and so increasing the photosynthetic rate per unit leaf area may improve seed yield in soybean. In this study, simple sequence repeat (SSR) markers were used to identify the genomic regions significantly associated with the quantitative trait locus (QTL) that controls length, width and the length/width ratio of the terminal and lateral leaflet in two segregating F 2:10 recombinant inbred line (RIL) populations, ÔKeounolkongÕ · ÔShinpaldalkongÕ (K/S) and ÔKeounol-kongÕ · ÔIksan10Õ (K/I). In the K/S population, one QTL was identified for terminal leaflet length (TLL), two for lateral leaflet length (LLL), four for terminal leaflet width (TLW), four for lateral leaflet width (LLW), two for terminal leaflet length/width ratio (TLR) and four for lateral leaflet length/width ratio (LLR), with total phenotypic variations of 7.43, 10.9, 26.57, 23.46, 20.25 and 23.31%, respectively. In the K/I population, two QTLs were identified for TLL, two for LLL, three for TLW, and two for LLW, four for TLR and two for LLR with total phenotypic variations of 29. 89, 22.77, 18.5, 12.15, 22.96 and 17.85%, respectively. Only a few QTLs coincided among the leaflet traits and no relationships were observed between the two populations. Many QTLs were associated with leaflet traits but each single QTL made only a minimal contribution. Thus, pyramiding the favourable alleles for leaflet traits in soybean breeding programmes may accelerate vegetative growth and perhaps lead to higher yields by maximizing total photosynthetic performance.

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A Novel Allele of GmSACPD‐C Associated with High Seed Stearic Acid Concentration in an EMS‐Induced Mutant PE980 in Soybean

et al. 2018

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Stearic acid is a relatively minor component of soybean [Glycine max (L.) Merr.] seed oil. Increasing the stearic acid concentration is desired for industrial and food applications, as well as enhanced oxidative stability of the oil. Several ethyl methane sulfonate (EMS)‐induced mutants with elevated seed stearic acid concentration have been reported in soybean. Such mutants were often found to carry alterations in the GmSACPD‐C gene encoding Δ9‐stearoyl‐acyl carrier protein‐desaturase, the enzyme that catalyzes the conversion of stearic acid to oleic acid in the fatty acid biosynthetic pathway. In the present study, we identified a new GmSACPD‐C allele in an EMS‐induced high‐stearic‐acid mutant PE980. The mutant showed a seed stearic acid concentration of ∼160 g kg−1, fourfold that of the wild‐type ‘Pungsannamul’. A single base substitution from guanine to adenine at genomic position 703 of first exon of the GmSACPD‐C gene was identified through sequencing, and validated by cosegregation analysis of 167 F2 plants using an allele‐specific SimpleProbe marker. The mutation caused a valine to methionine (+70 position) change in the predicted GmSACPD‐Cprotein sequence. The sequence alignments and three‐dimensional structure modeling of GmSACPD‐C showed that the V70M mutation affects substrate binding and dimerization to reduce enzyme activity. Since the mutant showed significant reductions in seed yield compared with the wild type, marker‐assisted backcrossing may be needed to reduce the yield gap.

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Case study: cost-effective image analysis method to study drought stress of soybean in early vegetative stage

Rodrogues

Kim

et al. 2021

J. Crop Sci. Biotechnol.

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Sung Taeg Kang

Mapping of putative quantitative trait loci controlling the total oligosaccharide and sucrose content of Glycine max seeds

Identification of haplotypes at the Rsv4 genomic region in soybean associated with durable resistance to soybean mosaic virus

Analysis of quantitative trait loci associated with leaflet types in two recombinant inbred lines of soybean

A Novel Allele of GmSACPD‐C Associated with High Seed Stearic Acid Concentration in an EMS‐Induced Mutant PE980 in Soybean

Case study: cost-effective image analysis method to study drought stress of soybean in early vegetative stage

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