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151. Identification and chromosomal organization of two rye genome-specific RAPD products useful as introgression markers in wheat.

Author

Ko, Jong-Min, Do, Geum-Sook, Suh, Duck-Yong, Seo, Bong-Bo, Shin, Doo-Chull, and Moon, Huhn-Pal

Subjects
WHEAT genetics, RYE, RAPD technique, GENETIC markers, CHROMATIN
Abstract

Two rye genome-specific random amplified polymorphic DNA (RAPD) markers were identified for detection of rye introgression in wheat. Both markers were amplified in all of the tested materials that contained rye chromatin such as rye, hexaploid triticale, wheat–rye addition lines, and wheat varieties with 1BL.1RS translocation. Two cloned markers, designated pSc10C and pSc20H, were 1012 bp and 1494 bp, respectively. Sequence analysis showed that both pSc10C and pSc20H fragments were related to retrotransposons, ubiquitously distributed in plant genomes. Using fluorescence in situ hybridization (FISH), probe pSc10C was shown to hybridize predominantly to the pericentromeric regions of all rye chromosomes, whereas probe pSc20H was dispersed throughout the rye genome except at telomeric regions and nucleolar organizing regions. The FISH patterns showed that the two markers should be useful to select or track all wheat–rye translocation lines derived from the whole arms of rye chromosomes, as well as to characterize the positions of the translocation breakpoints generated in the proximal and distal regions of rye arms.Key words: RAPD, FISH, Secale cereale, Triticum aestivum, genome-specific sequences.Deux marqueurs AND polymorphe amplifié au hasard (RAPD) spécifiques du génome du seigle ont été identifiés pour la détection de segments chromosomiques du seigle chez le blé. Les deux marqueurs ont produit l'amplicon attendu chez toutes les lignées connues comme étant porteuses de chromatine du seigle. Celles-ci comprenaient le seigle, le triticale hexaploïde, des lignées d'addition blé–seigle ainsi que des cultivars de blé possédant la translocation 1BL.1RS. Les deux marqueurs clonés, appelés pSc10C et pSc20H, mesuraient respectivement 1 012 pb et 1 494 pb. L'examen des séquences a révélé que les amplicons pSc10C et pSc20H étaient apparentés à des rétrotransposons, lesquels sont ubiquitaires dans les génomes de plantes. À l'aide de l'hybridation in situ en fluorescence (FISH), il a été montré que la sonde pSc10C reconnaît de façon prédominante les régions péricentromériques de tous les chromosomes du seigle tandis que la sonde pSc20H reconnaît des séquences qui sont dispersées dans tout le génome du seigle à l'exception des régions télomériques et des organisateurs nucléolaires. Le motifs FISH ont montré que les deux marqueurs devraient s'avérer utiles pour sélectionner ou suivre toute lignée de translocation blé–seigle portant un bras chromosomique complet du seigle de même que pour caractériser l'emplacement des cassures chromosomiques sur venues dans les régions proximales et distales des bras chromosomiques du seigle lors des translocations.Mots clés : RAPD, FISH, Secale cereale, Triticum aestivum, séquences spécifiques d'un génome.[Traduit par la Rédaction] [ABSTRACT FROM AUTHOR]

Published
2002
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153. RNA-Seq and Electrical Penetration Graph Revealed the Role of Grh1 -Mediated Activation of Defense Mechanisms towards Green Rice Leafhopper (Nephotettix cincticeps Uhler) Resistance in Rice (Oryza sativa L.).

Author

Kwon, Youngho, Kabange, Nkulu Rolly, Lee, Ji-Yoon, Seo, Bo Yoon, Shin, Dongjin, Lee, So-Myeong, Cha, Jin-Kyung, Cho, Jun-Hyeon, Kang, Ju-Won, Park, Dong-Soo, Ko, Jong-Min, and Lee, Jong-Hee

Subjects
RICE, INSECT defenses, LEAFHOPPERS, RNA sequencing, CELLULAR signal transduction, CARBOHYDRATE metabolism
Abstract

The green rice leafhopper (GRH, Nephotettix cincticeps Uhler) is one of the most important insect pests causing serious damage to rice production and yield loss in East Asia. Prior to performing RNA-Seq analysis, we conducted an electrical penetration graph (EPG) test to investigate the feeding behavior of GRH on Ilpum (recurrent parent, GRH-susceptible cultivar), a near-isogenic line (NIL carrying Grh1) compared to the Grh1 donor parent (Shingwang). Then, we conducted a transcriptome-wide analysis of GRH-responsive genes in Ilpum and NIL, which was followed by the validation of RNA-Seq data by qPCR. On the one hand, EPG results showed differential feeding behaviors of GRH between Ilpum and NIL. The phloem-like feeding pattern was detected in Ilpum, whereas the EPG test indicated a xylem-like feeding habit of GRH on NIL. In addition, we observed a high death rate of GRH on NIL (92%) compared to Ilpum (28%) 72 h post infestation, attributed to GRH failure to suck the phloem sap of NIL. On the other hand, RNA-Seq data revealed that Ilpum and NIL GRH-treated plants generated 1,766,347 and 3,676,765 counts per million mapped (CPM) reads, respectively. The alignment of reads indicated that more than 75% of reads were mapped to the reference genome, and 8859 genes and 15,815,400 transcripts were obtained. Of this number, 3424 differentially expressed genes (DEGs, 1605 upregulated in Ilpum and downregulated in NIL; 1819 genes upregulated in NIL and downregulated in Ilpum) were identified. According to the quantile normalization of the fragments per kilobase of transcript per million mapped reads (FPKM) values, followed by the Student's t-test (p < 0.05), we identified 3283 DEGs in Ilpum (1935 upregulated and 1348 downregulated) and 2599 DEGs in NIL (1621 upregulated and 978 downregulated) with at least a log2 (logarithm base 2) twofold change (Log2FC ≥2) in the expression level upon GRH infestation. Upregulated genes in NIL exceeded by 13.3% those recorded in Ilpum. The majority of genes associated with the metabolism of carbohydrates, amino acids, lipids, nucleotides, the activity of coenzymes, the action of phytohormones, protein modification, homeostasis, the transport of solutes, and the uptake of nutrients, among others, were abundantly upregulated in NIL (carrying Grh1). However, a high number of upregulated genes involved in photosynthesis, cellular respiration, secondary metabolism, redox homeostasis, protein biosynthesis, protein translocation, and external stimuli response related genes were found in Ilpum. Therefore, all data suggest that Grh1-mediated resistance against GRH in rice would involve a transcriptome-wide reprogramming, resulting in the activation of bZIP, MYB, NAC, bHLH, WRKY, and GRAS transcription factors, coupled with the induction of the pathogen-pattern triggered immunity (PTI), systemic acquired resistance (SAR), symbiotic signaling pathway, and the activation of genes associated with the response mechanisms against viruses. This comprehensive transcriptome profile of GRH-responsive genes gives new insights into the molecular response mechanisms underlying GRH (insect pest)–rice (plant) interaction. [ABSTRACT FROM AUTHOR]

Published
2021
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155. Novel QTL Associated with Shoot Branching Identified in Doubled Haploid Rice (Oryza sativa L.) under Low Nitrogen Cultivation.

Author

Kwon, Young-Ho, Kabange, Nkulu-Rolly, Lee, Ji-Yun, Lee, So-Myeong, Cha, Jin-Kyung, Shin, Dong-Jin, Cho, Jun-Hyeon, Kang, Ju-Won, Ko, Jong-Min, Lee, Jong-Hee, and Schläppi, Michael

Subjects
PHENOTYPIC plasticity, PLANT growth, NITROGEN, PHENOTYPES, PLANT development
Abstract

Shoot branching is considered as an important trait for the architecture of plants and contributes to their growth and productivity. In cereal crops, such as rice, shoot branching is controlled by many factors, including phytohormones signaling networks, operating either in synergy or antagonizing each other. In rice, shoot branching indicates the ability to produce more tillers that are essential for achieving high productivity and yield potential. In the present study, we evaluated the growth and development, and yield components of a doubled haploid population derived from a cross between 93-11 (P1, indica) and Milyang352 (P2, japonica), grown under normal nitrogen and low nitrogen cultivation open field conditions. The results of the phenotypic evaluation indicated that parental lines 93-11 (P1, a high tillering indica cultivar) and Milyang352 (P2, a low tillering japonica cultivar) showed distinctive phenotypic responses, also reflected in their derived population. In addition, the linkage mapping and quantitative trait locus (QTL) analysis detected three QTLs associated with tiller number on chromosome 2 (qTNN2-1, 130 cM, logarithm of the odds (LOD) 4.14, PVE 14.5%; and qTNL2-1, 134 cM, LOD: 6.05, PVE: 20.5%) and chromosome 4 (qTN4-1, 134 cM, LOD 3.92, PVE 14.5%), with qTNL2-1 having the highest phenotypic variation explained, and the only QTL associated with tiller number under low nitrogen cultivation conditions, using Kompetitive Allele-Specific PCR (KASP) and Fluidigm markers. The additive effect (1.81) of qTNL2-1 indicates that the allele from 93-11 (P1) contributed to the observed phenotypic variation for tiller number under low nitrogen cultivation. The breakthrough is that the majority of the candidate genes harbored by the QTLs qTNL2-1 and qTNN4-1 (here associated with the control of shoot branching under low and normal nitrogen cultivation, respectively), were also proposed to be involved in plant stress signaling or response mechanisms, with regard to their annotations and previous reports. Therefore, put together, these results would suggest that a possible crosstalk exists between the control of plant growth and development and the stress response in rice. [ABSTRACT FROM AUTHOR]

Published
2021
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156. New Insights into the Transcriptional Regulation of Genes Involved in the Nitrogen Use Efficiency under Potassium Chlorate in Rice (Oryza sativa L.).

Author

Kabange, Nkulu Rolly, Park, So-Yeon, Lee, Ji-Yun, Shin, Dongjin, Lee, So-Myeong, Kwon, Youngho, Cha, Jin-Kyung, Cho, Jun-Hyeon, Duyen, Dang Van, Ko, Jong-Min, Lee, Jong-Hee, and Hori, Kiyosumi

Subjects
GENETIC regulation, NITRATE reductase, POLYPHENOL oxidase, POTASSIUM, AMMONIUM nitrate
Abstract

Potassium chlorate (KClO3) has been widely used to evaluate the divergence in nitrogen use efficiency (NUE) between indica and japonica rice subspecies. This study investigated the transcriptional regulation of major genes involved in the NUE in rice treated with KClO3, which acts as an inhibitor of the reducing activity of nitrate reductase (NR) in higher plants. A set of two KClO3 sensitive nitrate reductase (NR) and two nitrate transporter (NRT) introgression rice lines (BC2F7), carrying the indica alleles of NR or NRT, derived from a cross between Saeilmi (japonica, P1) and Milyang23 (indica, P2), were exposed to KClO3 at the seedling stage. The phenotypic responses were recorded 7 days after treatment, and samples for gene expression, physiological, and biochemical analyses were collected at 0 h (control) and 3 h after KClO3 application. The results revealed that Saeilmi (P1, japonica) and Milyang23 (P2, indica) showed distinctive phenotypic responses. In addition, the expression of OsNR2 was differentially regulated between the roots, stem, and leaf tissues, and between introgression lines. When expressed in the roots, OsNR2 was downregulated in all introgression lines. However, in the stem and leaves, OsNR2 was upregulated in the NR introgression lines, but downregulation in the NRT introgression lines. In the same way, the expression patterns of OsNIA1 and OsNIA2 in the roots, stem, and leaves indicated a differential transcriptional regulation by KClO3, with OsNIA2 prevailing over OsNIA1 in the roots. Under the same conditions, the activity of NR was inhibited in the roots and differentially regulated in the stem and leaf tissues. Furthermore, the transcriptional divergence of OsAMT1.3 and OsAMT2.3, OsGLU1 and OsGLU2, between NR and NRT, coupled with the NR activity pattern in the roots, would indicate the prevalence of nitrate (NO3¯) transport over ammonium (NH4+) transport. Moreover, the induction of catalase (CAT) and polyphenol oxidase (PPO) enzyme activities in Saeilmi (P1, KClO3 resistant), and the decrease in Milyang23 (P2, KClO3 sensitive), coupled with the malondialdehyde (MDA) content, indicated the extent of the oxidative stress, and the induction of the adaptive response mechanism, tending to maintain a balanced reduction–oxidation state in response to KClO3. The changes in the chloroplast pigments and proline content propose these compounds as emerging biomarkers for assessing the overall plant health status. These results suggest that the inhibitory potential of KClO3 on the reduction activity of the nitrate reductase (NR), as well as that of the genes encoding the nitrate and ammonium transporters, and glutamate synthase are tissue-specific, which may differentially affect the transport and assimilation of nitrate or ammonium in rice. [ABSTRACT FROM AUTHOR]

Published
2021
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157. Combined Linkage Mapping and Genome-Wide Association Study Identified QTLs Associated with Grain Shape and Weight in Rice (Oryzasativa L.).

Author

Kang, Ju-Won, Kabange, Nkulu Rolly, Phyo, Zarchi, Park, So-Yeon, Lee, So-Myeong, Lee, Ji-Yun, Shin, Dongjin, Cho, Jun Hyeon, Park, Dong-Soo, Ko, Jong-Min, and Lee, Jong-Hee

Subjects
RICE, GENETIC regulation, GRAIN, CHROMOSOMES
Abstract

In the current study, we used a linkage mapping–Genome-Wide Association Study (GWAS) joint strategy to investigate quantitative trait loci (QTLs) governing rice grain shape and weight in a doubled haploid (DH) population, using Kompetitive Allele-Specific PCR (KASP) markers. Results revealed the co-detection of the QTLs, qGLE-12-1 and qGLE-12-2 (Chromosome 12), qGTE-3-1 (Chromosome 3), and qGWL-5-1 and qLWRL-5-1 (Chromosome 5), associated with grain length, width, and length–width ratio, by both linkage mapping and GWAS. In addition, qGLL-7-1 (logarithm of the odds (LOD): 18.0, late-transplanted rice) and qGLE-3-1 (LOD: 8.1, early-transplanted rice), and qLWRL-7-1 (LOD: 34.5), detected only by linkage mapping, recorded a high phenotypic variation explained (PVE) of 32.5%, 19.3%, and 37.7% for grain length, and grain length–width ratio, respectively, contributed by the allele from 93-11. Meanwhile, qGWL-5-1 (LOD: 17.2) recorded a high PVE (31.7%) for grain width, and the allele from Milyang352 contributed to the observed phenotypic variation. Furthermore, qGTL-5-1 (LOD: 21.9) had a high PVE (23.3%) for grain thickness. Similarly, qTGWE-5-1 (LOD: 8.6) showed a high contribution to the PVE for grain weight (23.4%). Moreover, QTLs, qGW-5-1, qGT-5-1, qLWR-5-1, and qTGW-5-1 coincided on chromosome 5, flanked with KJ05_17 and KJ05_13 markers. Therefore, these QTLs are suggested to govern rice grain shape and weight. Additionally, the identified candidate genes could play active roles in the regulation of rice grain shape and weight, regarding their predicted functions, and similarity with previously reported genes. Downstream breeding and functional studies are required to elucidate the roles of these candidate genes in the regulation of grain shape and weight in rice. [ABSTRACT FROM AUTHOR]

Published
2020
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158. Identification of a Novel QTL for Chlorate Resistance in Rice (Oryzasativa L.).

Author

Kabange, Nkulu Rolly, Park, So-Yeon, Shin, Dongjin, Lee, So-Myeong, Jo, Su-Min, Kwon, Youngho, Cha, Jin-Kyung, Song, You-Chun, Ko, Jong-Min, and Lee, Jong-Hee

Subjects
METABOLIC regulation, ROOT growth, ANTHER, CHROMOSOMES, IDENTIFICATION
Abstract

Chlorate resistance analysis is an effective approach commonly used to distinguish the genetic variation between Oryza sativa L. ssp. indica and japonica, and predict the nitrogen use efficiency (NUE). This study aimed at investigating the response of a doubled haploid (DH) population derived from anther culture of 93-11 × Milyang352 exposed to 0.1% potassium chlorate (KClO3) at the seedling stage. The results revealed that the parental rice lines 93-11 (indica) and Milyang352 (japonica) showed distinctive phenotypic responses. The parental line 93-11 scored highly sensitive (0% survival) and Milyang352 scored resistant (66.7% survival) 7 days after treatment. The DH lines reflected the differential phenotypic response observed in parental lines. Interestingly, we identified a novel quantitative trait locus (QTL) for chlorate resistance on chromosome 3 (qCHR-3, 136 cM, logarithm of the odds—LOD: 4.1) using Kompetitive Allele-Specific PCR (KASP) markers. The additive effect (−11.97) and phenotypic variation explained (PVE; 14.9%) indicated that the allele from Milyang352 explained the observed phenotypic variation. In addition, shoot growth showed a significant difference between parental lines, but not root growth. Moreover, in silico analysis identified candidate genes with diverse and interesting molecular and physiological functions. Therefore, this study suggested that the QTL qCHR-3 harbors promising candidate genes that could play a role in the regulation of nitrogen metabolism in rice. [ABSTRACT FROM AUTHOR]

Published
2020
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159. Fine mapping of qBK1, a major QTL for bakanae disease resistance in rice.

Author

Lee, Sais-Beul, Kim, Namgyu, Hur, Yeon-Jae, Cho, Su-Min, Kim, Tae-Heon, Lee, Ji-youn, Cho, Jun-Hyeon, Lee, Jong-Hee, Song, You-Chun, Seo, Young-Su, Ko, Jong-Min, and Park, Dong-Soo

Subjects
RICE varieties, DISEASE resistance of plants, RICE, GIBBERELLA fujikuroi, RICE breeding, RICE diseases & pests
Abstract

Background: Bakanae disease is an important fungal disease caused by Gibberella fujikuroi. Incidence of rice bakanae disease creates serious problems in the foremost rice growing countries, and no rice variety has been found to be completely resistant to this disease. However, breeding rice varieties resistant to bakanae disease may be a cost-saving solution preferable to the application of fungicides. In this study, we aimed to determine the exact position and the candidate gene for qBK1, a major resistant quantitative trait locus (QTLs) for bakanae disease. Results: The genotypes/phenotypes of recombinants selected from backcrossed recombinant inbred lines of two rice varieties, Shingwang (resistant) and Ilpum (susceptible), indicated that the locus qBK1, conferring resistance to bakanae disease in Shingwang, was delimited to a 35-kb interval delimited by InDel 18 (23.637 Mbp) and InDel 19–14 (23.672 Mbp). Sequence analysis of this 35-kb region revealed four candidate genes, LOC_Os01g41770, LOC_Os01g41780, LOC_Os01g41790, and LOC_Os01g41800. There were many non-synonymous SNPs in LOC_Os01g41770 and the transcript of LOC_Os01g41790 was early terminated in Shingwang, whereas there were no differences in both LOC_Os01g41780 and LOC_Os01g41800 sequences between Ilpum and Shingwang. Expression profiling of the four candidate genes showed the up-regulation of LOC_Os01g41770, LOC_Os01g41780, and LOC_Os01g41790 in Ilpum and of LOC_Os01g41800 in Shingwang after inoculation of G. fujikuroi. Conclusion: Utilization of marker-assisted selection (MAS) with a precise molecular marker on qBK1 could provide an effective tool for breeding rice varieties resistant to bakanae disease. To our knowledge, this is the first report on fine mapping and candidate gene approaches for identifying the gene for qBK1. [ABSTRACT FROM AUTHOR]

Published
2019
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160. Chemometrics and Authenticity of Foods of Plant Origin

Author

Sofia Agriopoulou, Maria Tarapoulouzi, Theodoros Varzakas, Sofia Agriopoulou, Maria Tarapoulouzi, and Theodoros Varzakas

Subjects
Natural foods--Analysis, Chemometrics
Abstract

One of the challenges facing the world is feeding the ever-increasing population, with food security being a growing 21st century problem. This stresses the need for coordinated international systems to prevent and mitigate food fraud in global food supply chains. Food fraud, which is usually financially motivated, has significant consequences including unfair competition, major damage to markets and organizations, loss of consumer confidence, and it raises food safety issues.A shift toward a more plant-based diet can be endorsed to promote sustainability but also to improve public health and minimize animal suffering. The aim of this book is to deal with issues related to authenticity and chemometrics of the most important food products of plant origin, such as cereals, nuts, legumes, table olives and olive oil, coffee, tea, fruits and vegetables, fruit juices, spices, mushrooms, beers and wines, and honey, using state-of-the-art analytical techniques and instrumentation coupled with available chemometric tools.

Published
2022

161. Convergence and Hybrid Information Technology : 5th International Conference, ICHIT 2011, Daejeon, Korea, September 22-24, 2011. Proceedings

Author

Geuk Lee, Daniel Howard, Dominik Ślęzak, Geuk Lee, Daniel Howard, and Dominik Ślęzak

Subjects
Computer systems--Congresses, Information technology--Congresses, Computer science--Congresses, Computer networks--Congresses
Abstract

This book constitutes the refereed proceedings of the 5th International Conference on Convergence and Hybrid Information Technology, ICHIT 2011, held in Daejeon, Korea, in September 2011. The 85 revised full papers presented were carefully reviewed and selected from 144 submissions. The papers are organized in topical sections on communications and networking; motion, video, image processing; security systems; cloud, RFID and robotics; industrial application of software systems; hardware and software engineering; healthcare, EEG and e-learning; HCI and data mining; software system and its applications.

Published
2011

164. Reports on Molecular Science Findings from National Institute of Crop Science Provide New Insights [RNA-Seq and Electrical Penetration Graph Revealed the Role of * * Grh1* * -Mediated Activation of Defense Mechanisms towards Green Rice ...]

Subjects
Control, Diseases and pests, Genetic aspects, Methods, Insect resistance (Plants) -- Genetic aspects, Rice -- Diseases and pests -- Genetic aspects, Leafhoppers -- Control, RNA sequencing -- Methods, Plants -- Insect resistance
Abstract

2021 OCT 29 (NewsRx) -- By a News Reporter-Staff News Editor at Science Letter -- New research on molecular science is the subject of a new report. According to news [...]

Published
2021

165. National Institute of Crop Science Researchers Highlight Recent Research in Genetic Research [Novel QTL Associated with Shoot Branching Identified in Doubled Haploid Rice (* * Oryza sativa* * L.) under Low Nitrogen Cultivation]

Subjects
Identification and classification, Physiological aspects, Growth, Genetic aspects, Company growth, Shoots (Botany) -- Growth -- Genetic aspects, Rice -- Growth -- Genetic aspects, Nitrogen (Nutrient) -- Physiological aspects, Haploidy -- Physiological aspects, Quantitative trait loci -- Physiological aspects -- Identification and classification, Nitrogen in the body -- Physiological aspects
Abstract

2021 JUN 15 (NewsRx) -- By a News Reporter-Staff News Editor at Life Science Weekly -- Investigators publish new report on genetic research. According to news reporting originating from Miryang, [...]

Published
2021

167. Data from National Institute of Crop Science Advance Knowledge in Molecular Science [New Insights into the Transcriptional Regulation of Genes Involved in the Nitrogen Use Efficiency under Potassium Chlorate in Rice (* * Oryza sativa* * L.)]

Subjects
Observations, Genetic aspects, Rice -- Genetic aspects, Transcription (Genetics) -- Observations, Genetic transcription -- Observations
Abstract

2021 MAR 12 (NewsRx) -- By a News Reporter-Staff News Editor at Science Letter -- Investigators discuss new findings in molecular science. According to news originating from Miryang, South Korea, [...]

Published
2021

168. Reports on Agronomy Findings from National Institute of Crop Science Provide New Insights [Combined Linkage Mapping and Genome-Wide Association Study Identified QTLs Associated with Grain Shape and Weight in Rice (* * Oryza* * * * sativa* * L.)]

Subjects
Identification and classification, Physiological aspects, Genetic aspects, Rice -- Physiological aspects -- Genetic aspects, Genome-wide association studies, Quantitative trait loci -- Identification and classification
Abstract

2020 OCT 27 (NewsRx) -- By a News Reporter-Staff News Editor at Life Science Weekly -- Fresh data on agronomy are presented in a new report. According to news reporting [...]

Published
2020

169. Reports from National Institute of Crop Science Add New Study Findings to Research in Agriculture [Identification of a Novel QTL for Chlorate Resistance in Rice (* * Oryza* * * * sativa* * L.)]

Subjects
Analysis, Reports, Agriculture -- Reports -- Analysis, Quantitative genetics -- Reports -- Analysis, Agricultural industry -- Analysis -- Reports
Abstract

2020 SEP 1 (NewsRx) -- By a News Reporter-Staff News Editor at Life Science Weekly -- Investigators publish new report on agriculture. According to news reporting from Miryang, South Korea, [...]

Published
2020

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