Your search keyword '"Byung Ohg Ahn"' showing total 26 results

1. NGS_SNPAnalyzer: a desktop software supporting genome projects by identifying and visualizing sequence variations from next-generation sequencing data

Author

Byung-Ohg Ahn, Tae-Ho Lee, Taesoo Kwon, Young-Joo Seol, Chang-Kug Kim, Dong-Jun Lee, and Dong-Suk Park

Subjects

0301 basic medicine, Java, Interface (Java), 030106 microbiology, Breeding, Biology, Polymorphism, Single Nucleotide, Biochemistry, 03 medical and health sciences, Software, Pipeline, Genetics, Humans, Molecular Biology, computer.programming_language, Graphical user interface, Variant identification, Whole-genome sequencing, business.industry, Genetic Diseases, Inborn, Computational Biology, High-Throughput Nucleotide Sequencing, Sequence Analysis, DNA, Genomics, Genome project, Pipeline (software), Visualization, 030104 developmental biology, Next-generation sequencing, Microsoft Windows, business, Software engineering, computer, Research Article

Abstract

Background Sequence variations such as single nucleotide polymorphisms are markers for genetic diseases and breeding. Therefore, identifying sequence variations is one of the main objectives of several genome projects. Although most genome project consortiums provide standard operation procedures for sequence variation detection methods, there may be differences in the results because of human selection or error. Objective To standardize the procedure for sequence variation detection and help researchers who are not formally trained in bioinformatics, we developed the NGS_SNPAnalyzer, a desktop software and fully automated graphical pipeline. Methods The NGS_SNPAnalyzer is implemented using JavaFX (version 1.8); therefore, it is not limited to any operating system (OS). The tools employed in the NGS_SNPAnalyzer were compiled on Microsoft Windows (version 7, 10) and Ubuntu Linux (version 16.04, 17.0.4). Results The NGS_SNPAnalyzer not only includes the functionalities for variant calling and annotation but also provides quality control, mapping, and filtering details to support all procedures from next-generation sequencing (NGS) data to variant visualization. It can be executed using pre-set pipelines and options and customized via user-specified options. Additionally, the NGS_SNPAnalyzer provides a user-friendly graphical interface and can be installed on any OS that supports JAVA. Conclusions Although there are several pipelines and visualization tools available for NGS data analysis, we developed the NGS_SNPAnalyzer to provide the user with an easy-to-use interface. The benchmark test results indicate that the NGS_SNPAnayzer achieves better performance than other open source tools.

Published

2020

2. Elucidating the triplicated ancestral genome structure of radish based on chromosome-level comparison with the Brassica genomes

Author

Mijin Oh, Namshin Kim, Seung-Won Lee, Soo-Jin Kwon, Seong-Han Sohn, Byung Ohg Ahn, Mina Jin, Won-Hyong Chung, Young-Joo Seol, Ki-Byung Lim, Dae-Jin Hyung, Keun Jin Choi, Seunghoon Baek, Beom-Seok Park, Won Byoung Chae, Goon-Bo Kim, Yoon-Jung Hwang, Hee-Ju Yu, Seongmun Jeong, Hee Chung, Jeong-Hwan Mun, Young-Min Jeong, and Sang-Bong Choi

Subjects

0301 basic medicine, Genome evolution, DNA, Plant, Raphanus, Brassica, Biology, Genome, Chromosomes, Plant, 03 medical and health sciences, Phylogenetics, Genetics, Gene, Phylogeny, Whole genome sequencing, Comparative Genomic Hybridization, Phylogenetic tree, Chromosome Mapping, High-Throughput Nucleotide Sequencing, food and beverages, Chromosome, Sequence Analysis, DNA, General Medicine, biology.organism_classification, 030104 developmental biology, Agronomy and Crop Science, Genome, Plant, Biotechnology

Abstract

This study presents a chromosome-scale draft genome sequence of radish that is assembled into nine chromosomal pseudomolecules. A comprehensive comparative genome analysis with the Brassica genomes provides genomic evidences on the evolution of the mesohexaploid radish genome. Radish (Raphanus sativus L.) is an agronomically important root vegetable crop and its origin and phylogenetic position in the tribe Brassiceae is controversial. Here we present a comprehensive analysis of the radish genome based on the chromosome sequences of R. sativus cv. WK10039. The radish genome was sequenced and assembled into 426.2 Mb spanning >98 % of the gene space, of which 344.0 Mb were integrated into nine chromosome pseudomolecules. Approximately 36 % of the genome was repetitive sequences and 46,514 protein-coding genes were predicted and annotated. Comparative mapping of the tPCK-like ancestral genome revealed that the radish genome has intermediate characteristics between the Brassica A/C and B genomes in the triplicated segments, suggesting an internal origin from the genus Brassica. The evolutionary characteristics shared between radish and other Brassica species provided genomic evidences that the current form of nine chromosomes in radish was rearranged from the chromosomes of hexaploid progenitor. Overall, this study provides a chromosome-scale draft genome sequence of radish as well as novel insight into evolution of the mesohexaploid genomes in the tribe Brassiceae.

Published

2016

3. Construction of a reference genetic map of Raphanus sativus based on genotyping by whole-genome resequencing

Author

Hee-Ju Yu, Ki-Byung Lim, Mijin Oh, Suhyoung Park, Won-Hyong Chung, Namshin Kim, Beom-Seok Park, Young-Min Jeong, Byung Ohg Ahn, Hee Chung, Jeong-Hwan Mun, and Yoon-Jung Hwang

Subjects

Genetic Markers, DNA, Plant, Genotype, Genotyping Techniques, Population, Biology, Polymorphism, Single Nucleotide, Genome, DNA sequencing, Raphanus, Genetics, education, Genotyping, Gene, Whole genome sequencing, Comparative Genomic Hybridization, education.field_of_study, Chromosome Mapping, food and beverages, Sequence Analysis, DNA, General Medicine, Genetic marker, Agronomy and Crop Science, Genome, Plant, Biotechnology

Abstract

This manuscript provides a genetic map of Raphanus sativus that has been used as a reference genetic map for an ongoing genome sequencing project. The map was constructed based on genotyping by whole-genome resequencing of mapping parents and F 2 population. Raphanus sativus is an annual vegetable crop species of the Brassicaceae family and is one of the key plants in the seed industry, especially in East Asia. Assessment of the R. sativus genome provides fundamental resources for crop improvement as well as the study of crop genome structure and evolution. With the goal of anchoring genome sequence assemblies of R. sativus cv. WK10039 whose genome has been sequenced onto the chromosomes, we developed a reference genetic map based on genotyping of two parents (maternal WK10039 and paternal WK10024) and 93 individuals of the F2 mapping population by whole-genome resequencing. To develop high-confidence genetic markers, ~83 Gb of parental lines and ~591 Gb of mapping population data were generated as Illumina 100 bp paired-end reads. High stringent sequence analysis of the reads mapped to the 344 Mb of genome sequence scaffolds identified a total of 16,282 SNPs and 150 PCR-based markers. Using a subset of the markers, a high-density genetic map was constructed from the analysis of 2,637 markers spanning 1,538 cM with 1,000 unique framework loci. The genetic markers integrated 295 Mb of genome sequences to the cytogenetically defined chromosome arms. Comparative analysis of the chromosome-anchored sequences with Arabidopsis thaliana and Brassica rapa revealed that the R. sativus genome has evident triplicated sub-genome blocks and the structure of gene space is highly similar to that of B. rapa. The genetic map developed in this study will serve as fundamental genomic resources for the study of R. sativus.

Published

2014

4. Effects of Protox Herbicide Tolerance Rice Cultivation on Microbial Community in Paddy Soil

Author

Hyun-Suk Cho, Byung-Ohg Ahn, Soo-In Sohn, Tae-Hun Ryu, Sung-Dug Oh, Kyoungwhan Back, Min-Kyeong Kim, Kijong Lee, and Chang-Gi Kim

Subjects

Rhizosphere, education.field_of_study, Oryza sativa, biology, Firmicutes, Population, food and beverages, General Medicine, biology.organism_classification, complex mixtures, Genetically modified rice, Actinobacteria, Agronomy, Microbial population biology, education, Temperature gradient gel electrophoresis

Abstract

BACKGROUND: Rice (Oryza sativa) is the most important staple food of over half the world's population. This study was conducted to evaluate the possible impact of transgenic rice cultivation on the soil microbial community. METHODS AND RESULTS: Microorganisms were isolated from the rhizosphere of GM and non-GM rice cultivation soils. Microbial community was identified based on the culture-dependent and molecular biology methods. The total numbers of bacteria, fungi, and actinomycete in the rhizosphere soils cultivated with GM and non-GM rice were similar to each other, and there was no significant difference between GM and non-GM rice. Dominant bacterial phyla in the rhizosphere soils cultivated with GM and non-GM rice were Actinobacteria, Firmicutes, and Proteobacteria. The microbial communities in GM and non-GM rice cultivated soils were characterized using the denaturing gradient gel electrophoresis (DGGE). The DGGE profiles showed similar patterns, but didn't show significant difference to each other. DNAs were isolated from soils cultivating GM and non-GM rice and analyzed for persistence of inserted gene in the soil by using PCR. The PCR analysis revealed that there were no amplified protox gene in soil DNA. CONCLUSION(S): These data suggest that transgenic rice does not have a significant impact on soil microbial communities, although continued research may be necessary.

Published

2013

5. Impact of Virus-resistant Trigonal Cactus Cultivation on Soil Microbial Community

Author

Soo-In Sohn, Tae-Hun Ryu, Jung-Jin Lee, Sung-Dug Oh, Min-Kyeong Kim, Jong-Bum Kim, Byung-Ohg Ahn, Kijong Lee, Hyun-Suk Cho, and Jong-Sug Park

Subjects

Rhizosphere, Hylocereus, biology, Cactus, Botany, Phosphinothricin acetyltransferase, General Medicine, Cauliflower mosaic virus, Proteobacteria, biology.organism_classification, Bacteria, Temperature gradient gel electrophoresis

Abstract

BACKGROUND: Genetically modified(GM) trigonal cactus(Hylocereus trigonus Saff.) contained a coat protein gene of cactus virus X (CVX), which conferred resistance to the virus, phosphinothricin acetyltransferase (bar) gene, which conferred herbicide resistance, and a cauliflower mosaic virus 35S promoter (CaMV 35S). This study was conducted to evaluate the possible impact of GM trigonal cactus cultivation on the soil microbial community. METHODS AND RESULTS: Microorganisms were isolated from the rhizosphere of GM and non-GM trigonal cactus cultivation soils. The total numbers of bacteria, and actinomycete in the rhizosphere soils cultivated GM and non-GM trigonal cactus were similar to each other, and there was no significant difference. Dominant bacterial phyla in the rhizosphere soils cultivated with GM and non-GM trigonal cactus were Proteobacteria, Uncultured archaeon, and Uncultured bacterium. The denaturing gradient gel electrophoresis (DGGE) profiles show a similar patterns, significant difference was not observed in each other. DNA was isolated from soil cultivated GM and non-GM trigonal cactus, we analyzed the persistence of the inserted gene by PCR. Amplification of the inserted genes was not observed in the soil DNA, which was collected after harvest. CONCLUSION(S): This result suggests that the GM trigonal cactus cultivation does not change significantly the microbial community.

Published

2013

6. Nutritional Composition of Drought-Tolerant Transgenic Rice

Author

Hyun-Suk Cho, Byung-Ohg Ahn, Young-Tack Lee, Seok-Chul Suh, and Hyang-Mi Lee

Subjects

chemistry.chemical_classification, Nutrition and Dietetics, Starch, Drought tolerance, food and beverages, Proximate, Biology, Genetically modified rice, Genetically modified organism, Amino acid, chemistry.chemical_compound, Nutrient, Agronomy, chemistry, Food science, Cultivar, Food Science

Abstract

This study compared the nutritional components (proximate components, fatty acids, amino acids, minerals and vitamins) between genetically modified (GM) drought-tolerant rice and a parental rice cultivar (Ilmibyeo) as a non-GM control. Both GM and non-GM rices were grown and harvested in two different locations, Gunwi and Suweon in Korea. Proximate components (moisture, starch, protein, lipid, and ash contents) were similar between the drought-tolerant GM rice and the conventional non-GM rice. There were no significant differences between the GM and non-GM rice in most of their nutrient compositions, despite minor locational differences of some amino acids and minerals. These results indicate that transgenic rice with a genetically improved resistance to drought is equivalent to the parental rice cultivar without major changes in its chemical contents.

Published

2013

7. Functional classification of rice flanking sequence tagged genes using MapMan terms and global understanding on metabolic and regulatory pathways affected by dxr mutant having defects in light response

Author

Tae Ho Kim, Ung-Han Yoon, Gynheung An, Gang-Seob Lee, Hong-Kyu Choi, Byung-Ohg Ahn, Ki-Hong Jung, Doh-Won Yun, Anil Kumar Nalini Chandran, Yo-Han Yoo, and Jin-Hyun Kim

Subjects

0106 biological sciences, 0301 basic medicine, Genetics, Light response, Gene-indexed mutant, Mutant, food and beverages, Soil Science, Functional genomics, Plant Science, Biology, 01 natural sciences, Genome, DXR, 03 medical and health sciences, 030104 developmental biology, MapMan analysis, Rice, Original Article, Agronomy and Crop Science, Gene, 010606 plant biology & botany, Sequence (medicine)

Abstract

Background Rice is one of the most important food crops for humans. To improve the agronomical traits of rice, the functions of more than 1,000 rice genes have been recently characterized and summarized. The completed, map-based sequence of the rice genome has significantly accelerated the functional characterization of rice genes, but progress remains limited in assigning functions to all predicted non-transposable element (non-TE) genes, estimated to number 37,000–41,000. Results The International Rice Functional Genomics Consortium (IRFGC) has generated a huge number of gene-indexed mutants by using mutagens such as T-DNA, Tos17 and Ds/dSpm. These mutants have been identified by 246,566 flanking sequence tags (FSTs) and cover 65 % (25,275 of 38,869) of the non-TE genes in rice, while the mutation ratio of TE genes is 25.7 %. In addition, almost 80 % of highly expressed non-TE genes have insertion mutations, indicating that highly expressed genes in rice chromosomes are more likely to have mutations by mutagens such as T-DNA, Ds, dSpm and Tos17. The functions of around 2.5 % of rice genes have been characterized, and studies have mainly focused on transcriptional and post-transcriptional regulation. Slow progress in characterizing the function of rice genes is mainly due to a lack of clues to guide functional studies or functional redundancy. These limitations can be partially solved by a well-categorized functional classification of FST genes. To create this classification, we used the diverse overviews installed in the MapMan toolkit. Gene Ontology (GO) assignment to FST genes supplemented the limitation of MapMan overviews. Conclusion The functions of 863 of 1,022 known genes can be evaluated by current FST lines, indicating that FST genes are useful resources for functional genomic studies. We assigned 16,169 out of 29,624 FST genes to 34 MapMan classes, including major three categories such as DNA, RNA and protein. To demonstrate the MapMan application on FST genes, transcriptome analysis was done from a rice mutant of 1-deoxy-D-xylulose 5-phosphate reductoisomerase (DXR) gene with FST. Mapping of 756 down-regulated genes in dxr mutants and their annotation in terms of various MapMan overviews revealed candidate genes downstream of DXR-mediating light signaling pathway in diverse functional classes such as the methyl-D-erythritol 4-phosphatepathway (MEP) pathway overview, photosynthesis, secondary metabolism and regulatory overview. This report provides a useful guide for systematic phenomics and further applications to enhance the key agronomic traits of rice. Electronic supplementary material The online version of this article (doi:10.1186/s12284-016-0089-2) contains supplementary material, which is available to authorized users.

Published

2016

8. Assessment of Microbial Community in Paddy Soils Cultivated with Bt and Nakdong Rice

Author

Hee-Youn Chi, Byung-Ohg Ahn, Kong Sik Shin, Soo-In Sohn, Min Seok Cho, and Byung-Kwan Cho

Subjects

Rhizosphere, Microbial population biology, Agronomy, biology, Firmicutes, food and beverages, Genetically modified crops, Proteobacteria, biology.organism_classification, complex mixtures, Temperature gradient gel electrophoresis, Actinobacteria, Acidobacteria

Abstract

The cultivation of genetically modified (GM) crops has increased due to their economic and agronomic advantages. Before commercialization of GM crops, however, we must assess the potential risks of GM crops on human health and environment. The aim of this study was to investigate the possible impact of Bt rice on the soil microbial community. Microbial communities were isolated from the rhizosphere soil cultivated with Bt rice and Nakdong, parental cultivar and were subjected to be analyzed using both culture-dependent and molecular methods. The total counts of bacteria, fungi, and actinomycetes in the rhizosphere of transgenic and conventional rice were not significantly different. Denaturing gradient gel electrophoresis (DGGE) analysis of PCR-amplified 16S rRNA genes revealed that the bacterial community structures during cultural periods were very similar each other. Analysis of dominant isolates in the rhizosphere cultivated with Bt and Nakdong rice showed that the dominant isolates from the soil of Bt rice and Nakdong belonged to the Proteobacteria, Cloroflexi, Actinobacteria, Firmicutes, and Acidobacteria. These results indicate that the Bt rice has no significant impact on the soil microbial communities during cultivation period. Further study remains to be investigated whether the residue of Bt rice effect on the soil environment.

Published

2012

9. Effect on Insecticide Susceptibility of Lissorhoptrus oryzophilus Fed on Carotenoid-Biofortified Rice Variety

Author

Kijong Lee, Sang-Jae Suh, Sung-Dug Oh, Jin-Seo Kim, Soo-Yun Park, Tae-Hun Ryu, Sun-Hwa Ha, Hyun-Suk Cho, Soo-In Sohn, Jong-Sug Park, Jae Kwang Kim, and Byung-Ohg Ahn

Subjects

photoperiodism, chemistry.chemical_classification, Phytoene synthase, medicine.medical_treatment, Weevil, Carotene, food and beverages, Clothianidin, General Medicine, Lissorhoptrus oryzophilus, Rice water, Biology, biology.organism_classification, food.food, chemistry.chemical_compound, Horticulture, food, chemistry, biology.protein, medicine, Carotenoid

Abstract

BACKGROUND: The carotenoid-biofortified (PAC) rice was generated by inserting phytoene synthase (Psy) and carotene desaturase (Crtl) genes isolated from Capsicum annuum cv. Nockwang and Pantoea ananatis into the genome of a conventional variety of rice (Nakdongbyeo). In our present study, we studied the effects on insecticide susceptibility of Rice Water Weevil (Lissorhoptrus oryzophilus). METHODS AND RESULTS: The L. oryzophilus were fed on carotenoid-biofortified (PAC) rice and its near non-genetically modified (GM) counterparts (Nakdongbyeo) under , humidity of , and photoperiod 16L:8D for more than 60 days. Ten adults were soaked in the Clothianidin SC solution for 5 second in different concentrations, and were detected the mortalities after 24, 48 and 72 hours respectively. Every experiment was conducted with three replications. The cumulative mortalities of L. oryzophilus exposed to Clothianidin SC were similar between two types of feed administration. CONCLUSION: The results of this study suggested that carotenoid-biofortified rice might not affect the insecticide susceptibilities of Lissorhoptrus oryzophilus.

Published

2012

10. The Effects of Genetically Modified Crops on Soil Microbial Community

Author

Tae-Hun Ryu, Jong-Sug Park, Jang-Yong Lee, Kijong Lee, Soo-In Sohn, Byung-Ohg Ahn, Sung-Dug Oh, and Hyun-Suk Cho

Subjects

Crop, Microbial population biology, business.industry, fungi, Authorization, food and beverages, Environmental science, General Medicine, Genetically modified crops, business, Genetically modified organism, Biotechnology, Environmental risk assessment

Abstract

BACKGROUND: Genetically modified (GM) crops must receive relevant regulator’s authorization before they can be sold as seed or used food, feed and processing. Before approving any GM crop, the relevant government ministries are required to examine environmental risk assessment to make scientifically sound and socially acceptable decisions. But one of the least studied and understood areas in the environmental risk assessment of GM crops are their impact on soil microbial community. METHODS AND RESULTS: Recently, advanced methods have been developed to characterize the soil microbial community in various environments. In this study, the culture-dependent and culture -independent technical appr-oaches for profiling soil microbial communities are summa-rized and their applicability to assess GM crops are discussed. CONCLUSION(S): We concluded that the effect of GM crops on soil microbial community need to be assessed on a case by case basis. The combination of culture-dependent and culture-independent method was necessary for reliable and detailed assessment of effect of GM crops on soil microbial community.

Published

2012

11. Soil Microbial Community Assessment for the Rhizosphere Soil of Herbicide Resistant Genetically Modified Chinese Cabbage

Author

Young Ju Oh, Ki Jong Lee, Tae Hoon Ryu, Byung Ohg Ahn, Sung Dug Oh, Jang-Yong Lee, Soo-In Sohn, Jong Sug Park, and Hyun Suk Cho

Subjects

Rhizosphere, Agronomy, Microbial population biology, Soil water, Species diversity, General Medicine, Genetically modified crops, Biology, Population density, Temperature gradient gel electrophoresis, Genetically modified organism

Abstract

BACKGROUND: Cultivation of genetically modified(GM) crops rapidly has increased in the global agricultural area. Among those, herbicide resistant GM crops are reported to have occupied 89.3 million hectares in 2010. However, cultivation of GM crops in the field evoked the concern of the possibility of gene transfer from transgenic plant into soil microorganisms. In our present study, we have assessed the effects of herbicide-resistant GM Chinese cabbage on the surrounding soil microbial community. METHODS AND RESULTS: The effects of a herbicideresistant genetically modified (GM) Chinese cabbage on the soil microbial community in its field of growth were assessed using a conventional culture technique and also culture-independent molecular methods. Three replicate field plots were planted with a single GM and four non-GM Chinese cabbages (these included a non-GM counterpart). The soils around these plants were compared using colony counting, denaturing gradient gel electrophoresis and a species diversity index assessment during the growing periods. The bacterial, fungal and actinomycetes population densities of the GM Chinese cabbage soils were found to be within the range of those of the non-GM Chinese cabbage soils. The DGGE banding patterns of the GM and non-GM soils were also similar, suggesting that the bacterial community structures were stable within a given month and were unaffected by the presence of a GM plant. The similarities of the bacterial species diversity indices were consistent with this finding. CONCLUSION: These results indicate that soil microbial communities are unaffected by the cultivation of herbicide-resistant GM Chinese cabbage within the experimental time frame.

Published

2012

12. Inactivation of the CTD phosphatase-like geneOsCPL1enhances the development of the abscission layer and seed shattering in rice

Author

Myung-Chul Lee, Hee-Jong Koh, Gynheung An, Jung-Sook Lee, Hakbum Kim, Sung-Ryul Kim, Yeon-Hee Lee, Gang-Seob Lee, Jungil Yang, Il-Doo Jin, Yul-Ho Kim, Wenzhu Jiang, Susan R. McCouch, Byung-Ohg Ahn, Ung-Han Yoon, Young-Soon Cha, Ping Jin, Doh-Won Yun, Hyeonso Ji, Seok-Cheol Suh, and Moo-Young Eun

Subjects

DNA, Bacterial, Recombinant Fusion Proteins, Green Fluorescent Proteins, Molecular Sequence Data, Phosphatase, Mutant, Locus (genetics), Plant Science, Biology, Abscission, Gene Expression Regulation, Plant, RNA interference, Phosphoprotein Phosphatases, Genetics, Point Mutation, Amino Acid Sequence, Gene, Plant Proteins, Regulation of gene expression, Sequence Homology, Amino Acid, Intron, food and beverages, Oryza, Cell Biology, Plants, Genetically Modified, Cell biology, Mutagenesis, Insertional, Seeds, RNA Interference

Abstract

Although susceptibility to seed shattering causes severe yield loss during cereal crop harvest, it is an adaptive trait for seed dispersal in wild plants. We previously identified a recessive shattering locus, sh-h, from the rice shattering mutant line Hsh that carries an enhanced abscission layer. Here, we further mapped sh-h to a 34-kb region on chromosome 7 by analyzing 240 F(2) plants and five F(3) lines from the cross between Hsh and Blue&Gundil. Hsh had a point mutation at the 3' splice site of the seventh intron within LOC_Os07g10690, causing a 15-bp deletion of its mRNA as a result of altered splicing. Two transferred DNA (T-DNA) insertion mutants and one point mutant exhibited the enhanced shattering phenotype, confirming that LOC_Os07g10690 is indeed the sh-h gene. RNA interference (RNAi) transgenic lines with suppressed expression of this gene exhibited greater shattering. This gene, which encodes a protein containing a conserved carboxy-terminal domain (CTD) phosphatase domain, was named Oryza sativa CTD phosphatase-like 1 (OsCPL1). Subcellular localization and biochemical analysis revealed that the OsCPL1 protein is a nuclear phosphatase, a common characteristic of metazoan CTD phosphatases involved in cell differentiation. These results demonstrate that OsCPL1 represses differentiation of the abscission layer during panicle development.

Published

2010

13. Selection of (Ac/Ds) insertion mutant lines by abiotic stress and analysis of gene expression pattern of rice (Oryza sativar L.)

Author

Seok-Cheol Suh, Doh-Won Yun, Hyeonso Ji, Hyung-Jin Baek, Yu Jin Jung, Young-Whan Park, Gang-Sup Lee, Myung-Chul Lee, Byung-Ohg Ahn, and Seul-Ah Park

Subjects

Regulation of gene expression, Genetics, Oryza sativa, Abiotic stress, Mutant, food and beverages, Plant Science, Meristem, Biology, Molecular biology, Insertional mutagenesis, Gene expression, Agronomy and Crop Science, Gene, Biotechnology

Abstract

Transposon-mediated insertional mutagenesis is one of powerful strategy for assessing functions of genes in higher plants. In this report, we have selected highly susceptible and tolerance plant by screening about high salt (3% NaCl) and cold stresses () from F2 seeds of 30,000 Ac/Ds insertional mutagenesis lines in rice (Oryza sativa L. cv. Dongjin). In order to identify the gene tagging, insertion of Ds element was analyzed by Southern blot and these results revealed that 19 lines were matched genotype of selected lines with phenotype from the first selected 212 lines, and 13 lines have one copy of Ds elements. The Franking Sequence Tags (FSTs) of selected mutant lines showed high similarities with the following known function genes: signal transduction and regulation of gene expression (transpoter, protease family protein and apical meristem family protein), osmotic stress response (heat shock protein, O-methyltransferase, glyceraldehyde-3-phosphate dehydrogenase and drought stress induce protein), vesicle trafficking (SYP 5 family protein) and senescence associated protein. The expression pattern of 19 genes were analyzed using RT-PCR under the abiotic stresses of 9 class; 250mM NaCl, osmotic, drought, 3% , ABA, IAA, 0.1 ppm 2,4-D, cold and high temperature. Isolated knock-out genes showed the positive response about 250 mM NaCl, drought, , PEG, IAA, 2,4-D, ABA treatment and low () and high temperature (). The results from this study indicate that function of selected knock-out genes could be useful in improving of tolerance to abiotic stresses as an important transcriptional activators in rice.

Published

2008

14. Characterization of Oszinc626, knock-out in zinc finger RING-H2 protein gene, in Ac/Ds mutant lines of rice(Oryza sativar L.)

Author

Soon-Youl Lee, Yong-Hwan Park, Byung-Ohg Ahn, Seul-Ah Park, Doh-Won Yun, Hyeonso Ji, Seok-Cheol Suh, Myung-Chul Lee, Moo-Young Eun, and Yu Jin Jung

Subjects

Genetics, Zinc finger, Mutant, Plant Science, Biology, Oryza, biology.organism_classification, Agronomy and Crop Science, Gene, Molecular biology, Biotechnology

Abstract

본 연구는 동진벼 유래의 Ac/Ds 삽입변이집단의 GUS 분석을 통하여 뿌리 및 미숙종자에서 강하게 GUS가 발현한 개체를 선발하여 FST(flanking sequence tag) 분석 한 결과 Ds 전이 인자가 3번 염색체 zinc finger RING-H2 관련 Oszinc626 유전자의 첫 번째 exon 부위에 single copy로 삽입되어 있었으며, 선발변이체는 뿌리 및 종자 발달이 정상인 동진벼에 비해 매우 낮은 것으로 나타났다. Oszinc626 유전자는 RING-H2 type(C3-H2-C3)으로 $Cys-X_2-Cys-X_{28}-Cys-X-His-X_2-His-X_2-Cys-X_{14}-Cys-X_2-Cys$ 배열이 C-terminus 가장 말단에 위치하며, 49 kDa의 분자량을 가지고 있다. 또한 Southern blot 분석에서 Oszinc626 유전자는 벼 게놈상에 single copy로 존재하였다. RT-PCR을 통한 돌연변이 유전자의 발현분석 결과 250 mM의 염과, $4^{\circ}C$ 저온등과 같은abiotic stress에 의해 발현이 증가함을 보였고, 호르몬처리에 있어서 ABA와 IAA의 식물호르몬을 처리했을 경우 24시간까지 계속해서 발현양이 증가하는 것을 보이는 반면, 2,4-D 처리의 경우 30분 후에 발현이 일시적으로 증가되었으나 이후 발현이 급속히 감소한 것을 보였다. 벼의 조직 별 발현 검정에서 미성숙한 종자, 뿌리 분열조직 및 신초 등 주로 생장점 부위에서 강하게 발현되는 것을 보임에 따라 Oszinc626 유전자의 경우 식물의 생장에 관여하는 주동 유전자의 하나로 판단된다. 【Ac/Ds mutant lines of this study were transgenic rice plants, each of which harbored the maize transposable element Ds together with a GUS coding sequence under the control of a promoterless(Ds-GUS). We selected the mutants that were GUS expressed lines, because the GUS positive lines will be useful for identifying gene function in rice. One of these mutants was identified knock-out at Oszinc626(NP_001049991) gene, encoding a RING-H2 zinc-finger protein, by Ds insertion. In this mutant, while primary root development is normal, secondary root development from lateral root was very poor and seed development was incomplete compare with normal plant. RING zinc-finger proteins play important roles in the regulation of development in a variety of organisms. In the plant kingdom, a few genes encoding RING zinc-finger proteins have been documented with visible effects on plant growth and development. The consensus of the RING-H2(C3-H2-C3 type) domain for this group of protein is $Cys-X_2-Cys-X_{28}-Cys-X-His-X_2-His-X_2-Cys-X_{14}-Cys-X_2-Cys$ . Oszinc626 encodes a predicted protein product of 445 amino acids residues with a molecular mass of 49 kDa, with a RING-zinc-finger motif located at the extreme end of the C-terminus. RT-PCR analysis indicated that the expression of Oszinc626 gene was induced by IAA, cold, dehydration, high-salinity and abscisic acid, but not by 2,4-D, and the transcription of Oszinc626 gene accumulated primarily in rice immature seeds, root meristem and shoots. The gene accumulation patterns were corresponded with GUS expression.】

Published

2008

15. KRDD: Korean Rice Ds-tagging Lines Database for Rice (Oryza sativa L. Dongjin)

Author

Doh Won Yun, Ung Han Yoon, Moo Young Eun, Seok Cheol Suh, Jang Ho Hahn, Myung-Chul Lee, Byung Ohg Ahn, and Chang Kug Kim

Subjects

Oryza sativa, Database, Mutant line, Health Informatics, Biology, computer.software_genre, Japonica rice, Photo image, Web page, Genetics, Line (text file), Search function, computer, Ecology, Evolution, Behavior and Systematics

Abstract

The Korean Rice Ds-tagging lines Database (KRDD) is designed to provide information about Ac/Ds insertion lines and activation tagging lines using japonica rice. This database has provided information on 18,158 Ds lines, which includes the ID, description, photo image, sequence information, and gene characteristics. The KRDD is visualized using a web-based graphical view, and anonymous users can query and browse the data using the search function. It has four major menus of web pages: (i) a Blast Search menu of a mutant line; Blast from rice Ds-tagging mutant lines; (ii) a primer de-sign tool to identify genotypes of Ds insertion lines; (iii) a Phenotype menu for Ds lines, searching by identi-fication name and phenotype characteristics; and (iv) a Management menu for Ds lines. Availability: The KRDD can be accessed at the web site of the National Institute of Agricultural Biotechnology (http://www. niab.go.kr/RDS/) Keywords: Ac/Ds database, Ds phenotype, Ds-tagging line, insertion line, KRDD

Published

2008

16. A Ds-insertion mutant of OSH6 (Oryza sativa Homeobox 6) exhibits outgrowth of vestigial leaf-like structures, bracts, in rice

Author

Hai Long Piao, Sung Han Park, Mi Sook Choe, Su Hyun Park, Byoung Il Je, Moo Young Eun, Shoshi Kikuchi, Chang-deok Han, Myung-Chul Lee, Seok-Cheol Suh, Chul Min Kim, Kouji Satoh, Hyeon So Ji, Soon Ju Park, Young Soon Cha, Doh Won Yun, Byung Ohg Ahn, Yuan Hu Xuan, and Kon Ho Lee

Subjects

Transgene, Molecular Sequence Data, Mutant, Plant Science, Biology, Exon, Transformation, Genetic, Gene Expression Regulation, Plant, Genetics, Amino Acid Sequence, Plant Proteins, Homeodomain Proteins, Regulation of gene expression, Bract, Microscopy, Confocal, Oryza sativa, Base Sequence, Reverse Transcriptase Polymerase Chain Reaction, Oryza, Plants, Genetically Modified, Cell biology, Plant Leaves, Mutagenesis, Insertional, Phenotype, Mutation, Microscopy, Electron, Scanning, Homeobox, Ectopic expression, Sequence Alignment, Rhizobium

Abstract

OSH6 (Oryza sativa Homeobox6) is an ortholog of lg3 (Liguleless3) in maize. We generated a novel allele, termed OSH6-Ds, by inserting a defective Ds element into the third exon of OSH6, which resulted in a truncated OSH6 mRNA. The truncated mRNA was expressed ectopically in leaf tissues and encoded the N-terminal region of OSH6, which includes the KNOX1 and partial KNOX2 subdomains. This recessive mutant showed outgrowth of bracts or produced leaves at the basal node of the panicle. These phenotypes distinguished it from the OSH6 transgene whose ectopic expression led to a "blade to sheath transformation" phenotype at the midrib region of leaves, similar to that seen in dominant Lg3 mutants. Expression of a similar truncated OSH6 cDNA from the 35S promoter (35S::DeltaOSH6) confirmed that the ectopic expression of this product was responsible for the aberrant bract development. These data suggest that OSH6-Ds interferes with a developmental mechanism involved in bract differentiation, especially at the basal nodes of panicles.

Published

2007

17. Analysis of gene-trap Ds rice populations in Korea

Author

Min-Hee Nam, Byoung Il Je, Hai Long Piao, Chang-deok Han, Moo Young Eun, Hyeon So Ji, Tae Yong Oh, Chul Min Kim, Soon Ju Park, Myung-Chul Lee, Doh Won Yun, Seok Cheol Suh, Nam Soo Jun, Gihwan Yi, Jin Huang, Byung Ohg Ahn, Young Soon Cha, Soo Hyun Park, Yuan Hu Xuan, and Sung Han Park

Subjects

Transposable element, Population, Plant Science, Root hair, Genes, Plant, Genome, Chromosomes, Plant, Japonica, Botany, Genetics, education, Gene, DNA Primers, Glucuronidase, Reporter gene, education.field_of_study, Korea, Base Sequence, biology, fungi, Chromosome Mapping, food and beverages, Oryza, General Medicine, biology.organism_classification, Mutagenesis, Insertional, Callus, Agronomy and Crop Science

Abstract

Insertional mutagen-mediated gene tagging populations have been essential resources for analyzing the function of plant genes. In rice, maize transposable elements have been successfully utilized to produce transposant populations. However, many generations and substantial field space are required to obtain a sufficiently sized transposant population. In rice, the japonica and indica subspecies are phenotypically and genetically divergent. Here, callus cultures with seeds carrying Ac and Ds were used to produce 89,700 lines of Dongjin, a japonica cultivar, and 6,200 lines of MGRI079, whose genome is composed of a mixture of the genetic backgrounds of japonica and indica. Of the more than 3,000 lines examined, 67% had Ds elements. Among the Ds-carrying lines, 81% of Dongjin and 63% of MGRI079 contained transposed Ds, with an average of around 2.0 copies. By examining more than 15,000 lines, it was found that 12% expressed the reporter gene GUS during the early-seedling stage. GUS was expressed in root hairs and crown root initials at estimated frequencies of 0.78% and 0.34%, respectively. The 5,271 analyzed Ds loci were found to be randomly distributed over all of the rice chromosomes.

Published

2007

18. Agrobacterium-mediated transformation of Perilla (Perilla frutescens)

Author

Jang-Yong Lee, Byoung-Kyu Lee, Han-Sun Hur, Seung-Hee Yu, Yul-Ho Kim, Byung-Ohg Ahn, Zhanyuan J. Zhang, and Sang Chul Lee

Subjects

Perilla frutescens, food.ingredient, Agrobacterium, fungi, food and beverages, Kanamycin, Horticulture, Biology, biology.organism_classification, Perilla, Hypocotyl, Transformation (genetics), food, Botany, medicine, Cotyledon, Transformation efficiency, medicine.drug

Abstract

Agrobacterium tumefaciens-mediated transformation system for perilla (Perilla frutescens Britt) was developed. Agrobacterium strain EHA105 harboring binary vector pBK I containing bar and γ-tmt cassettes or pIG121Hm containing nptII, hpt, and gusA cassettes were used for transformation. Three different types of explant, hypocotyl, cotyledon and leaf, were evaluated for transformation and hypocotyl explants resulted in the highest transformation efficiency with an average of 3.1 and 2.2%, with pBK I and pIG121Hm, respectively. The Perilla spp. displayed genotype-response for transformation. The effective concentrations of selective agents were 2 mg l−1 phosphinothricin (PPT) and 150 mg l−1 kanamycin, respectively, for shoot induction and 1 mg l−1 PPT and 125 mg l−1 kanamycin, respectively, for shoot elongation. The transformation events were confirmed by herbicide Basta spray or histochemical GUS staining of T0 and T1 plants. The T-DNA integration and transgene inheritance were confirmed by PCR and Southern blot analysis of random samples of T0 and T1 transgenic plants.

Published

2005

19. PLASTOCHRON1 , a timekeeper of leaf initiation in rice, encodes cytochrome P450

Author

Yukihiro Ito, Nori Kurata, Kazumaru Miyoshi, Taiji Kawakatsu, Jun-Ichi Itoh, Yasuo Nagato, and Byung Ohg Ahn

Subjects

DNA, Plant, Meristem, Molecular Sequence Data, Mutant, Biology, Genes, Plant, Cytochrome P-450 Enzyme System, Biological Clocks, Gene Expression Regulation, Plant, Botany, Primordium, Amino Acid Sequence, Cloning, Molecular, Gene, In Situ Hybridization, Phylogeny, Bract, Multidisciplinary, Oryza sativa, Base Sequence, fungi, Gene Expression Regulation, Developmental, food and beverages, Oryza, Biological Sciences, Phyllotaxis, Plant Leaves, Phenotype, Mutation, Plastochron

Abstract

During postembryonic development of higher plants, the shoot apical meristem produces lateral organs in a regular spacing (phyllotaxy) and a regular timing (plastochron). Molecular analysis of mutants associated with phyllotaxy and plastochron would greatly increase understanding of the developmental mechanism of plant architecture because phyllotaxy and plastochron are fundamental regulators of plant architecture. pla1 of rice is not only a plastochron mutant showing rapid leaf initiation without affecting phyllotaxy, but also a heterochronic mutant showing ectopic shoot formation in the reproductive phase. Thus, pla1 provides a tool for analyzing the molecular basis of temporal regulation in leaf development. In this work, we isolated the PLA1 gene by map-based cloning. The identified PLA1 gene encodes a cytochrome P450, CYP78A11, which potentially catalyzes substances controlling plant development. PLA1 is expressed in developing leaf primordia, bracts of the panicle, and elongating internodes, but not in the shoot apical meristem. The expression pattern and mutant phenotype suggest that the PLA1 gene acting in developing leaf primordia affects the timing of successive leaf initiation and the termination of vegetative growth.

Published

2004

20. The Complete Chloroplast Genome of the Hare’s Ear Root, Bupleurum falcatum: Its Molecular Features

Author

Byung-Ohg Ahn, Dong-Ho Shin, Chang-Kug Kim, Jeong Hoon Lee, and Sang-Ho Kang

Subjects

0106 biological sciences, 0301 basic medicine, lcsh:QH426-470, Inverted repeat, Pseudogene, 01 natural sciences, Genome, 03 medical and health sciences, Complete sequence, Tandem repeat, Bupleurum falcatum, chloroplast genome, quadripartite structure, tandemrepeats, phylogenetic analysis, Genetics, Gene, Genetics (clinical), Whole genome sequencing, biology, Communication, biology.organism_classification, lcsh:Genetics, tandem repeats, 030104 developmental biology, 010606 plant biology & botany

Abstract

Bupleurum falcatum, which belongs to the family Apiaceae, has long been applied for curative treatments, especially as a liver tonic, in herbal medicine. The chloroplast (cp) genome has been an ideal model to perform the evolutionary and comparative studies because of its highly conserved features and simple structure. The Apiaceae family is taxonomically close to the Araliaceae family and there have been numerous complete chloroplast genome sequences reported in the Araliaceae family, while little is known about the Apiaceae family. In this study, the complete sequence of the B. falcatum chloroplast genome was obtained. The full-length of the cp genome is 155,989 nucleotides with a 37.66% overall guanine-cytosine (GC) content and shows a quadripartite structure composed of three nomenclatural regions: a large single-copy (LSC) region, a small single-copy (SSC) region, and a pair of inverted repeat (IR) regions. The genome occupancy is 85,912-bp, 17,517-bp, and 26,280-bp for LSC, SSC, and IR, respectively. B. falcatum was shown to contain 111 unique genes (78 for protein-coding, 29 for tRNAs, and four for rRNAs, respectively) on its chloroplast genome. Genic comparison found that B. falcatum has no pseudogenes and has two gene losses, accD in the LSC and ycf15 in the IRs. A total of 55 unique tandem repeat sequences were detected in the B. falcatum cp genome. This report is the first to describe the complete chloroplast genome sequence in B. falcatum and will open up further avenues of research to understand the evolutionary panorama and the chloroplast genome conformation in related plant species.

Published

2016

21. The Complete Chloroplast Genome of the Hare's Ear Root, Bupleurum falcatum: Its Molecular Features.

Author

Dong-Ho Shin, Jeong-Hoon Lee, Sang-Ho Kang, Byung-Ohg Ahn, and Chang-Kug Kim

Subjects

CHLOROPLAST DNA, GENOMES, HARES, BUPLEURUM, UMBELLIFERAE, HERBAL medicine

Abstract

Bupleurum falcatum, which belongs to the family Apiaceae, has long been applied for curative treatments, especially as a liver tonic, in herbal medicine. The chloroplast (cp) genome has been an ideal model to perform the evolutionary and comparative studies because of its highly conserved features and simple structure. The Apiaceae family is taxonomically close to the Araliaceae family and there have been numerous complete chloroplast genome sequences reported in the Araliaceae family, while little is known about the Apiaceae family. In this study, the complete sequence of the B. falcatum chloroplast genome was obtained. The full-length of the cp genome is 155,989 nucleotides with a 37.66% overall guanine-cytosine (GC) content and shows a quadripartite structure composed of three nomenclatural regions: a large single-copy (LSC) region, a small single-copy (SSC) region, and a pair of inverted repeat (IR) regions. The genome occupancy is 85,912-bp, 17,517-bp, and 26,280-bp for LSC, SSC, and IR, respectively. B. falcatum was shown to contain 111 unique genes (78 for protein-coding, 29 for tRNAs, and four for rRNAs, respectively) on its chloroplast genome. Genic comparison found that B. falcatum has no pseudogenes and has two gene losses, accD in the LSC and ycf15 in the IRs. A total of 55 unique tandem repeat sequences were detected in the B. falcatum cp genome. This report is the first to describe the complete chloroplast genome sequence in B. falcatum and will open up further avenues of research to understand the evolutionary panorama and the chloroplast genome conformation in related plant species. [ABSTRACT FROM AUTHOR]

Published

2016

22. Inactivation of the CTD phosphatase-like gene OsCPL1 enhances the development of the abscission layer and seed shattering in rice.

Author

Hyeonso Ji, Sung-Ryul Kim, Yul-Ho Kim, Hakbum Kim, Moo-Young Eun, Il-Doo Jin, Young-Soon Cha, Doh-Won Yun, Byung-Ohg Ahn, Myung Chul Lee, Gang-Seob Lee, Ung-Han Yoon, Jung-Sook Lee, Yeon-Hee Lee, Seok-Cheol Suh, Wenzhu Jiang, Jung-Il Yang, Ping Jin, McCouch, Susan R., and Gynheung An

Subjects

PHOSPHATASES, ABSCISSION (Botany), NUCLEIC acids, DNA, CELL differentiation

Abstract

Although susceptibility to seed shattering causes severe yield loss during cereal crop harvest, it is an adaptive trait for seed dispersal in wild plants. We previously identified a recessive shattering locus, sh-h, from the rice shattering mutant line Hsh that carries an enhanced abscission layer. Here, we further mapped sh-h to a 34-kb region on chromosome 7 by analyzing 240 F2 plants and five F3 lines from the cross between Hsh and Blue&Gundil. Hsh had a point mutation at the 3′ splice site of the seventh intron within LOC_Os07g10690, causing a 15-bp deletion of its mRNA as a result of altered splicing. Two transferred DNA (T-DNA) insertion mutants and one point mutant exhibited the enhanced shattering phenotype, confirming that LOC_Os07g10690 is indeed the sh-h gene. RNA interference (RNAi) transgenic lines with suppressed expression of this gene exhibited greater shattering. This gene, which encodes a protein containing a conserved carboxy-terminal domain (CTD) phosphatase domain, was named Oryza sativa CTD phosphatase-like 1 ( OsCPL1). Subcellular localization and biochemical analysis revealed that the OsCPL1 protein is a nuclear phosphatase, a common characteristic of metazoan CTD phosphatases involved in cell differentiation. These results demonstrate that OsCPL1 represses differentiation of the abscission layer during panicle development. [ABSTRACT FROM AUTHOR]

Published

2010

23. A Ds-insertion mutant of OSH6 ( Oryza sativa Homeobox 6) exhibits outgrowth of vestigial leaf-like structures, bracts, in rice.

Author

Sung Han Park, Chul Min Kim, Byoung Il Je, Su Hyun Park, Soon Ju Park, Hai Long Piao, Yuan-hu Xuan, Mi Sook Choe, Satoh, Kouji, Kikuchi, Shoshi, Kon Ho Lee, Young Soon Cha, Byung Ohg Ahn, Hyeon So Ji, Doh won Yun, Myung Chul Lee, Seok-cheol Suh, Moo Young Eun, and Chang-deok Han

Subjects

RICE, ORYZA, HOMEOBOX genes, TRANSGENES, MESSENGER RNA, PHENOTYPES, DNA, AMINO acids, GENOTYPE-environment interaction

Abstract

OSH6 ( Oryza sativa Homeobox6) is an ortholog of lg3 (Liguleless3) in maize. We generated a novel allele, termed OSH6-Ds, by inserting a defective Ds element into the third exon of OSH6, which resulted in a truncated OSH6 mRNA. The truncated mRNA was expressed ectopically in leaf tissues and encoded the N-terminal region of OSH6, which includes the KNOX1 and partial KNOX2 subdomains. This recessive mutant showed outgrowth of bracts or produced leaves at the basal node of the panicle. These phenotypes distinguished it from the OSH6 transgene whose ectopic expression led to a “blade to sheath transformation” phenotype at the midrib region of leaves, similar to that seen in dominant Lg3 mutants. Expression of a similar truncated OSH6 cDNA from the 35S promoter ( 35S:: ΔOSH6) confirmed that the ectopic expression of this product was responsible for the aberrant bract development. These data suggest that OSH6-Ds interferes with a developmental mechanism involved in bract differentiation, especially at the basal nodes of panicles. [ABSTRACT FROM AUTHOR]

Published

2007

24. Agrobacterium-mediated transformation of Perilla (Perilla frutescens).

Author

Byoung-Kyu Lee, Seung-Hee Yu, Yul-Ho Kim, Byung-Ohg Ahn, Han-Sun Hur, Sang-Chul Lee, Zhanyuan Zhang, and Jang-Yong Lee

Published

2005

25. Map-based cloning of PLA1, a heterochronic gene, in rice(Oryza sativa L.)

Author

Byung-Ohg, AHN

Abstract

The rice PLASTOCHRON1 locus is considered to regulate the leaf initiation rate (plastochron) and the duration of vegetative phase without affecting reproductive phase (Itoh et al., 1998). To elucidate regulatory mechanism for the plastochron and the duration of vegetative phase, I have isolated the PLASTOCHRON1 gene by map-based cloning and investigated the in situ expression pattern during rice development. Molecular cloning of PLA1 gene gives a clue to understand the mechanism for the temporal regulation of developmental program in rice. A genetic and physical map was constructed to isolate the causal gene for pla1 syndrome. Small-scale mapping was carried out to determine approximate map position of the pla1 locus and then a high-resolution genetic mapping was performed for pla1-2, one of the pla1 alleles, using an F2 population comprising 578 pla1-2 homozygous plants. In a high-resolution genetic map, the pla1 locus was found to be mapped between RFLP markers C961 and R1738A on chromosome 10, within a 3.6cM genetic distance. A physical map encompassing the pla1 locus was constructed by overlapping Bacterial Artificial Chromosome (BAC) clones through chromosome walking. PCR-based RFLP markers from BAC-end clones were developed and mapped relative to the pla1 locus. Physical map construction using BAC clones indicated that a BAC clone, B44A10 (167Kb), contained the pla1 locus within 74Kb corresponding to a 0.52cM genetic distance. Gene prediction of 74Kb region carrying the pla1 locus was performed by using gene prediction program and designated several candidate genes for pla1 gene including cytochrome P450, putative GTPase regulator protein and transposable like element. Nucleotide comparison analysis between four alleles of pla1 mutants, pla1-1, pla1-2, pla1-3 and pla1-4, and wild type revealed that all alleles of pla1 mutant had mutations only in P450 gene among several candidate genes. Genetic complementation experiment confirmed that all transgenic plants transformed with binary vector pBGH1-PLA1 (6Kb), which contain P450 gene, to pla1-2 homozygous plants completely recovered to wild type phenotype, in contrast to no recovery by transformation with pBGH1 vector only. The PLA1 gene of P450 was designated as CYP78A11 in accordance with the guidelines for Cytochrome P450 by the nomenclature committee. This is the first protein belong to the CYP78A subfamily in plants. The predicted CYP78A11 was 1.8kb in size and consists of two exons and one short intron. The CYP78A11 codes 555 amino acid with a calculated molecular mass of 59KD. Similarity search showed that the PLA1 protein conserved significant sequences such as heme binding domain near C-terminus, potential oxygen binding domain and steroid binding domain, which were conserved in all cytochrome P450 superfamily. In situ hybridization experiments elucidated the spatial and temporal expression pattern of the PLA1 gene. PLA1 mRNA was localized in leaves but not at SAM through vegetative and reproductive phase. The mRNA localization was gradually changed during leaf development. Although pla1 mutants exhibited several defect in leaf and SAM, the leaf specific expression suggested that PLA1 gene functions in non cell-autonomous manner and affects leaf development and SAM activity. The decay pattern of PLA1 expression in leaves shows a correlation to the pattern of leaf development in monocotyledous plants, suggesting the possible role of PLA1 gene for regulating maturation schedule of leaf. In the future works, transgenic plants overexpressing the CYP78A11 gene may provide an additional clue to elucidate the functional role of the PLA1. The P450s, however, form the largest family of plant enzymes and have wide diversity of substrates and high degree of amino acid variation in the superfamily. Though the CYP78A11 seems to be functional in a given step of plant hormone biosynthesis or degradation pathway, analysis of changes of limited amount of plant hormones in the restricted regions would be very difficult. Even taking a time, biochemical analysis of CYP78A11 including a search of the substrates will give a clue to unravel the molecular mechanism of the phase change in plant growth and development controlled by PLA1.

26. Evaluation and Assessment of Biosafety Carotenoid-biofortified Rice (PAC): Progeny Stability Study for Four Generations.

Author

Sung-Dug Oh, Soo-Yun Park, Soo-In Sohn, Jae-Kwang Kim, Jong-Sug Park, Soon Ki Park, Hyun Suk Cho, Byung-Ohg Ahn, and Kijong Lee

Subjects

*BIOSAFETY, *CAROTENOIDS, *PROGENY tests (Botany), *PLANT genetics, *BIOMARKERS

Abstract

The carotenoid-biofortified (PAC) rice was developed and confirmed to synthesis carotenoids (zeaxanthin, α-carotene and β-carotene) in rice endosperm. For biosafety assessment of PAC rice, the stability of the insert genes in carotenoidbiofortified rice at genomic and protein expression level through different generations (T3~T6) was studied. Southern blot analysis confirmed that the multi-generation stability of the genes : PAC gene (CrtI and Psy), promoters (35S and Glb), terminators (NOS and PinII), selectable marker (bar) and MAR gene. It was also confirmed that the backbone DNA containing antibacterial gene (aadA) was not present in PAC rice. Immuno-strip assay (PAT) showed that the bar gene was stably expressed through generations. HPLC analysis confirmed that carotenoids were consistently detected through T3~T6 generations. These results will be filed to biosafety assessment document of PAC rice. [ABSTRACT FROM AUTHOR]

Published

2012