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Melon (Cucumis melo L.) is an economically important horticultural crop with abundant morphological and genetic variability. Complex genetic variations exist even among melon varieties and remain unclear to date. Therefore, unraveling the genetic variability among the three different melon varieties, muskmelon (C. melo subsp. melo), makuwa (C. melo L. var. makuwa), and cantaloupes (C. melo subsp. melo var. cantalupensis), could provide a basis for evolutionary research. In this study, we attempted a systematic approach with genotyping-by-sequencing (GBS)-derived single nucleotide polymorphisms (SNPs) to reveal the genetic structure and diversity, haplotype differences, and marker-based varieties differentiation. A total of 6406 GBS-derived SNPs were selected for the diversity analysis, in which the muskmelon varieties showed higher heterozygote SNPs. Linkage disequilibrium (LD) decay varied significantly among the three melon varieties, in which more rapid LD decay was observed in muskmelon (r2 = 0.25) varieties. The Bayesian phylogenetic tree provided the intraspecific relationships among the three melon varieties that formed, as expected, individual clusters exhibiting the greatest genetic distance based on the posterior probability. The haplotype analysis also supported the phylogeny result by generating three major networks for 48 haplotypes. Further investigation for varieties discrimination allowed us to detect a total of 52 SNP markers that discriminated muskmelon from makuwa varieties, of which two SNPs were converted into cleaved amplified polymorphic sequence markers for practical use. In addition to these markers, the genome-wide association study identified two SNPs located in the genes on chromosome 6, which were significantly associated with the phenotypic traits of melon seed. This study demonstrated that a systematic approach using GBS-derived SNPs could serve to efficiently classify and manage the melon varieties in the genebank.
Do Hyun; Raveendar Sebastin; Gi-An Lee; Kyung Lee; Seong-Hoon Kim; Eunae Yoo; Sookyeong Lee; Man-Jung Kang; Seung Lee; Ik Jang; Na-Young Ro; Gyu-Taek Cho. Genome-Wide SNP Markers for Genotypic and Phenotypic Differentiation of Melon (Cucumis melo L.) Varieties Using Genotyping-by-Sequencing. International Journal of Molecular Sciences 2021, 22, 6722 .
AMA StyleDo Hyun, Raveendar Sebastin, Gi-An Lee, Kyung Lee, Seong-Hoon Kim, Eunae Yoo, Sookyeong Lee, Man-Jung Kang, Seung Lee, Ik Jang, Na-Young Ro, Gyu-Taek Cho. Genome-Wide SNP Markers for Genotypic and Phenotypic Differentiation of Melon (Cucumis melo L.) Varieties Using Genotyping-by-Sequencing. International Journal of Molecular Sciences. 2021; 22 (13):6722.
Chicago/Turabian StyleDo Hyun; Raveendar Sebastin; Gi-An Lee; Kyung Lee; Seong-Hoon Kim; Eunae Yoo; Sookyeong Lee; Man-Jung Kang; Seung Lee; Ik Jang; Na-Young Ro; Gyu-Taek Cho. 2021. "Genome-Wide SNP Markers for Genotypic and Phenotypic Differentiation of Melon (Cucumis melo L.) Varieties Using Genotyping-by-Sequencing." International Journal of Molecular Sciences 22, no. 13: 6722.
Amaranthus species are widely used as grain and leaf vegetables around the world and are potential dietary sources of antioxidants and phenolic compounds. In this study, we examined the variation in total flavonoid contents, total polyphenol contents, and antioxidant activities among 120 accessions of nine Amaranthus species. The antioxidant activity of DPPH (2,2-diphenyl-1-picrylhydrazyl) of the 120 amaranth accessions ranged from 1.1 (A. tricolor) to 75.2 (A. tricolor mg ascorbic acid equivalents (AAE)/g in 2018, and 8.5 (A. tricolor) to 68.8 (A. dubius) mg AAE/g in 2019. ABTS (2,2′-azinobis (3-ethylbenzothiazoline 6-sulfonate)) antioxidant activity ranged from 16.7 (A. tricolor) to 78.3 (A. hypochondriacus) mg AAE/g in 2018, and 36.6 (A. tricolor) to 79.2 (A. dubius) mg AAE/g in 2019. Total flavonoid content (TFC) of 2018 and 2019 ranged from 21.7 (A. caudatus) to 52.7 (A. hybridus) and from 22.3 (A. viridis) to 54.7 (A. tricolor), respectively Antioxidant activities were compared using two methods and all components were measured in plants grown both in 2018 and 2019. We identified wide variation among the accessions and between plants grown in the two years. Antioxidant activities and phytochemical contents were consistently negatively correlated. The nine species and 120 accessions clustered into three groups according to their antioxidant activities, total flavonoid contents, and total polyphenol contents in each year. These results provide information about the nutritional profiles of different Amaranthus species.
Jun-Hyoung Bang; Kyung Lee; Won Jeong; Seahee Han; Ick-Hyun Jo; Seong Choi; Hyunwoo Cho; Tae Hyun; Jeehye Sung; Junsoo Lee; Yoon-Sup So; Jong-Wook Chung. Antioxidant Activity and Phytochemical Content of Nine Amaranthus Species. Agronomy 2021, 11, 1032 .
AMA StyleJun-Hyoung Bang, Kyung Lee, Won Jeong, Seahee Han, Ick-Hyun Jo, Seong Choi, Hyunwoo Cho, Tae Hyun, Jeehye Sung, Junsoo Lee, Yoon-Sup So, Jong-Wook Chung. Antioxidant Activity and Phytochemical Content of Nine Amaranthus Species. Agronomy. 2021; 11 (6):1032.
Chicago/Turabian StyleJun-Hyoung Bang; Kyung Lee; Won Jeong; Seahee Han; Ick-Hyun Jo; Seong Choi; Hyunwoo Cho; Tae Hyun; Jeehye Sung; Junsoo Lee; Yoon-Sup So; Jong-Wook Chung. 2021. "Antioxidant Activity and Phytochemical Content of Nine Amaranthus Species." Agronomy 11, no. 6: 1032.
Potato (Solanum tuberosum L.) is an important staple food and economic crop in many countries. It is of critical importance to understand the genetic diversity and population structure for effective collection, conservation, and utilization of potato germplasm. Thus, the objective of the present study was to investigate the genetic diversity and population structure of potato germplasm conserved in the National Agrobiodiversity Center (NAC) of South Korea to provide basic data for future preservation and breeding of potato genetic resources. A total of 24 simple sequence repeat (SSR) markers were used to assess the genetic diversity and population structure of 482 potato accessions. A total of 257 alleles were detected, with an average of 10.71 alleles per locus. Analysis of molecular variance showed that 97% of allelic diversity was attributed to individual accessions within the population, while only 3% was distributed among populations. Results of genetic structure analysis based on STRUCTURE and discriminant analysis of principal components revealed that 482 potato accessions could be divided into two main subpopulations. Accessions of subpopulation 1 mainly belonged to cultivars and breeding lines. Accessions of subpopulations 2 basically corresponded to wild relatives of potatoes. Results of this study provide useful information for potato improvement and conservation programs, although further studies are needed for a more accurate evaluation of genetic diversity and phenotypic traits of potatoes.
Kyung-Jun Lee; Raveendar Sebastin; Gyu-Taek Cho; Munsup Yoon; Gi-An Lee; Do-Yoon Hyun. Genetic Diversity and Population Structure of Potato Germplasm in RDA-Genebank: Utilization for Breeding and Conservation. Plants 2021, 10, 752 .
AMA StyleKyung-Jun Lee, Raveendar Sebastin, Gyu-Taek Cho, Munsup Yoon, Gi-An Lee, Do-Yoon Hyun. Genetic Diversity and Population Structure of Potato Germplasm in RDA-Genebank: Utilization for Breeding and Conservation. Plants. 2021; 10 (4):752.
Chicago/Turabian StyleKyung-Jun Lee; Raveendar Sebastin; Gyu-Taek Cho; Munsup Yoon; Gi-An Lee; Do-Yoon Hyun. 2021. "Genetic Diversity and Population Structure of Potato Germplasm in RDA-Genebank: Utilization for Breeding and Conservation." Plants 10, no. 4: 752.
Tea has received attention due to its phytochemicals. For the direct use of tea germplasm in breeding programs, a core collection that retains the genetic diversity and various phytochemicals in tea is needed. In this study, we evaluated the content of eight phytochemicals over two years and the genetic diversity through 33 SSR (simple sequence repeats) markers for 462 tea accessions (entire collection, ENC) and developed a target-oriented core collection (TOCC). Significant phytochemical variation was observed in the ENC between genotypes and years. The genetic diversity of ENC showed high levels of molecular variability. These results were incorporated into developing TOCCs. The TOCC showed a representation of the ENC, where the mean difference percentage, the variance difference percentage, the variable rate of coefficient of variance percentage, and the coincidence rate of range percentage were 7.88, 39.33, 120.79, and 97.43, respectively. The Shannon’s diversity index (I) and Nei’s gene diversity (H) of TOCC were higher than those of ENC. Furthermore, the accessions in TOCC were shown to be selected proportionally, thus accurately reflecting the distribution of the overall accessions for each phytochemical. This is the first report describing the development of a TOCC retaining the diversity of phytochemicals in tea germplasm. This TOCC will facilitate the identification of the genetic determinants of trait variability and the effective utilization of phytochemical diversity in crop improvement programs.
Do Yoon Hyun; Gwang-Yeon Gi; Raveendar Sebastin; Gyu-Taek Cho; Seong-Hoon Kim; Eunae Yoo; Sookyeong Lee; Dong-Mo Son; Kyung Jun Lee. Utilization of Phytochemical and Molecular Diversity to Develop a Target-Oriented Core Collection in Tea Germplasm. Agronomy 2020, 10, 1667 .
AMA StyleDo Yoon Hyun, Gwang-Yeon Gi, Raveendar Sebastin, Gyu-Taek Cho, Seong-Hoon Kim, Eunae Yoo, Sookyeong Lee, Dong-Mo Son, Kyung Jun Lee. Utilization of Phytochemical and Molecular Diversity to Develop a Target-Oriented Core Collection in Tea Germplasm. Agronomy. 2020; 10 (11):1667.
Chicago/Turabian StyleDo Yoon Hyun; Gwang-Yeon Gi; Raveendar Sebastin; Gyu-Taek Cho; Seong-Hoon Kim; Eunae Yoo; Sookyeong Lee; Dong-Mo Son; Kyung Jun Lee. 2020. "Utilization of Phytochemical and Molecular Diversity to Develop a Target-Oriented Core Collection in Tea Germplasm." Agronomy 10, no. 11: 1667.
To improve crops, it is important to secure plant genetic source material and evaluate the genetic diversity. Ginseng (Panax ginseng C.A. Meyer) has long been used as a medicinal herb in Korea and China. Since ginseng originated from wild ginseng with low genetic diversity, it is also expected to have low genetic diversity. In this study, the genetic diversity of 451 ginseng accessions conserved in the National Agrobiodiversity Center (NAC) at Korea was analyzed using 33 SSR markers. Another objective was to establish a strategy for NAC to manage ginseng germplasm based on these results. The 451 accessions were collected from 22 cities in six provinces in South Korea. Among the 451 ginseng accessions, 390 (86.5%) and 61 (13.5%) were landraces and breeding lines, respectively. In the STRUCTURE results for the accessions, there was no relationship between assigned genotypes and collection areas, but there was a population genetic structure. In addition, genetic differentiation within populations of each analysis was low, indicating that the ginseng accessions conserved at NAC are extensively dispersed throughout the collection areas. The results of this study suggest that NAC should increase the genetic diversity of ginseng accessions for breeding programs, and alternatives are needed for securing ginseng genetic resources.
Kyung Jun Lee; Raveendar Sebastin; Seong-Hoon Kim; Eunae Yoo; Sookyeong Lee; Gyu-Taek Cho; Manjung Kang; Do Yoon Hyun. Genetic Composition of Korean Ginseng Germplasm by Collection Area and Resource Type. Agronomy 2020, 10, 1643 .
AMA StyleKyung Jun Lee, Raveendar Sebastin, Seong-Hoon Kim, Eunae Yoo, Sookyeong Lee, Gyu-Taek Cho, Manjung Kang, Do Yoon Hyun. Genetic Composition of Korean Ginseng Germplasm by Collection Area and Resource Type. Agronomy. 2020; 10 (11):1643.
Chicago/Turabian StyleKyung Jun Lee; Raveendar Sebastin; Seong-Hoon Kim; Eunae Yoo; Sookyeong Lee; Gyu-Taek Cho; Manjung Kang; Do Yoon Hyun. 2020. "Genetic Composition of Korean Ginseng Germplasm by Collection Area and Resource Type." Agronomy 10, no. 11: 1643.
Black soybean (Glycine max L.) has been used as a traditional medicine because its seed coat contains various natural phenolic compounds such as anthocyanins. The objective of this study was to reveal the genetic variation in the agricultural traits, phytochemicals, and antioxidant activity of 172 Korean black soybean landraces (KBSLs) and establish a relationship among them. The evaluation of three agricultural traits (days to 50% flowering, maturity, and 100-seed weight), six phytochemicals (delphinidin-3-glucoside, cyaniding-3-glucoside, petunidin-3-glucoside, daidzin, glycitin, and genestin), and four antioxidant activities (2,2-diphenyl-1-picrylhydrazyl (DPPH), 2,2′-azino-bis-(3-ethylbenzothiazoline-6-sulfonic acid)(ABTS), ferric-reducing antioxidant power (FRAP), and the total polyphenol content (TPC) of 172 KBSLs were analyzed in 2012 and 2015. The agricultural traits, phytochemicals, and antioxidant activities of the 172 KBSLs showed wide variation among the accessions and years. In correlation analysis, the agricultural traits and phytochemicals showed positive and negative correlations with phytochemicals and antioxidant activity, respectively. The principal component analyses result indicated that phytochemicals accounted for most of the variability in the KBSLs. In clustering analysis, the 172 KBSLs were classified into four clusters. These results could lead to expanding the knowledge of the agricultural traits, phytochemicals, and antioxidant activity of the KBSLs, which are valuable materials for the development of new soybean varieties.
Kyung Jun Lee; Da-Young Baek; Gi-An Lee; Gyu-Taek Cho; Yoon-Sup So; Jung-Ro Lee; Kyung-Ho Ma; Jong-Wook Chung; Do Yoon Hyun. Phytochemicals and Antioxidant Activity of Korean Black Soybean (Glycine max L.) Landraces. Antioxidants 2020, 9, 213 .
AMA StyleKyung Jun Lee, Da-Young Baek, Gi-An Lee, Gyu-Taek Cho, Yoon-Sup So, Jung-Ro Lee, Kyung-Ho Ma, Jong-Wook Chung, Do Yoon Hyun. Phytochemicals and Antioxidant Activity of Korean Black Soybean (Glycine max L.) Landraces. Antioxidants. 2020; 9 (3):213.
Chicago/Turabian StyleKyung Jun Lee; Da-Young Baek; Gi-An Lee; Gyu-Taek Cho; Yoon-Sup So; Jung-Ro Lee; Kyung-Ho Ma; Jong-Wook Chung; Do Yoon Hyun. 2020. "Phytochemicals and Antioxidant Activity of Korean Black Soybean (Glycine max L.) Landraces." Antioxidants 9, no. 3: 213.
Ginseng (Panax ginseng C.A. Meyer), commonly known as Korean or Asian ginseng, is a perennial herb native to Korea and China. There has been limited research effort to analyze the genetic diversity and population structure of ginseng germplasm because of its growth habits. In the present study, genetic diversity and population structure of ginseng germplasm conserved in the National Agrobiodiversity Center (NAC) of South Korea were analyzed to provide basic data for future preservation and breeding of ginseng genetic resources. Seventeen simple sequence repeat (SSR) markers were used to assess the genetic diversity and population structure of 1109 ginseng accessions. Among 1109 ginseng accessions, 1042 (94.0%) accessions were landraces and 66 (6.0%) accessions were breeding lines (61 accessions, 5.5%) or cultivars (5 accessions, 0.5%). SSR markers revealed 56 different alleles with an average of 3.29 alleles per locus. The average gene diversity was 0.49. Analysis of molecular variance showed that 91% of allelic diversity was attributed to individual accessions within clusters while only 9% was distributed among clusters. Using discriminant analysis of principal components, 12 clusters were detected in 1109 ginseng accessions. The results of this study provide molecular evidence for the narrow genetic base of ginseng germplasm in NAC. For the broad understanding and efficient use of ginseng germplasm, it is necessary to analyze functional factors and to evaluate morphological traits.
Kyung Jun Lee; Jung-Ro Lee; Raveendar Sebastin; Gyu-Taek Cho; Do Yoon Hyun. Molecular Genetic Diversity and Population Structure of Ginseng Germplasm in RDA-Genebank: Implications for Breeding and Conservation. Agronomy 2020, 10, 68 .
AMA StyleKyung Jun Lee, Jung-Ro Lee, Raveendar Sebastin, Gyu-Taek Cho, Do Yoon Hyun. Molecular Genetic Diversity and Population Structure of Ginseng Germplasm in RDA-Genebank: Implications for Breeding and Conservation. Agronomy. 2020; 10 (1):68.
Chicago/Turabian StyleKyung Jun Lee; Jung-Ro Lee; Raveendar Sebastin; Gyu-Taek Cho; Do Yoon Hyun. 2020. "Molecular Genetic Diversity and Population Structure of Ginseng Germplasm in RDA-Genebank: Implications for Breeding and Conservation." Agronomy 10, no. 1: 68.
Sweet potato (Ipomoea batatas L. Lam) is an important food crop widely cultivated in the world. In this study, nine chloroplast simple sequence repeat (cpSSR) markers were used to analyze the genetic diversity and relationships of 558 sweet potato accessions in the germplasm collection of the National Agrobiodiversity Center (NAC). Eight of the nine cpSSR showed polymorphisms, while Ibcp31 did not. The number of alleles per locus ranged from two to four. In general, the Shannon index for each cpSSR ranged from 0.280 to 1.123 and the diversity indices and unbiased diversity ranged from 0.148 to 0.626, and 0.210 to 0.627, respectively. Results of the median-joining network showed 33 chlorotypes in 558 sweet potato accessions. In factor analysis, 558 sweet potato accessions were divided into four clusters, with clusters I and II composed only of the sweet potato accessions from Korea, Japan, Taiwan, and the USA. The results of this study confirmed that the genetic diversity of the female parents of sweet potato accessions conserved at the NAC is low and therefore more sweet potato accessions need to be collected. These results will help to establish an efficient management plan for sweet potato genetic germplasms at the NAC.
Kyung Jun Lee; Gi-An Lee; Jung-Ro Lee; Raveendar Sebastin; Myoung-Jae Shin; Gyu-Taek Cho; Do Yoon Hyun. Genetic Diversity of Sweet Potato (Ipomoea batatas L. Lam) Germplasms Collected Worldwide Using Chloroplast SSR Markers. Agronomy 2019, 9, 752 .
AMA StyleKyung Jun Lee, Gi-An Lee, Jung-Ro Lee, Raveendar Sebastin, Myoung-Jae Shin, Gyu-Taek Cho, Do Yoon Hyun. Genetic Diversity of Sweet Potato (Ipomoea batatas L. Lam) Germplasms Collected Worldwide Using Chloroplast SSR Markers. Agronomy. 2019; 9 (11):752.
Chicago/Turabian StyleKyung Jun Lee; Gi-An Lee; Jung-Ro Lee; Raveendar Sebastin; Myoung-Jae Shin; Gyu-Taek Cho; Do Yoon Hyun. 2019. "Genetic Diversity of Sweet Potato (Ipomoea batatas L. Lam) Germplasms Collected Worldwide Using Chloroplast SSR Markers." Agronomy 9, no. 11: 752.
Watermelon is an economically important vegetable fruit worldwide. The objective of this study was to conduct a genetic diversity of 68 watermelon accessions using single nucleotide polymorphisms (SNPs). Genotyping by sequencing (GBS) was used to discover SNPs and assess genetic diversity and population structure using STRUCTURE and discriminant analysis of principal components (DAPC) in watermelon accessions. Two groups of watermelons were used: 1) highly utilized 41 watermelon accessions at the National Agrobiodiversity Center (NAC) at the Rural Development Administration in South Korea; and 2) 27 Korean commercial watermelons. Results revealed the presence of four clusters within the populations differentiated principally based on seed companies. In addition, there was higher genetic differentiation among commercial watermelons of each company. It is hypothesized that the results obtained from this study would contribute towards the expansion of this crop as well as providing data about genetic diversity, which would be useful for the preservation of genetic resources or for future breeding programs.
Kyung Jun Lee; Jung-Ro Lee; Raveendar Sebastin; Myoung-Jae Shin; Seong-Hoon Kim; Gyu-Taek Cho; Do Yoon Hyun. Genetic Diversity Assessed by Genotyping by Sequencing (GBS) in Watermelon Germplasm. Genes 2019, 10, 822 .
AMA StyleKyung Jun Lee, Jung-Ro Lee, Raveendar Sebastin, Myoung-Jae Shin, Seong-Hoon Kim, Gyu-Taek Cho, Do Yoon Hyun. Genetic Diversity Assessed by Genotyping by Sequencing (GBS) in Watermelon Germplasm. Genes. 2019; 10 (10):822.
Chicago/Turabian StyleKyung Jun Lee; Jung-Ro Lee; Raveendar Sebastin; Myoung-Jae Shin; Seong-Hoon Kim; Gyu-Taek Cho; Do Yoon Hyun. 2019. "Genetic Diversity Assessed by Genotyping by Sequencing (GBS) in Watermelon Germplasm." Genes 10, no. 10: 822.
Tea (Camellia sinensis (L.) O. Kuntze) is cultivated in many developing Asian, African, and South American countries, and is the most widely consumed beverage in the world. It is of critical importance to understand the genetic diversity and population structure of tea germplasm for effective collection, conservation, and utilization. In this study, 410 tea accessions collected from South Korea were analyzed using 21 simple sequence repeat (SSR) markers. Among 410 tea accessions, 85.4% (350 accessions) were collected from Jeollanam-do. A total of 286 alleles were observed, and the genetic diversity and evenness were estimated to be on average 0.79 and 0.61, respectively, across all the tested samples. Using discriminant analysis of principal components, four clusters were detected in 410 tea accessions. Among them, cluster 1 showed a higher frequency of rare alleles (less than 1%). Using the calculation of the index of association and rbaD value, each cluster showed a clonal mode of reproduction. The result of analysis of molecular variance (AMOVA) showed that most of the variation observed was within populations (99%) rather than among populations (1%). The present study revealed the presence of lower diversity and simpler population structure in Korean tea germplasms. Consequently, more attention should be focused on collecting and conserving the new tea individuals to broaden genetic variation of new cultivars in future breeding of the tea plant.
Kyung Jun Lee; Jung-Ro Lee; Raveendar Sebastin; Myoung-Jae Shin; Seong-Hoon Kim; Gyu-Taek Cho; Do Yoon Hyun. Assessment of Genetic Diversity of Tea Germplasm for Its Management and Sustainable Use in Korea Genebank. Forests 2019, 10, 780 .
AMA StyleKyung Jun Lee, Jung-Ro Lee, Raveendar Sebastin, Myoung-Jae Shin, Seong-Hoon Kim, Gyu-Taek Cho, Do Yoon Hyun. Assessment of Genetic Diversity of Tea Germplasm for Its Management and Sustainable Use in Korea Genebank. Forests. 2019; 10 (9):780.
Chicago/Turabian StyleKyung Jun Lee; Jung-Ro Lee; Raveendar Sebastin; Myoung-Jae Shin; Seong-Hoon Kim; Gyu-Taek Cho; Do Yoon Hyun. 2019. "Assessment of Genetic Diversity of Tea Germplasm for Its Management and Sustainable Use in Korea Genebank." Forests 10, no. 9: 780.
Flowering is indicative of the transition from vegetative to reproductive phase, a critical event in the life cycle of plants. In this study, we performed whole genome resequencing by Illumina HiSeq to identify changes in flowering genes using an early-flowering phenotype of soybean mutant line Josaengserori (JS) derived from Korean landrace, Seoritae (SR), and we obtained mapped reads of 131,769,690 and 167,669,640 bp in JS and SR, respectively. From the whole genome sequencing results between JS and SR, we identified 332,821 polymorphic SNPs and 65,178 indels, respectively. Among these, 30 flowering genes were in SNPs and 25 were in indels. Among 30 flowering genes detected in SNPs, Glyma02g33040, Glyma06g22650, Glyma10g36600, Glyma13g01290, Glyma14g10530, Glyma16g01980, Glyma17g11040, Glyma18g53690, and Glyma20g29300 were non-synonymous substitutions between JS and SR. Changes in Glyma10g36600 (GI), Glya02g33040 (AGL18), Glyma17g11040 (TOC1), and Glyma14g10530 (ELF3) in JS affected the expression of GmFT2a and resulted in early flowering. These results provide insight into the regulatory pathways of flowering in soybean mutants and help to improve our knowledge of soybean mutation breeding.
Kyung Jun Lee; Dong Sub Kim; Jin-Baek Kim; Sung-Hwan Jo; Si-Yong Kang; Hong-Il Choi; Bo-Keun Ha. Identification of candidate genes for an early-maturing soybean mutant by genome resequencing analysis. Molecular Genetics and Genomics 2016, 291, 1561 -1571.
AMA StyleKyung Jun Lee, Dong Sub Kim, Jin-Baek Kim, Sung-Hwan Jo, Si-Yong Kang, Hong-Il Choi, Bo-Keun Ha. Identification of candidate genes for an early-maturing soybean mutant by genome resequencing analysis. Molecular Genetics and Genomics. 2016; 291 (4):1561-1571.
Chicago/Turabian StyleKyung Jun Lee; Dong Sub Kim; Jin-Baek Kim; Sung-Hwan Jo; Si-Yong Kang; Hong-Il Choi; Bo-Keun Ha. 2016. "Identification of candidate genes for an early-maturing soybean mutant by genome resequencing analysis." Molecular Genetics and Genomics 291, no. 4: 1561-1571.