Your search keyword '"Beom-Soon Choi"' showing total 132 results

101. Complete Genome Sequence of Japanese Erwinia Strain Ejp617, a Bacterial Shoot Blight Pathogen of Pear ▿

Author

Jong-Sung Lim, Chun Keun Lim, Wonsik Kim, Ik-Young Choi, Jun Mo Cho, Jang Hyun Hur, Shree Prasad Thapa, Duck Hwan Park, and Beom-Soon Choi

Subjects

DNA, Bacterial, Molecular Sequence Data, Erwinia, Microbiology, Pyrus, Japan, Botany, Blight, Molecular Biology, Pathogen, Plant Diseases, Whole genome sequencing, PEAR, biology, Strain (biology), fungi, Nucleic acid sequence, food and beverages, Sequence Analysis, DNA, biology.organism_classification, Genome Announcements, body regions, Shoot, bacteria, Genome, Bacterial, Plant Shoots

Abstract

The Japanese Erwinia strain Ejp617 is a plant pathogen that causes bacterial shoot blight of pear in Japan. Here, we report the complete genome sequence of strain Ejp617 isolated from Nashi pears in Japan to provide further valuable insight among related Erwinia species.

Published

2010

102. Analysis of expressed sequence tags from the liver and ovary of the euryhaline hermaphroditic fish, Kryptolebias marmoratus

Author

Jae-Sung Rhee, Jae-Seong Lee, Young-Mi Lee, Bo-Mi Kim, Ryeo-Ok Kim, Ik-Young Choi, and Beom-Soon Choi

Subjects

Genetics, Expressed Sequence Tags, Expressed sequence tag, Physiology, Killifishes, Ovary, Ovary (botany), Biology, Biochemistry, Transcriptome, Liver, Metagenomics, Complementary DNA, GenBank, Databases, Genetic, Animals, Humans, Female, Hermaphroditic Organisms, Molecular Biology, Gene, Peptide sequence, Biomarkers, Water Pollutants, Chemical

Abstract

The self-fertilizing hermaphroditic fish, Kryptolebias marmoratus is considered a suitable model species in the fields of eco-biology, developmental biology, endocrinology, environmental genomics, aquatic toxicology, and molecular carcinogenesis. However, more extensive gene information is still needed to improve our understanding of the biology of this fish with respect to toxicological responses. We performed a transcriptomic study in this species using pyrosequencing. Liver and ovary mRNA was reverse synthesized into cDNA and randomly sequenced by a Roche 454, GS-20 sequencer. After quality assessment, the assembled expressed sequence tag (EST) translations were compared with the GenBank non-redundant (nr) amino acid sequence database using BLASTX. In the assembly stage 1, both 59,732 transcripts in liver and 103,526 transcripts in ovary were obtained. To identify the differently expressed genes in the ovary and liver tissues, all transcripts were sorted out with an expected value threshold of 1.00E-05. Consequently, 7168 contigs of ovary ESTs and 3855 contigs of liver ESTs were not overlapped for expression in both tissues, whereas 3763 contigs were commonly found in both tissues. Subsequently, we described the most highly represented genes in the liver and ovary of K. marmoratus. Isoforms of cytochrome P450 (CYP) and receptor-related genes showed tissue-preferential expressed patterns. To identify the potential biomarkers in this species, ovary and liver ESTs were assembled and annotated with the nr amino acid sequence database using BLASTX. Then, 35,471 transcripts were obtained, and 9130 transcripts were hit (26%) at the assembly stage 2. Finally, we identified a number of stress-, antioxidant defense-, and DNA repair-related genes as potential molecular biomarkers for toxicological response using this species. We discuss the potential use for these markers in K. marmoratus for environmental genomics and eco-toxicological studies to uncover mechanisms of environmental stresses and chemical toxicities to K. marmoratus.

Published

2010

103. Organization of three rRNA (rrn) operons from Sphingobium chungbukense DJ77

Author

Young-Chang Kim, Sun-Mi Yeon, and Beom-Soon Choi

Subjects

Genetics, Base Sequence, Molecular Sequence Data, RNA, Ribosomal, 5S, General Medicine, Sequence Analysis, DNA, Ribosomal RNA, Biology, 16S ribosomal RNA, Applied Microbiology and Biotechnology, Microbiology, Sphingomonas, Sphingomonadaceae, 5S ribosomal RNA, RNA, Ribosomal, 23S, RNA, Transfer, 23S ribosomal RNA, RNA, Ribosomal, 16S, Transfer RNA, RRNA Operon, Internal transcribed spacer, rRNA Operon, Gene, Phylogeny, Alphaproteobacteria

Abstract

The nucleotide sequences of all three rRNA operons (rrnA, rrnB, and rrnC) of Sphingobium chungbukense DJ77 were determined. The three rrn operons have the same gene order (16S rRNA-tRNAIle-tRNAAla-23S rRNA-5S rRNA-tRNAfMet). The nucleotide sequences were identical over a 5,468 bp region spanning the 16S rRNA gene to the 5S rRNA gene. Variability was observed in the 5S rRNA-tRNAfMet spacer sequence of rrnB. The tRNAfMet gene sequences were identical except for two bases (T5794 and A5871 in rrnB, T5942 and A5956 in rrnA, but C5942 and G5956 in rrnC). Comparative sequence analyses of ribosomal RNA operons from DJ77 with those of the class Alphaproteobacteria, to which the genus Sphingobium belongs, reveal close evolutionary relationships with other members of the order Sphingomonadales.

Published

2008

104. The first generation of a BAC-based physical map of Brassica rapa

Author

Yong Pyo Lim, Seunghoon Baek, Hyungtae Kim, Beom-Seok Park, Hoil Kim, Soo In Lee, Soo-Jin Kwon, Jin A Kim, Myung-Ho Lim, Jung Sun Kim, Jeong-Hwan Mun, Mina Jin, Tae-Jin Yang, Hye-Sun Kim, and Beom-Soon Choi

Subjects

Genetic Markers, Chromosomes, Artificial, Bacterial, Genome evolution, lcsh:QH426-470, lcsh:Biotechnology, Genomics, Biology, Genome, Sequence-tagged site, Contig Mapping, lcsh:TP248.13-248.65, Brassica rapa, Genetics, Sequence Tagged Sites, Comparative genomics, Genomic Library, Contig, food and beverages, Reproducibility of Results, Sequence Analysis, DNA, Genome project, Physical Chromosome Mapping, DNA Fingerprinting, lcsh:Genetics, Genome, Plant, Research Article, Biotechnology

Abstract

Background The genus Brassica includes the most extensively cultivated vegetable crops worldwide. Investigation of the Brassica genome presents excellent challenges to study plant genome evolution and divergence of gene function associated with polyploidy and genome hybridization. A physical map of the B. rapa genome is a fundamental tool for analysis of Brassica "A" genome structure. Integration of a physical map with an existing genetic map by linking genetic markers and BAC clones in the sequencing pipeline provides a crucial resource for the ongoing genome sequencing effort and assembly of whole genome sequences. Results A genome-wide physical map of the B. rapa genome was constructed by the capillary electrophoresis-based fingerprinting of 67,468 Bacterial Artificial Chromosome (BAC) clones using the five restriction enzyme SNaPshot technique. The clones were assembled into contigs by means of FPC v8.5.3. After contig validation and manual editing, the resulting contig assembly consists of 1,428 contigs and is estimated to span 717 Mb in physical length. This map provides 242 anchored contigs on 10 linkage groups to be served as seed points from which to continue bidirectional chromosome extension for genome sequencing. Conclusion The map reported here is the first physical map for Brassica "A" genome based on the High Information Content Fingerprinting (HICF) technique. This physical map will serve as a fundamental genomic resource for accelerating genome sequencing, assembly of BAC sequences, and comparative genomics between Brassica genomes. The current build of the B. rapa physical map is available at the B. rapa Genome Project website for the user community.

Published

2008

105. Isolation of circadian-associated genes in Brassica rapa by comparative genomics with Arabidopsis thaliana

Author

Jin A, Kim, Tae-Jin, Yang, Jung Sun, Kim, Jee Young, Park, Soo-Jin, Kwon, Myung-Ho, Lim, Mina, Jin, Sang Choon, Lee, Soo In, Lee, Beom-Soon, Choi, Sang-Hee, Um, Ho-Il, Kim, Changhoo, Chun, and Beom-Seok, Park

Subjects

Brassica rapa, Molecular Sequence Data, Arabidopsis, Amino Acid Sequence, Genomics, Genome, Plant, Phylogeny, Circadian Rhythm

Abstract

Elucidation of the roles of circadian associated factors requires a better understanding of the molecular mechanisms of circadian rhythms, control of flowering time through photoperiodic pathways, and photosensory signal transduction. In Arabidopsis, the APRR1 quintet, APRRs 1, 3, 5, 7, and 9, are known as central oscillator genes. Other plants may share the molecular mechanism underlying the circadian rhythm. To identify and characterize these circadian response genes in Brassica crops whose genome was triplicated after divergence from Arabidopsis, we identified B. rapa BAC clones containing these genes by BLAST analysis of B. rapa BAC end sequences against the five corresponding Arabidopsis regions. Subsequent fingerprinting, Southern hybridization, and PCR allowed identification of five BAC clones, one for each of the five circadian-related genes. By draft shotgun sequencing of the BAC clones, we identified the complete gene sequences and cloned the five expressed B. rapa circadian-associated gene members, BrPRRs 1, 3, 5, 7, and 9. Phylogenetic analysis revealed that each BrPRR was orthologous to the corresponding APRR at the sequence level. Northern hybridization revealed that the five genes were transcribed at distinct points in the 24 hour period, and Southern hybridization revealed that they are present in 2, 1, 2, 2, and 1 copies, respectively in the B. rapa genome, which was triplicated and then diploidized during the last 15 million years.

Published

2007

106. Genotyping-by-sequencing map permits identification of clubroot resistance QTLs and revision of the reference genome assembly in cabbage (Brassica oleraceaL.)

Author

Ho Jun Joh, Tae-Jin Yang, Beom-Soon Choi, Kyounggu Ahn, Joodeok Seo, Sampath Perumal, Nur Kholilatul Izzah, Yeisoo Yu, Sang Choon Lee, Ill-Sup Nou, Eun Ju Jo, Gyung Ja Choi, and Jonghoon Lee

Subjects

QTL, Genetic Linkage, clubroot, Quantitative Trait Loci, Brassica, Quantitative trait locus, cabbage, Plasmodiophorida, Genome, Clubroot, Genetic linkage, Brassica rapa, genotyping-by-sequencing, Genetics, medicine, genetic linkage map, Molecular Biology, Plant Diseases, Whole genome sequencing, biology, Chromosome Mapping, food and beverages, General Medicine, Full Papers, biology.organism_classification, medicine.disease, Brassica oleracea, Genome, Plant, Reference genome

Abstract

Clubroot is a devastating disease caused by Plasmodiophora brassicae and results in severe losses of yield and quality in Brassica crops. Many clubroot resistance genes and markers are available in Brassica rapa but less is known in Brassica oleracea. Here, we applied the genotyping-by-sequencing (GBS) technique to construct a high-resolution genetic map and identify clubroot resistance (CR) genes. A total of 43,821 SNPs were identified using GBS data for two parental lines, one resistant and one susceptible lines to clubroot, and 18,187 of them showed >5× coverage in the GBS data. Among those, 4,103 were credibly genotyped for all 78 F2 individual plants. These markers were clustered into nine linkage groups spanning 879.9 cM with an average interval of 1.15 cM. Quantitative trait loci (QTLs) survey based on three rounds of clubroot resistance tests using F2 : 3 progenies revealed two and single major QTLs for Race 2 and Race 9 of P. brassicae, respectively. The QTLs show similar locations to the previously reported CR loci for Race 4 in B. oleracea but are in different positions from any of the CR loci found in B. rapa. We utilized two reference genome sequences in this study. The high-resolution genetic map developed herein allowed us to reposition 37 and 2 misanchored scaffolds in the 02–12 and TO1000DH genome sequences, respectively. Our data also support additional positioning of two unanchored 3.3 Mb scaffolds into the 02–12 genome sequence.

Published

2015

107. Characterization of the centromere and peri-centromere retrotransposons in Brassica rapa and their distribution in related Brassica species

Author

Ki-Byung, Lim, Tae-Jin, Yang, Yoon-Jung, Hwang, Jung Sun, Kim, Jee-Young, Park, Soo-Jin, Kwon, Jina, Kim, Beom-Soon, Choi, Myung-Ho, Lim, Mina, Jin, Ho-Il, Kim, Hans, de Jong, Ian, Bancroft, Yongpyo, Lim, and Beom-Seok, Park

Subjects

Chromosomes, Artificial, Bacterial, DNA, Plant, Retroelements, Brassica rapa, Centromere, Molecular Sequence Data, Brassica, Sequence Analysis, DNA, Models, Biological, Chromosomes, Plant, Chromosome Banding, Polyploidy, Tandem Repeat Sequences, Cloning, Molecular, Genome, Plant, In Situ Hybridization, Fluorescence

Abstract

We report the identification and characterization of the major repeats in the centromeric and peri-centromeric heterochromatin of Brassica rapa. The analysis involved the characterization of 88 629 bacterial artificial chromosomes (BAC) end sequences and the complete sequences of two BAC clones. We identified centromere-specific retrotransposons of Brassica (CRB) and various peri-centromere-specific retrotransposons (PCRBr). Three copies of the CRB were identified in one BAC clone as nested insertions within a tandem array of 24 copies of a 176 bp centromeric repeat, CentBr. A complex mosaic structure consisting of nine PCRBr elements and large blocks of 238 bp degenerate tandem repeats (TR238) were found in or near a derivative of 5S-25S rDNA sequences. The chromosomal positions of selected repeats were determined using in situ hybridization. These revealed that CRB is a major component of all centromeres in three diploid Brassica species and their allotetraploid relatives. However, CentBr was not detected in the most distantly related of the diploid species analyzed, B. nigra. PCRBr and TR238 were found to be major components in the peri-centromeric heterochromatin blocks of four chromosomes of B. rapa. These repetitive elements were not identified in B. oleracea or B. nigra, indicating that they are A-genome-specific. GenBank accession numbers: KBrH001P13 (AC 166739); KBrH015B20 (AC 166740); end sequences of KBrH BAC library (CW 978640 - CW 988843); end sequences of KBrS BAC library (DU 826965 - DU 835595); end sequences of KBrB BAC library (DX 010661 - DX 083363).

Published

2006

108. Sequence-level analysis of the diploidization process in the triplicated FLOWERING LOCUS C region of Brassica rapa

Author

Tae-Jin Yang, Jung Sun Kim, Jason Jongho Kang, Jin-Han Hong, Soo-Jin Kwon, Jee Young Park, Ian Bancroft, Chang-Bae Kim, Beom-Seok Park, Yong Pyo Lim, Hoil Kim, Jong Bhak, Jin-A Kim, Myung-Ho Lim, Beom-Soon Choi, Mina Jin, and Ki-Byung Lim

Subjects

Molecular Sequence Data, Plant Science, Biology, Genes, Plant, Genome, Chromosomes, Plant, Evolution, Molecular, Intergenic region, Arabidopsis, Gene Duplication, Brassica rapa, Flowering Locus C, Gene, Conserved Sequence, Research Articles, Segmental duplication, Sequence Deletion, Genetics, fungi, food and beverages, Chromosome Mapping, Cell Biology, Sequence Analysis, DNA, biology.organism_classification, Diploidy, DNA Transposable Elements, Ploidy, Genome, Plant

Abstract

Strong evidence exists for polyploidy having occurred during the evolution of the tribe Brassiceae. We show evidence for the dynamic and ongoing diploidization process by comparative analysis of the sequences of four paralogous Brassica rapa BAC clones and the homologous 124-kb segment of Arabidopsis thaliana chromosome 5. We estimated the times since divergence of the paralogous and homologous lineages. The three paralogous subgenomes of B. rapa triplicated 13 to 17 million years ago (MYA), very soon after the Arabidopsis and Brassica divergence occurred at 17 to 18 MYA. In addition, a pair of BACs represents a more recent segmental duplication, which occurred ∼0.8 MYA, and provides an exception to the general expectation of three paralogous segments within the B. rapa genome. The Brassica genome segments show extensive interspersed gene loss relative to the inferred structure of the ancestral genome, whereas the Arabidopsis genome segment appears little changed. Representatives of all 32 genes in the Arabidopsis genome segment are represented in Brassica, but the hexaploid complement of 96 has been reduced to 54 in the three subgenomes, with compression of the genomic region lengths they occupy to between 52 and 110 kb. The gene content of the recently duplicated B. rapa genome segments is identical, but intergenic sequences differ.

Published

2006

109. Characterization of terminal-repeat retrotransposon in miniature (TRIM) in Brassica relatives

Author

Andrew H. Paterson, Soo-Jin Kwon, Beom-Soon Choi, Jin-A Kim, Jung Sun Kim, Yong Pyo Lim, Jee Young Park, Myung-Ho Lim, Hoil Kim, Beom-Seok Park, Hyo-Jin Lee, Tae-Jin Yang, Ki-Byung Lim, and Mina Jin

Subjects

Transposable element, Lineage (genetic), Retroelements, Molecular Sequence Data, Brassica, Gene Dosage, Retrotransposon, Genomics, Biology, Genome, Evolution, Molecular, Species Specificity, Phylogenetics, Arabidopsis, Genetics, Cluster Analysis, Phylogeny, DNA Primers, Base Sequence, Terminal Repeat Sequences, food and beverages, Chromosome Mapping, Computational Biology, General Medicine, Sequence Analysis, DNA, biology.organism_classification, Agronomy and Crop Science, Biotechnology

Abstract

We have newly identified five Terminal-repeat retrotransposon in miniature (TRIM) families, four from Brassica and one from Arabidopsis. A total of 146 elements, including three Arabidopsis families reported before, are extracted from genomics data of Brassica and Arabidopsis, and these are grouped into eight distinct lineages, Br1 to Br4 derived from Brassica and At1 to At4 derived from Arabidopsis. Based on the occurrence of TRIM elements in 434 Mb of B. oleracea shotgun sequences and 96 Mb of B. rapa BAC end sequences, total number of TRIM members of Br1, Br2, Br3, and Br4 families are roughly estimated to be present in 660 and 530 copies in B. oleracea and B. rapa genomes, respectively. Studies on insertion site polymorphisms of four elements across taxa in the tribe Brassiceae infer the taxonomic lineage and dating of the insertion time. Active roles of the TRIM elements for evolution of the duplicated genes are inferred in the highly replicated Brassica genome.

Published

2006

110. Alternative Splicing Profile and Sex-Preferential Gene Expression in the Female and Male Pacific Abalone Haliotis discus hannai.

Author

Mi Ae Kim, Jae-Sung Rhee, Tae Ha Kim, Jung Sick Lee, Ah-Young Choi, Beom-Soon Choi, Ik-Young Choi, and Young Chang Sohn

Subjects

GENE expression, ABALONES, POSITION effect (Genetics), MOLECULAR genetics, ANTISENSE DNA

Abstract

In order to characterize the female or male transcriptome of the Pacific abalone and further increase genomic resources, we sequenced the mRNA of full-length complementary DNA (cDNA) libraries derived from pooled tissues of female and male Haliotis discus hannai by employing the Iso-Seq protocol of the PacBio RSII platform. We successfully assembled whole full-length cDNA sequences and constructed a transcriptome database that included isoform information. After clustering, a total of 15,110 and 12,145 genes that coded for proteins were identified in female and male abalones, respectively. A total of 13,057 putative orthologs were retained from each transcriptome in abalones. Overall Gene Ontology terms and Kyoto Encyclopedia of Genes and Genomes (KEGG) pathways analyzed in each database showed a similar composition between sexes. In addition, a total of 519 and 391 isoforms were genome-widely identified with at least two isoforms from female and male transcriptome databases. We found that the number of isoforms and their alternatively spliced patterns are variable and sex-dependent. This information represents the first significant contribution to sex-preferential genomic resources of the Pacific abalone. The availability of whole female and male transcriptome database and their isoform information will be useful to improve our understanding of molecular responses and also for the analysis of population dynamics in the Pacific abalone. [ABSTRACT FROM AUTHOR]

Published

2017

111. Genome-Wide Comparative Analysis of 20 Miniature Inverted-Repeat Transposable Element Families in Brassica rapa and B. oleracea

Author

Ill-Sup Nou, Tae-Jin Yang, Jonghoon Lee, Kenta Shirasawa, Hong-Il Choi, Beom-Soon Choi, Perumal Sampath, Shengyi Liu, Jayakodi Murukarthick, and Nur Kholilatul Izzah

Subjects

Transposable element, Genome evolution, Agricultural Biotechnology, lcsh:Medicine, Biology, Genome, Species Specificity, Brassica rapa, Botany, Genome-Wide Association Studies, Genetics, Mite, Genome Sequencing, Copy-number variation, Molecular Biology Techniques, Sequencing Techniques, lcsh:Science, Genome Evolution, Molecular Biology, Gene, Comparative genomics, Multidisciplinary, Base Sequence, Inverted Repeat Sequences, lcsh:R, Biology and Life Sciences, Computational Biology, Agriculture, Genomics, Comparative Genomics, Genome Analysis, biology.organism_classification, Functional Genomics, DNA Transposable Elements, Structural Genomics, lcsh:Q, Genome, Plant, Research Article

Abstract

Miniature inverted-repeat transposable elements (MITEs) are ubiquitous, non-autonomous class II transposable elements. Here, we conducted genome-wide comparative analysis of 20 MITE families in B. rapa, B. oleracea, and Arabidopsis thaliana. A total of 5894 and 6026 MITE members belonging to the 20 families were found in the whole genome pseudo-chromosome sequences of B. rapa and B. oleracea, respectively. Meanwhile, only four of the 20 families, comprising 573 members, were identified in the Arabidopsis genome, indicating that most of the families were activated in the Brassica genus after divergence from Arabidopsis. Copy numbers varied from 4 to 1459 for each MITE family, and there was up to 6-fold variation between B. rapa and B. oleracea. In particular, analysis of intact members showed that whereas eleven families were present in similar copy numbers in B. rapa and B. oleracea, nine families showed copy number variation ranging from 2- to 16-fold. Four of those families (BraSto-3, BraTo-3, 4, 5) were more abundant in B. rapa, and the other five (BraSto-1, BraSto-4, BraTo-1, 7 and BraHAT-1) were more abundant in B. oleracea. Overall, 54% and 51% of the MITEs resided in or within 2 kb of a gene in the B. rapa and B. oleracea genomes, respectively. Notably, 92 MITEs were found within the CDS of annotated genes, suggesting that MITEs might play roles in diversification of genes in the recently triplicated Brassica genome. MITE insertion polymorphism (MIP) analysis of 289 MITE members showed that 52% and 23% were polymorphic at the inter- and intra-species levels, respectively, indicating that there has been recent MITE activity in the Brassica genome. These recently activated MITE families with abundant MIP will provide useful resources for molecular breeding and identification of novel functional genes arising from MITE insertion.

Published

2014

112. Genotyping-by-sequencing map permits identification of clubroot resistance QTLs and revision of the reference genome assembly in cabbage (Brassica oleracea L.).

Author

Jonghoon Lee, Izzah, Nur Kholilatul, Beom-Soon Choi, Ho Jun Joh, Sang-Choon Lee, Perumal, Sampath, Joodeok Seo, Kyounggu Ahn, Eun Ju Jo, Gyung Ja Choi, Ill-Sup Nou, Yeisoo Yu, and Tae-Jin Yang

Abstract

Clubroot is a devastating disease caused by Plasmodiophora brassicae and results in severe losses of yield and quality in Brassica crops. Many clubroot resistance genes and markers are available in Brassica rapa but less is known in Brassica oleracea. Here,we applied the genotyping-by-sequencing (GBS) technique to construct a high-resolution genetic map and identify clubroot resistance (CR) genes. A total of 43,821 SNPs were identified using GBS data for two parental lines, one resistant and one susceptible lines to clubroot, and 18,187 of them showed >5× coverage in the GBS data. Among those, 4,103 were credibly genotyped for all 78 F2 individual plants. These markerswere clustered into nine linkage groups spanning 879.9 cM with an average interval of 1.15 cM. Quantitative trait loci (QTLs) survey based on three rounds of clubroot resistance tests using F2 : 3 progenies revealed two and single major QTLs for Race 2 and Race 9 of P. brassicae, respectively. The QTLs show similar locations to the previously reported CR loci for Race 4 in B. oleracea but are in different positions from any of the CR loci found in B. rapa. We utilized two reference genome sequences in this study. The high-resolution genetic map developed herein allowed us to reposition 37 and 2 misanchored scaffolds in the 02-12 and TO1000DH genome sequences, respectively. Our data also support additional positioning of two unanchored 3.3 Mb scaffolds into the 02-12 genome sequence. [ABSTRACT FROM AUTHOR]

Published

2016

113. Complete Genome Sequence of Mycobacterium intracellulare Clinical Strain MOTT-02

Author

Byoung Jun Kim, Beom-Soon Choi, Jehee Lee, Jong-Sung Lim, Ik-Young Choi, Bum Joon Kim, Yoon Hoh Kook, and Jongsik Chun

Subjects

Genetics, Whole genome sequencing, Genotype, Strain (biology), Molecular Sequence Data, Mycobacterium avium-intracellulare infection, Virulence, Biology, Mycobacterium avium Complex, biology.organism_classification, medicine.disease, Microbiology, Virology, Genome Announcements, Republic of Korea, medicine, Humans, Mycobacterium avium complex, Molecular Biology, Genome, Bacterial, Mycobacterium avium-intracellulare Infection, Mycobacterium

Abstract

Here, we report the first complete genome sequence of the Mycobacterium intracellulare clinical strain MOTT-02, which was previously grouped in the INT2 genotype of M. intracellulare. This genome sequence will serve as a valuable reference for improving the understanding of the disparity in the virulence and epidemiologic traits between M. intracellulare genotypes.

Published

2012

114. Complete Genome Sequence of the Fenitrothion-Degrading Burkholderia sp. Strain YI23

Author

Kyung Duk Kim, Jong-Sung Lim, Ik-Young Choi, Jong-Ok Ka, Dong-in Kim, Ah Young Choi, and Beom-Soon Choi

Subjects

Burkholderia, Molecular Sequence Data, complex mixtures, Microbiology, Fenitrothion, chemistry.chemical_compound, Burkholderia species, Molecular Biology, Soil Microbiology, Burkholderia sp, Whole genome sequencing, Base Sequence, Strain (chemistry), biology, Sequence Analysis, DNA, bacterial infections and mycoses, biology.organism_classification, Genome Announcements, Biodegradation, Environmental, chemistry, bacteria, Soil microbiology, Genome, Bacterial, Bacteria

Abstract

Burkholderia species are ubiquitous in soil environments. Many Burkholderia species isolated from various environments have the potential to biodegrade man-made chemicals. Burkholderia sp. strain YI23 was isolated from a golf course soil and identified as a fenitrothion-degrading bacterium. In this study, we report the complete genome sequence of Burkholderia sp. strain YI23.

Published

2012

115. Genome-wide comparative analysis of the Brassica rapa gene space reveals genome shrinkage and differential loss of duplicated genes after whole genome triplication

Author

Hee-Ju Yu, Myung-Ho Lim, Ki-Byung Lim, Young-Joo Seol, Jin A Kim, Dae-Soo Kim, Soo Jin Kwon, Beom-Seok Park, Beom-Soon Choi, Mina Jin, Yong Pyo Lim, Namshin Kim, Soo-In Lee, JangHo Hahn, Tae-Jin Yang, Seunghoon Baek, Ian Bancroft, Jeong-Hwan Mun, and Jung Sun Kim

Subjects

Chromosomes, Artificial, Bacterial, Genome evolution, Euchromatin, Arabidopsis, Genomics, Biology, Synteny, Genome, Chromosomes, Plant, DNA sequencing, Evolution, Molecular, Polyploidy, Contig Mapping, Open Reading Frames, Genes, Duplicate, Gene Duplication, Brassica rapa, Gene, Conserved Sequence, Phylogeny, Repetitive Sequences, Nucleic Acid, Gene Rearrangement, Genetics, Base Sequence, Research, fungi, Computational Biology, food and beverages, biology.organism_classification, Evolutionary biology, Karyotyping, Genome, Plant

Abstract

Euchromatic regions of the Brassica rapa genome were sequenced and mapped onto the corresponding regions in the Arabidopsis thaliana genome., Background Brassica rapa is one of the most economically important vegetable crops worldwide. Owing to its agronomic importance and phylogenetic position, B. rapa provides a crucial reference to understand polyploidy-related crop genome evolution. The high degree of sequence identity and remarkably conserved genome structure between Arabidopsis and Brassica genomes enables comparative tiling sequencing using Arabidopsis sequences as references to select the counterpart regions in B. rapa, which is a strong challenge of structural and comparative crop genomics. Results We assembled 65.8 megabase-pairs of non-redundant euchromatic sequence of B. rapa and compared this sequence to the Arabidopsis genome to investigate chromosomal relationships, macrosynteny blocks, and microsynteny within blocks. The triplicated B. rapa genome contains only approximately twice the number of genes as in Arabidopsis because of genome shrinkage. Genome comparisons suggest that B. rapa has a distinct organization of ancestral genome blocks as a result of recent whole genome triplication followed by a unique diploidization process. A lack of the most recent whole genome duplication (3R) event in the B. rapa genome, atypical of other Brassica genomes, may account for the emergence of B. rapa from the Brassica progenitor around 8 million years ago. Conclusions This work demonstrates the potential of using comparative tiling sequencing for genome analysis of crop species. Based on a comparative analysis of the B. rapa sequences and the Arabidopsis genome, it appears that polyploidy and chromosomal diploidization are ongoing processes that collectively stabilize the B. rapa genome and facilitate its evolution.

Published

2009

116. Uncovering the novel characteristics of Asian honey bee, Apis cerana, by whole genome sequencing.

Author

Doori Park, Je Won Jung, Beom-Soon Choi, Jayakodi, Murukarthick, Jeongsoo Lee, Jongsung Lim, Yeisoo Yu, Yong-Soo Choi, Myeong-Lyeol Lee, Yoonseong Park, Ik-Young Choi, Tae-Jin Yang, Edwards, Owain R., Gyoungju Nah, and Hyung Wook Kwon

Subjects

HONEYBEE genetics, APIS cerana, NUCLEOTIDE sequence, INSECT societies, GENOMICS

Abstract

Background: The honey bee is an important model system for increasing understanding of molecular and neural mechanisms underlying social behaviors relevant to the agricultural industry and basic science. The western honey bee, Apis mellifera, has served as a model species, and its genome sequence has been published. In contrast, the genome of the Asian honey bee, Apis cerana, has not yet been sequenced. A. cerana has been raised in Asian countries for thousands of years and has brought considerable economic benefits to the apicultural industry. A cerana has divergent biological traits compared to A. mellifera and it has played a key role in maintaining biodiversity in eastern and southern Asia. Here we report the first whole genome sequence of A. cerana. Results: Using de novo assembly methods, we produced a 238 Mbp draft of the A. cerana genome and generated 10,651 genes. A. cerana-specific genes were analyzed to better understand the novel characteristics of this honey bee species. Seventy-two percent of the A. cerana-specific genes had more than one GO term, and 1,696 enzymes were categorized into 125 pathways. Genes involved in chemoreception and immunity were carefully identified and compared to those from other sequenced insect models. These included 10 gustatory receptors, 119 odorant receptors, 10 ionotropic receptors, and 160 immune-related genes. Conclusions: This first report of the whole genome sequence of A. cerana provides resources for comparative sociogenomics, especially in the field of social insect communication. These important tools will contribute to a better understanding of the complex behaviors and natural biology of the Asian honey bee and to anticipate its future evolutionary trajectory. [ABSTRACT FROM AUTHOR]

Published

2015

117. Uncovering the novel characteristics of Asian honey bee, Apis cerana, by whole genome sequencing.

Author

Park, Doori, Je Won Jung, Beom-Soon Choi, Jayakodi, Murukarthick, Jeongsoo Lee, Jongsung Lim, Yeisoo Yu, Yong-Soo Choi, Myeong-Lyeol Lee, Yoonseong Park, Ik-Young Choi, Tae-Jin Yang, Edwards, Owain R., Gyoungju Nah, and Hyung Wook Kwon

Subjects

HONEYBEE genetics, APIS cerana, NUCLEOTIDE sequencing, BEEKEEPING, HONEYBEE behavior, CHEMICAL senses, IMMUNITY, INSECTS

Abstract

Background: The honey bee is an important model system for increasing understanding of molecular and neural mechanisms underlying social behaviors relevant to the agricultural industry and basic science. The western honey bee, Apis mellifera, has served as a model species, and its genome sequence has been published. In contrast, the genome of the Asian honey bee, Apis cerana, has not yet been sequenced. A. cerana has been raised in Asian countries for thousands of years and has brought considerable economic benefits to the apicultural industry. A cerana has divergent biological traits compared to A. mellifera and it has played a key role in maintaining biodiversity in eastern and southern Asia. Here we report the first whole genome sequence of A. cerana. Results: Using de novo assembly methods, we produced a 238 Mbp draft of the A. cerana genome and generated 10,651 genes. A.cerana-specific genes were analyzed to better understand the novel characteristics of this honey bee species. Seventy-two percent of the A. cerana-specific genes had more than one GO term, and 1,696 enzymes were categorized into 125 pathways. Genes involved in chemoreception and immunity were carefully identified and compared to those from other sequenced insect models. These included 10 gustatory receptors, 119 odorant receptors, 10 ionotropic receptors, and 160 immune-related genes. Conclusions: This first report of the whole genome sequence of A. cerana provides resources for comparative sociogenomics, especially in the field of social insect communication. These important tools will contribute to a better understanding of the complex behaviors and natural biology of the Asian honey bee and to anticipate its future evolutionary trajectory. [ABSTRACT FROM AUTHOR]

Published

2015

118. Renal Transplantation in a Patient with Idiopathic Thrombocytopenic Purpura

Author

Eun Mi Hwang, Beom Soon Choi, Yong-Soo Kim, Hyun Young Woo, Chul Woo Yang, In Sung Moon, and Byung Kee Bang

Subjects

Adult, Male, medicine.medical_specialty, medicine.medical_treatment, Splenectomy, Case Report, immune system diseases, hemic and lymphatic diseases, Humans, Medicine, Platelet, Kidney transplantation, Purpura, Thrombocytopenic, Idiopathic, business.industry, Glomerulonephritis, IGA, Renal transplantation, medicine.disease, Kidney Transplantation, Thrombocytopenic purpura, Surgery, Transplantation, Vaccination, Renal transplant, Immunology, Kidney Failure, Chronic, Chronic renal failure, Idiopathic thrombocytopenic purpura, business

Abstract

The combination of idiopathic thrombocytopenic purpura (ITP) and chronic renal failure (CRF) is uncommon. This report highlights a case of renal transplantation in a patient with ITP. A 35-year-old man with ITP was admitted with uremic symptoms. A renal transplant and splenectomy was simultaneously performed. A prophylactic pneumococcous vaccination was performed and intravenous immunoglobulin (1 g/kg) was administered before and after the operation. The patient's platelet count increased gradually after the splenectomy. During a two-year follow up period, the graft function was well maintained. Renal transplantation in a patient with ITP is recommended with a well-designed strategy to prevent potential complications.

Published

2005

119. BrassicaTED - a public database for utilization of miniature transposable elements in Brassica species.

Author

Murukarthick, Jayakodi, Sampath, Perumal, Sang Choon Lee, Beom-Soon Choi, Senthil, Natesan, Shengyi Liu, and Tae-Jin Yang

Subjects

BRASSICA, TRANSPOSONS, PLANT genomes, GENE expression, GENETIC polymorphisms in plants

Abstract

Background MITE, TRIM and SINEs are miniature form transposable elements (mTEs) that are ubiquitous and dispersed throughout entire plant genomes. Tens of thousands of members cause insertion polymorphism at both the inter- and intra- species level. Therefore, mTEs are valuable targets and resources for development of markers that can be utilized for breeding, genetic diversity and genome evolution studies. Taking advantage of the completely sequenced genomes of Brassica rapa and B. oleracea, characterization of mTEs and building a curated database are prerequisite to extending their utilization for genomics and applied fields in Brassica crops. Findings We have developed BrassicaTED as a unique web portal containing detailed characterization information for mTEs of Brassica species. At present, BrassicaTED has datasets for 41 mTE families, including 5894 and 6026 members from 20 MITE families, 1393 and 1639 members from 5 TRIM families, 1270 and 2364 members from 16 SINE families in B. rapa and B. oleracea, respectively. BrassicaTED offers different sections to browse structural and positional characteristics for every mTE family. In addition, we have added data on 289 MITE insertion polymorphisms from a survey of seven Brassica relatives. Genes with internal mTE insertions are shown with detailed gene annotation and microarray-based comparative gene expression data in comparison with their paralogs in the triplicated B. rapa genome. This database also includes a novel tool, K BLAST (Karyotype BLAST), for clear visualization of the locations for each member in the B. rapa and B. oleracea pseudo-genome sequences. Conclusions BrassicaTED is a newly developed database of information regarding the characteristics and potential utility of mTEs including MITE, TRIM and SINEs in B. rapa and B. oleracea. The database will promote the development of desirable mTE-based markers, which can be utilized for genomics and breeding in Brassica species. BrassicaTED will be a valuable repository for scientists and breeders, promoting efficient research on Brassica species. [ABSTRACT FROM AUTHOR]

Published

2014

120. EST SEQUENCING AND GENE EXPRESSION PROFILING IN SCUTELLARIA BAICALENSIS.

Author

Nam Il Park, Ik Young Choi, Beom-Soon Choi, Young Seon Kim, Mi Young Lee, and Sang Un Park

Subjects

EXPRESSED sequence tag (Genetics), GENE expression, CHINESE skullcap, NUCLEOTIDE sequencing, MEDICINAL plants

Abstract

Scutellaria baicalensis is an important medicinal plant, but few genomic resources are available for this species, as well as for other non-model plants. One of the major new directions in genome research is to discover the full spectrum of genes transcribed from the whole genome. Here, we report extensive transcriptome data of the early growth stage of S. baicalensis. This transcriptome consensus sequence was constructed by de novo assembly of shotgun sequencing data, obtained using multiple next-generation DNA sequencing (NGS) platforms (Roche/454 GS_FLX+ and Illumina/Solexa HiSeq2000). We show that this new approach to obtain extensive mRNA is an efficient strategy for genome-wide transcriptome analysis. We obtained 1,226,938 and 161,417,646 reads using the GS_FLX and the Illumina/Solexa HiSeq2000, respectively. De novo assembly of the high-quality GS_FLX and Illumina reads (95% and 75%) resulted in more than 82 Mb of mRNA consensus sequence, which we assembled into 51,188 contigs, with at least 500 bp per contig. Of these contigs, 39,581 contained known genes, as determined by BLASTX searches against non-redundant NCBI database. Of these, 20,498 different genes were expressed during the early growth stage of S. baicalensis. We have made the expressed sequences available on a public database. Our results demonstrate the utility of combining NGS technologies as a basis for the development of genomic tools in non-model, medicinal plant species. Knowledge of all described genes and quantitation of the expressed genes, including the transcription factors involved, will be useful in studies of the biology of S. baicalensis gene regulation. [ABSTRACT FROM AUTHOR]

Published

2014

121. Sequence analysis of genomic DNA (680 Mb) by GS-FLX-Titanium sequencer in the monogonont rotifer, Brachionus ibericus.

Author

Jae-Seong Lee, Ryeo-Ok Kim, Jae-Sung Rhee, Jeonghoon Han, Dae-Sik Hwang, Beom-Soon Choi, Chang Joo Lee, Yong-Dal Yoon, Jong-Sung Lim, Young-Mi Lee, Gyung Soo Park, Atsushi Hagiwara, and Ik-Young Choi

Subjects

TITANIUM, DNA, GENOMICS, GENOMES, DAPHNIA, BIOLOGY

Abstract

The monogonont rotifer, Brachionus ibericus (S type), is considered to be a promising model species for developmental biology, evolution, and environmental genomics. In an attempt to accelerate the molecular understanding of B. ibericus, we sequenced 680.5 Mb of genomic DNA using the genome sequencer GS-FLX-Titanium. We obtained 2,062,621 reads (average read length 329.9 bp) and 145,418 contigs (total contigs length 125.7 Mb) after excluding small reads (less than 200 bp) from the assembly, and finally obtained 10,133 unigenes ( E value ≤ 9.00E−04) after non-redundant (NR) BLAST search. In this article, we summarize the genomic DNA sequences of B. ibericus and discuss their potential use in the study of reproductive biology, endocrinology, environmental genomics, and ecotoxicological studies, and for providing insight into the genetic basis of mechanisms such as egg formation, antioxidant stress defense, and xenobiotic metabolism. [ABSTRACT FROM AUTHOR]

Published

2011

122. The first generation of a BAC-based physical map of Brassica rapa.

Author

Jeong-Hwan Mun, Soo-Jin Kwon, Tae-Jin Yang, Hye-Sun Kim, Beom-Soon Choi, Seunghoon Baek, Jung Sun Kim, Mina Jin, Kim, Jin A., Myung-Ho Lim, Soo In Lee, Ho-Il Kim, Hyungtae Kim, Yong Pyo Lim, and Beom-Seok Park

Subjects

MAPS, BACTERIAL artificial chromosomes, BRASSICA, PLANT gene mapping, DNA fingerprinting of plants

Abstract

Background: The genus Brassica includes the most extensively cultivated vegetable crops worldwide. Investigation of the Brassica genome presents excellent challenges to study plant genome evolution and divergence of gene function associated with polyploidy and genome hybridization. A physical map of the B. rapa genome is a fundamental tool for analysis of Brassica "A" genome structure. Integration of a physical map with an existing genetic map by linking genetic markers and BAC clones in the sequencing pipeline provides a crucial resource for the ongoing genome sequencing effort and assembly of whole genome sequences. Results: A genome-wide physical map of the B. rapa genome was constructed by the capillary electrophoresis-based fingerprinting of 67,468 Bacterial Artificial Chromosome (BAC) clones using the five restriction enzyme SNaPshot technique. The clones were assembled into contigs by means of FPC v8.5.3. After contig validation and manual editing, the resulting contig assembly consists of 1,428 contigs and is estimated to span 717 Mb in physical length. This map provides 242 anchored contigs on 10 linkage groups to be served as seed points from which to continue bidirectional chromosome extension for genome sequencing. Conclusion: The map reported here is the first physical map for Brassica "A" genome based on the High Information Content Fingerprinting (HICF) technique. This physical map will serve as a fundamental genomic resource for accelerating genome sequencing, assembly of BAC sequences, and comparative genomics between Brassica genomes. The current build of the B. rapa physical map is available at the B. rapa Genome Project website for the user community. [ABSTRACT FROM AUTHOR]

Published

2008

123. Characterization of the centromere and peri-centromere retrotransposons in Brassica rapa and their distribution in related Brassica species.

Author

Ki-Byung Lim, Tae-Jin Yang, Yoon-Jung Hwang, Jung Sun Kim, Jee-Young Park, Soo-Jin Kwon, Jin-A Kim, Beom-Soon Choi, Myung-Ho Lim, Mina Jin, Ho-Il Kim, de Jong, Hans, Bancroft, Ian, YongPyo Lim, and Beom-Seok Park

Subjects

CENTROMERE, CHROMOSOMES, BOK choy, HETEROCHROMATIN, GENOMES, IN situ hybridization

Abstract

We report the identification and characterization of the major repeats in the centromeric and peri-centromeric heterochromatin of Brassica rapa. The analysis involved the characterization of 88 629 bacterial artificial chromosomes (BAC) end sequences and the complete sequences of two BAC clones. We identified centromere-specific retrotransposons of Brassica (CRB) and various peri-centromere-specific retrotransposons (PCRBr). Three copies of the CRB were identified in one BAC clone as nested insertions within a tandem array of 24 copies of a 176 bp centromeric repeat, CentBr. A complex mosaic structure consisting of nine PCRBr elements and large blocks of 238 bp degenerate tandem repeats (TR238) were found in or near a derivative of 5S–25S rDNA sequences. The chromosomal positions of selected repeats were determined using in situ hybridization. These revealed that CRB is a major component of all centromeres in three diploid Brassica species and their allotetraploid relatives. However, CentBr was not detected in the most distantly related of the diploid species analyzed, B. nigra. PCRBr and TR238 were found to be major components in the peri-centromeric heterochromatin blocks of four chromosomes of B. rapa. These repetitive elements were not identified in B. oleracea or B. nigra, indicating that they are A-genome-specific. [ABSTRACT FROM AUTHOR]

Published

2007

124. Sequence and structure of Brassica rapa chromosome A3

Author

Ja Young Shin, Soo In Lee, Jang Ho Hahn, Sang Choon Lee, Jin A Kim, Tae-Ho Park, Beom Seok Park, Isobel A. P. Parkin, Jung Sun Kim, Yoon-Jung Hwang, Beom-Soon Choi, Ian Bancroft, Tae-Jin Yang, Fiona Fraser, Mi Suk Seo, Seunghoon Baek, Jacqueline Batley, Jonghoon Lee, Soo Jin Kwon, Beom Jin Kim, Joon Ki Hong, Nirala Ramchiary, Andrew G. Sharpe, Young Joo Seol, Myung-Ho Lim, Hee Ju Yu, Martin Trick, Dave Edwards, Min Jee Lee, Jee Young Park, Ki-Byung Lim, Ik-Young Choi, Mina Jin, Yong Pyo Lim, Eleni Soumpourou, Su Ryun Choi, Jeong Hwan Mun, and Nizar Drou

Subjects

Genome evolution, Chromosomes, Artificial, Bacterial, DNA, Plant, Brassica, Arabidopsis, Biology, Genome, Synteny, Chromosomes, Plant, Evolution, Molecular, Polyploidy, Contig Mapping, Gene Duplication, Brassica rapa, Conserved Sequence, Comparative genomics, Genetics, Whole genome sequencing, Gene Rearrangement, Base Sequence, Research, fungi, Chromosome Mapping, food and beverages, Molecular Sequence Annotation, Gene rearrangement, Sequence Analysis, DNA, biology.organism_classification, Chromosome Structures, Karyotyping, Genome, Plant

Abstract

Background The species Brassica rapa includes important vegetable and oil crops. It also serves as an excellent model system to study polyploidy-related genome evolution because of its paleohexaploid ancestry and its close evolutionary relationships with Arabidopsis thaliana and other Brassica species with larger genomes. Therefore, its genome sequence will be used to accelerate both basic research on genome evolution and applied research across the cultivated Brassica species. Results We have determined and analyzed the sequence of B. rapa chromosome A3. We obtained 31.9 Mb of sequences, organized into nine contigs, which incorporated 348 overlapping BAC clones. Annotation revealed 7,058 protein-coding genes, with an average gene density of 4.6 kb per gene. Analysis of chromosome collinearity with the A. thaliana genome identified conserved synteny blocks encompassing the whole of the B. rapa chromosome A3 and sections of four A. thaliana chromosomes. The frequency of tandem duplication of genes differed between the conserved genome segments in B. rapa and A. thaliana, indicating differential rates of occurrence/retention of such duplicate copies of genes. Analysis of 'ancestral karyotype' genome building blocks enabled the development of a hypothetical model for the derivation of the B. rapa chromosome A3. Conclusions We report the near-complete chromosome sequence from a dicotyledonous crop species. This provides an example of the complexity of genome evolution following polyploidy. The high degree of contiguity afforded by the clone-by-clone approach provides a benchmark for the performance of whole genome shotgun approaches presently being applied in B. rapa and other species with complex genomes.

125. BrassicaTED - a public database for utilization of miniature transposable elements in Brassica species

Author

Sang Choon Lee, Senthil Natesan, Tae-Jin Yang, Perumal Sampath, Beom-Soon Choi, Shengyi Liu, and Jayakodi Murukarthick

Subjects

Transposable element, Genome evolution, Short interspersed elements (SINEs), Brassica, Information Storage and Retrieval, Genomics, Breeding, Data Note, computer.software_genre, Genome, General Biochemistry, Genetics and Molecular Biology, Terminal-repeat retrotransposon in miniature (TRIM), Species Specificity, Databases, Genetic, Brassica rapa, Miniature form transposable elements (mTEs), TE Database, Medicine(all), Internet, Genetic diversity, Polymorphism, Genetic, Database, biology, Biochemistry, Genetics and Molecular Biology(all), Genetic Variation, Sequence Analysis, DNA, General Medicine, Gene Annotation, biology.organism_classification, Miniature inverted-repeat transposable element (MITE), Mutagenesis, Insertional, DNA Transposable Elements, computer, Genome, Plant

Abstract

MITE, TRIM and SINEs are miniature form transposable elements (mTEs) that are ubiquitous and dispersed throughout entire plant genomes. Tens of thousands of members cause insertion polymorphism at both the inter- and intra- species level. Therefore, mTEs are valuable targets and resources for development of markers that can be utilized for breeding, genetic diversity and genome evolution studies. Taking advantage of the completely sequenced genomes of Brassica rapa and B. oleracea, characterization of mTEs and building a curated database are prerequisite to extending their utilization for genomics and applied fields in Brassica crops. We have developed BrassicaTED as a unique web portal containing detailed characterization information for mTEs of Brassica species. At present, BrassicaTED has datasets for 41 mTE families, including 5894 and 6026 members from 20 MITE families, 1393 and 1639 members from 5 TRIM families, 1270 and 2364 members from 16 SINE families in B. rapa and B. oleracea, respectively. BrassicaTED offers different sections to browse structural and positional characteristics for every mTE family. In addition, we have added data on 289 MITE insertion polymorphisms from a survey of seven Brassica relatives. Genes with internal mTE insertions are shown with detailed gene annotation and microarray-based comparative gene expression data in comparison with their paralogs in the triplicated B. rapa genome. This database also includes a novel tool, K BLAST (Karyotype BLAST), for clear visualization of the locations for each member in the B. rapa and B. oleracea pseudo-genome sequences. BrassicaTED is a newly developed database of information regarding the characteristics and potential utility of mTEs including MITE, TRIM and SINEs in B. rapa and B. oleracea. The database will promote the development of desirable mTE-based markers, which can be utilized for genomics and breeding in Brassica species. BrassicaTED will be a valuable repository for scientists and breeders, promoting efficient research on Brassica species. BrassicaTED can be accessed at http://im-crop.snu.ac.kr/BrassicaTED/index.php .

126. The lipoxygenase gene family: a genomic fossil of shared polyploidy between Glycine max and Medicago truncatula

Author

Kyujung Van, Jin Hee Shin, Young Eun Jang, Moon Young Kim, Dong Hyun Kim, Beom-Soon Choi, Suk-Ha Lee, and Kyung Do Kim

Subjects

Chromosomes, Artificial, Bacterial, DNA, Plant, Lipoxygenase, Plant Science, Genes, Plant, Genome, Synteny, Evolution, Molecular, Polyploidy, Contig Mapping, Gene Duplication, lcsh:Botany, Gene duplication, Medicago truncatula, Gene family, Gene, Phylogeny, Comparative genomics, Genetics, Medicago, biology, fungi, food and beverages, Genomics, Sequence Analysis, DNA, biology.organism_classification, lcsh:QK1-989, Isoenzymes, Multigene Family, Soybeans, Genome, Plant, Research Article

Abstract

Background Soybean lipoxygenases (Lxs) play important roles in plant resistance and in conferring the distinct bean flavor. Lxs comprise a multi-gene family that includes GmLx1, GmLx2 and GmLx3, and many of these genes have been characterized. We were interested in investigating the relationship between the soybean lipoxygenase isozymes from an evolutionary perspective, since soybean has undergone two rounds of polyploidy. Here we report the tetrad genome structure of soybean Lx regions produced by ancient and recent polyploidy. Also, comparative genomics with Medicago truncatula was performed to estimate Lxs in the common ancestor of soybean and Medicago. Results Two Lx regions in Medicago truncatula showing synteny with soybean were analyzed. Differential evolutionary rates between soybean and Medicago were observed and the median Ks values of Mt-Mt, Gm-Mt, and Gm-Gm paralogs were determined to be 0.75, 0.62, and 0.46, respectively. Thus the comparison of Gm-Mt paralogs (Ks = 0.62) and Gm-Mt orthologs (Ks = 0.45) supports the ancient duplication of Lx regions in the common ancestor prior to the Medicago-Glycine split. After speciation, no Lx regions generated by another polyploidy were identified in Medicago. Instead tandem duplication of Lx genes was observed. On the other hand, a lineage-specific duplication occurred in soybean resulting in two pairs of Lx regions. Each pair of soybean regions was co-orthologous to one Lx region in Medicago. A total of 34 Lx genes (15 MtLxs and 19 GmLxs) were divided into two groups by phylogenetic analysis. Our study shows that the Lx gene family evolved from two distinct Lx genes in the most recent common ancestor. Conclusion This study analyzed two pairs of Lx regions generated by two rounds of polyploidy in soybean. Each pair of soybean homeologous regions is co-orthologous to one region of Medicago, demonstrating the quartet structure of the soybean genome. Differential evolutionary rates between soybean and Medicago were observed; thus optimized rates of Ks per year should be applied for accurate estimation of coalescence times to each case of comparison: soybean-soybean, soybean-Medicago, or Medicago-Medicago. In conclusion, the soybean Lx gene family expanded by ancient polyploidy prior to taxon divergence, followed by a soybean- specific duplication and tandem duplications, respectively.

127. Genome Sequence of Pectobacterium carotovorum subsp. carotovorum Strain PCC21, a Pathogen Causing Soft Rot in Chinese Cabbage.

Author

Tae-Ho Park, Beom-Soon Choi, Ah-Young Choi, Ik-Young Choi, Sunggi Heu, and Beom-Seok Park

Subjects

*ERWINIA, *PLANT-pathogen relationships, *NUCLEOTIDE sequence, *NUCLEIC acid analysis, *ENTEROBACTERIACEAE

Abstract

Pectobacterium carotovorum is a plant-pathogenic enterobacterium responsible for soft rot in various commercially important plants. Here we report the complete genome sequence and automatic annotation of strain PCC21. [ABSTRACT FROM AUTHOR]

Published

2012

128. Complete Genome Sequence of the Fenitrothion-Degrading Burkholderia sp. Strain YI23.

Author

Jong Sung Lim, Beom Soon Choi, Ah Young Choi, Kyung Duk Kim, Dong In Kim, Ik Young Choi, and Jong-Ok Ka

Subjects

*BURKHOLDERIA, *INSECTICIDES, *INSECTS, *GENOMES, *METABOLITES, *CHROMOSOMES

Abstract

Burkholderia species are ubiquitous in soil environments. Many Burkholderia species isolated from various environments have the potential to biodegrade man-made chemicals. Burkholderia sp. strain YI23 was isolated from a golf course soil and identified as a fenitrothion-degrading bacterium. In this study, we report the complete genome sequence of Burkholderia sp. strain YI23. [ABSTRACT FROM AUTHOR]

Published

2012

129. Vascular endothelial growth factor-receptor 1 inhibition aggravates diabetic nephropathy through eNOS signaling pathway in db/db mice.

Author

Keun Suk Yang, Ji Hee Lim, Tae Woo Kim, Min Young Kim, Yaeni Kim, Sungjin Chung, Seok Joon Shin, Beom Soon Choi, Hyung Wook Kim, Yong-Soo Kim, Yoon Sik Chang, Hye Won Kim, and Cheol Whee Park

Subjects

Medicine, Science

Abstract

The manipulation of vascular endothelial growth factor (VEGF)-receptors (VEGFRs) in diabetic nephropathy is as controversial as issue as ever. It is known to be VEGF-A and VEGFR2 that regulate most of the cellular actions of VEGF in experimental diabetic nephropathy. On the other hand, such factors as VEGF-A, -B and placenta growth factor bind to VEGFR1 with high affinity. Such notion instigated us to investigate on whether selective VEGFR1 inhibition with GNQWFI hexamer aggravates the progression of diabetic nephropathy in db/db mice. While diabetes suppressed VEGFR1, it did increase VEGFR2 expressions in the glomerulus. Db/db mice with VEGFR1 inhibition showed more prominent features with respect to, albuminuria, mesangial matrix expansion, inflammatory cell infiltration and greater numbers of apoptotic cells in the glomerulus, and oxidative stress than that of control db/db mice. All these changes were related to the suppression of diabetes-induced increases in PI3K activity and Akt phosphorylation as well as the aggravation of endothelial dysfunction associated with the inactivation of FoxO3a and eNOS-NOx. In cultured human glomerular endothelial cells (HGECs), high-glucose media with VEGFR1 inhibition induced more apoptotic cells and oxidative stress than did high-glucose media alone, which were associated with the suppression of PI3K-Akt phosphorylation, independently of the activation of AMP-activated protein kinase, and inactivation of FoxO3a and eNOS-NOx pathway. In addition, transfection with VEGFR1 siRNA in HGECs also suppressed PI3K-Akt-eNOS signaling. In conclusion, the specific blockade of VEGFR1 with GNQWFI caused severe renal injury related to profound suppression of the PI3K-Akt, FoxO3a and eNOS-NOx pathway, giving rise to the oxidative stress-induced apoptosis of glomerular cells in type 2 diabetic nephropathy.

Published

2014

130. Complete Genome Sequence of Burkholderia gladioli BSR3.

Author

Young-Su Seo, Jaeyun Lim, Beom-Soon Choi, Hongsup Kim, Eunhye Goo, Bongsoo Lee, Jong-Sung Lim, Ik-Young Choi, Jae Sun Moon, Jinwoo Kim, and Ingyu Hwang

Subjects

*BURKHOLDERIA, *MICROBIAL genomes, *BURKHOLDERIA infections, *RICE diseases & pests

Abstract

We report the complete genome sequence of Burkholderia gladioli BSR3, isolated from a diseased rice sheath in South Korea. [ABSTRACT FROM AUTHOR]

Published

2011

131. Precision genome engineering with programmable DNA-nicking enzymes.

Author

Eunji Kim, Sojung Kim, Duk Hyoung Kim, Beom-Soon Choi, Ik-Young Choi, and Jin-Soo Kim

Subjects

*GENOMICS, *ENZYMES, *PROTEIN research, *MUTAGENS, *MUTAGENESIS

Abstract

Zinc finger nucleases (ZFNs) are powerful tools of genome engineering but are limited by their inevitable reliance on error-prone nonhomologous end-joining (NHEJ) repair of DNA double-strand breaks (DSBs), which gives rise to randomly generated, unwanted small insertions or deletions (indels) at both on-target and off-target sites. Here, we present programmable DNA-nicking enzymes (nickases) that produce single-strand breaks (SSBs) or nicks, instead of DSBs, which are repaired by error-free homologous recombination (HR) rather than mutagenic NHEJ. Unlike their corresponding nucleases, zinc finger nickases allow site-specific genome modifications only at the on-target site, without the induction of unwanted indels. We propose that programmable nickases will be of broad utility in research, medicine, and biotechnology, enabling precision genome engineering in any cell or organism. [ABSTRACT FROM AUTHOR]

Published

2012

132. Isolation of Circadian-associated Genes in Brassica rapa by Comparative Genomics with Arabidopsis thaliana.

Author

Kim, Jin A., Tae-Jin Yang, Jung Sun Kim, Jee Young Park, Soo-Jin Kwon, Myung-Ho Lim, Mina Jin, Sang Choon Lee, Soo In Lee, Beom-Soon Choi, Sang-Hee Um, Ho-Il Kim, Changhoo Chun, and Beom-Seok Park

Abstract

Elucidation of the roles of circadian associated factors requires a better understanding of the molecular mechanisms of circadian rhythms, control of flowering time through photoperiodic pathways, and photosensory signal transduction. In Arabidopsis, the APRR1 quintet, APRRs 1, 3, 5, 7, and 9, are known as central oscillator genes. Other plants may share the molecular mechanism underlying the circadian rhythm. To identify and characterize these circadian response genes in Brassica crops whose genome was triplicated after divergence from Arabidopsis, we identified B. rapa BAC clones containing these genes by BLAST analysis of B. rapa BAC end sequences against the five corresponding Arabidopsis regions. Subsequent fingerprinting, Southern hybridization, and PCR allowed identification of five BAC clones, one for each of the five circadian- related genes. By draft shotgun sequencing of the BAC clones, we identified the complete gene sequences and cloned the five expressed B. rapa circadian- associated gene members, BrPRRs 1, 3, 5, 7, and 9. Phylogenetic analysis revealed that each BrPRR was orthologous to the corresponding APRR at the sequence level. Northern hybridization revealed that the five genes were transcribed at distinct points in the 24 hour period, and Southern hybridization revealed that they are present in 2, 1, 2, 2, and 1 copies, respectively in the B. rapa genome, which was triplicated and then diploidized during the last 15 million years. [ABSTRACT FROM AUTHOR]

Published

2007