25 results on '"Inchan Choi"'
Search Results
2. Optimal Planting Time for Summer Tomatoes (Lycopersicon esculentum Mill.) Cropping in Korea: Growth, Yield, and Photosynthetic Efficiency in a Semi-Closed Greenhouse
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Hyo Jun Bae, Seong-Hoon Kim, Yuseok Jeong, Sungjin Park, Kingsley Ochar, Youngsin Hong, Yun Am Seo, Baul Ko, Jeong Hyang Bae, Dong Soo Lee, and Inchan Choi
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cooling ,light use efficiency ,semi-closed greenhouse ,summer cropping ,tomato ,Botany ,QK1-989 - Abstract
In Korea, greenhouses are traditionally used for crop cultivation in the winter. However, due to diverse consumer demands, climate change, and advancements in agricultural technology, more farms are aiming for year-round production. Nonetheless, summer cropping poses challenges such as high temperatures, humidity from the monsoon season, and low light conditions, which make it difficult to grow crops. Therefore, this study aimed to determine the best planting time for summer tomato cultivation in a Korean semi-closed greenhouse that can be both air-conditioned and heated. The experiment was conducted in the Advanced Digital Greenhouse, built by the National Institute of Agricultural Sciences. The tomato seedlings were planted in April, May, and June 2022. Growth parameters such as stem diameter, flowering position, stem growth rate, and leaf shape index were measured, and harvesting was carried out once or twice weekly per treatment from 65 days to 265 days after planting. The light use efficiency and yield per unit area at each planting time was measured. Tomatoes planted in April showed a maximum of 42.9% higher light use efficiency for fruit production and a maximum of 33.3% higher yield. Furthermore, the growth form of the crops was closest to the reproductive growth type. Therefore, among April, May, and June, April is considered the most suitable planting time for summer cultivation, which is expected to contribute to reducing labor costs due to decreased workload and increasing farm income through increased yields. Future research should explore optimizing greenhouse microclimates and developing crop varieties tailored for summer cultivation to further enhance productivity and sustainability in year-round agricultural practices.
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- 2024
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3. Development of a Real-Time Vespa velutina Nest Detection and Notification System Using Artificial Intelligence in Drones
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Yuseok Jeong, Moon-Seok Jeon, Jaesu Lee, Seung-Hwa Yu, Su-bae Kim, Dongwon Kim, Kyoung-Chul Kim, Siyoung Lee, Chang-Woo Lee, and Inchan Choi
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artificial intelligence ,Vespa velutina nest detection ,unmanned aerial vehicle ,real-time kinematics ,long-term evolution ,YOLOv5 ,Motor vehicles. Aeronautics. Astronautics ,TL1-4050 - Abstract
Vespa velutina is an ecosystem disruptor that causes annual damage worth KRW 170 billion (USD 137 million) to the South Korean beekeeping industry. Due to its strong fertility and high-lying habitat, it is difficult to control. This study aimed to develop a system for the control of V. velutina nests using drones for detection and tracking the real-time location of the nests. Vespa velutina nest image data were acquired in Buan-gun and Wanju-gun (Jeollabuk-do), and artificial intelligence learning was conducted using YOLO-v5. Drone image resolutions of 640, 1280, 1920, and 3840 pixels were compared and analyzed. The 3840-pixel resolution model was selected, as it had no false detections for the verification image and showed the best detection performance, with a precision of 100%, recall of 92.5%, accuracy of 99.7%, and an F1 score of 96.1%. A computer (Jetson Xavier), real-time kinematics module, long-term evolution modem, and camera were installed on the drone to acquire real-time location data and images. Vespa velutina nest detection and location data were delivered to the user via artificial intelligence analysis. Utilizing a drone flight speed of 1 m/s and maintaining an altitude of 25 m, flight experiments were conducted near Gyeongcheon-myeon, Wanju-gun, Jeollabuk-do. A total of four V. velutina nests were successfully located. Further research is needed on the detection accuracy of artificial intelligence in relation to objects that require altitude-dependent variations in drone-assisted exploration. Moreover, the potential applicability of these research findings to diverse domains is of interest.
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- 2023
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4. Deep Learning-Based Portable Image Analysis System for Real-Time Detection of Vespa velutina
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Moon-Seok Jeon, Yuseok Jeong, Jaesu Lee, Seung-Hwa Yu, Su-bae Kim, Dongwon Kim, Kyoung-Chul Kim, Siyoung Lee, Chang-Woo Lee, and Inchan Choi
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honeybee decline ,Vespa velutina ,deep learning ,object detection ,real-time streaming protocol ,Technology ,Engineering (General). Civil engineering (General) ,TA1-2040 ,Biology (General) ,QH301-705.5 ,Physics ,QC1-999 ,Chemistry ,QD1-999 - Abstract
Honeybees pollinate over 75% of the total food resources produced annually, and they produce valuable hive products, such as bee pollen, propolis, and royal jelly. However, species such as the Asian hornet (Vespa velutina) feed on more than 85% of honeybees, causing a decline in their population and considerable damage to beekeepers in Korea. To prevent damage to honeybees, a portable real-time monitoring system was developed that detects V. velutina individuals and notifies users of their presence. This system was designed with a focus on portability and ease of installation, as V. velutina can be found in various areas of apiary sites. To detect V. velutina, an improved convolutional neural network YOLOv5s was trained on 1960 high-resolution (3840×2160) image data. At the confidence threshold of ≥0.600 and intersection over the union of ≥0.500, the performance of the system in terms of detection accuracy, precision, recall, F1 score, and mean average precision was high. A distance-based performance comparison showed that the system was able to detect V. velutina individuals while monitoring three beehives. During a field test of monitoring three beehives, the system could detect 83.3% of V. velutina during their hunting activities and send alarms to registered mobile application users.
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- 2023
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5. From crop specific to variety specific in crop modeling for the smart farm: A case study with blueberry.
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Gyung Deok Han, Jeong Min Choi, Inchan Choi, Yoonha Kim, Seong Heo, and Yong Suk Chung
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Medicine ,Science - Abstract
Facility cultivation has been evolved from greenhouses to smart farms using artificial intelligence (AI) that simulates big data to maximize production. However, the big data for AI in smart farm is not studied well; the effect of differences among varieties within a crop remains unclear. Therefore, the response of two varieties of blueberry, 'Suziblue' and 'Star', to light was tested using SAPD meter in order to demonstrate the environmental responses could be different among varieties within the same species. The results showed that those two varieties had significant differences in SPAD values based on the leaf's position and time, whereas 'Star' did not. This indicates that the effect of light depends on the variety, which implies that other traits and other crops may show similar differences. These results are based on a simple experiment. However, it is enough to elucidate that it is extremely important to characterize responses to the environment not only for each crop but also for each variety to collect data for smart farming to increase accuracy for modeling; consequently, to maximize the efficiency of these facilities.
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- 2022
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6. Mutations in the microRNA172 binding site of SUPERNUMERARY BRACT (SNB) suppress internode elongation in rice
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Hyeonso Ji, Chang-deok Han, Gang-Seob Lee, Ki-Hong Jung, Do-Yu Kang, Jun Oh, Hyoja Oh, Kyeong-Seong Cheon, Song Lim Kim, Inchan Choi, Jeongho Baek, and Kyung-Hwan Kim
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Rice ,Internode elongation ,SNB ,microRNA172 ,Plant culture ,SB1-1110 - Abstract
Abstract Background Internode elongation is an important agronomic trait in rice that determines culm length, which is related to lodging, panicle exsertion, and biomass. sui4 (shortened uppermost internode 4) mutants show reduced internode length and a dwarf phenotype due to shortened internodes; the uppermost internode is particularly severely affected. The present study was performed to identify the molecular nature and function of the SUI4 gene during internode elongation. Results Our previous study showed that the SUI4 gene was mapped to a 1.1-Mb interval on chromosome 7 (Ji et al. 2014). In order to isolate the gene responsible for the sui4 phenotype, genomic DNA resequencing of sui4 mutants and wild-type plants and reciprocal transformation of wild-type and mutant alleles of the putative SUI4 gene was performed. The data revealed that the causative mutation of sui4 was a T to A nucleotide substitution at the microRNA172 binding site of Os07g0235800, and that SUI4 is a new allele of the previously reported gene SUPERNUMERARY BRACT (SNB), which affects flower structure. In order to understand the effect of this mutation on expression of the SUI4/SNB gene, SUI4/SNB native promoter-fuzed GUS transgenics were examined, along with qRT-PCR analysis at various developmental stages. In sui4 mutants, the SUI4/SNB gene was upregulated in the leaves, culms, and panicles, especially when internodes were elongated. In culms, SUI4/SNB was expressed in the nodes and the lower parts of elongating internodes. In order to further explore the molecular nature of SUI4/SNB during internode elongation, RNA-seq and qRT-PCR analysis were performed with RNAs from the culms of sui4 mutants and wild-type plants in the booting stage. The data showed that in sui4 mutants, genes deactivating bioactive gibberellins and cytokinin were upregulated while genes related to cell expansion and cell wall synthesis were downregulated. Conclusion In summary, this paper shows that interaction between SUI4/SNB and microRNA172 could determine internode elongation during the reproductive stage in rice plants. Due to a mutation at the microRNA172 binding site in sui4 mutants, the expression of SUI4/SNB was enhanced, which lowered the activities of cell expansion and cell wall synthesis and consequently resulted in shortened internodes.
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- 2019
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7. Development of 454 New Kompetitive Allele-Specific PCR (KASP) Markers for Temperate japonica Rice Varieties
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Kyeong-Seong Cheon, Young-Min Jeong, Hyoja Oh, Jun Oh, Do-Yu Kang, Nyunhee Kim, Eungyeong Lee, Jeongho Baek, Song Lim Kim, Inchan Choi, In Sun Yoon, Kyung-Hwan Kim, Yong Jae Won, Young-il Cho, Jung-Heon Han, and Hyeonso Ji
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temperate japonica rice ,SNP ,high-throughput genotyping ,KASP ,Botany ,QK1-989 - Abstract
Temperate japonica rice varieties exhibit wide variation in the phenotypes of several important agronomic traits, including disease resistance, pre-harvest sprouting resistance, plant architecture, and grain quality, indicating the presence of genes contributing to favorable agronomic traits. However, gene mapping and molecular breeding has been hampered as a result of the low genetic diversity among cultivars and scarcity of polymorphic DNA markers. Single nucleotide polymorphism (SNP)-based kompetitive allele-specific PCR (KASP) markers allow high-throughput genotyping for marker-assisted selection and quantitative trait loci (QTL) mapping within closely related populations. Previously, we identified 740,566 SNPs and developed 771 KASP markers for Korean temperate japonica rice varieties. However, additional markers were needed to provide sufficient genome coverage to support breeding programs. In this study, the 740,566 SNPs were categorized according to their predicted impacts on gene function. The high-impact, moderate-impact, modifier, and low-impact groups contained 703 (0.1%), 20,179 (2.7%), 699,866 (94.5%), and 19,818 (2.7%) SNPs, respectively. A subset of 357 SNPs from the high-impact group was selected for initial KASP marker development, resulting in 283 polymorphic KASP markers. After incorporation of the 283 markers with the 771 existing markers in a physical map, additional markers were developed to fill genomic regions with large gaps between markers, and 171 polymorphic KASP markers were successfully developed from 284 SNPs. Overall, a set of 1225 KASP markers was produced. The markers were evenly distributed across the rice genome, with average marker density of 3.3 KASP markers per Mbp. The 1225 KASP markers will facilitate QTL/gene mapping and marker-assisted selection in temperate japonica rice breeding programs.
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- 2020
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8. High Throughput Phenotyping for Various Traits on Soybean Seeds Using Image Analysis
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JeongHo BAEK, Eungyeong Lee, Nyunhee Kim, Song Lim Kim, Inchan Choi, Hyeonso Ji, Yong Suk Chung, Man-Soo Choi, Jung-Kyung Moon, and Kyung-Hwan Kim
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rgb image ,seed morphology ,seed color ,seed traits ,breeding ,Chemical technology ,TP1-1185 - Abstract
Data phenotyping traits on soybean seeds such as shape and color has been obscure because it is difficult to define them clearly. Further, it takes too much time and effort to have sufficient number of samplings especially length and width. These difficulties prevented seed morphology to be incorporated into efficient breeding program. Here, we propose methods for an image acquisition, a data processing, and analysis for the morphology and color of soybean seeds by high-throughput method using images analysis. As results, quantitative values for colors and various types of morphological traits could be screened to create a standard for subsequent evaluation of the genotype. Phenotyping method in the current study could define the morphology and color of soybean seeds in highly accurate and reliable manner. Further, this method enables the measurement and analysis of large amounts of plant seed phenotype data in a short time, which was not possible before. Fast and precise phenotype data obtained here may facilitate Genome Wide Association Study for the gene function analysis as well as for development of the elite varieties having desirable seed traits.
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- 2020
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9. RNA-Seq of Plant-Parasitic Nematode Meloidogyne incognita at Various Stages of Its Development
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Inchan Choi, Parthiban Subramanian, Donghwan Shim, Byung-Ju Oh, and Bum-Soo Hahn
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plant parasite ,root-knot nematode ,developmental stages ,RNA-Seq ,transcriptome ,Genetics ,QH426-470 - Published
- 2017
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10. New Parameters for Seedling Vigor Developed via Phenomics
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Song Lim Kim, Yong Suk Chung, Hyeonso Ji, Hongseok Lee, Inchan Choi, Nyunhee Kim, Eungyeong Lee, Jun Oh, Do-Yu Kang, JeongHo BAEK, Gang-Seob Lee, Taek-Ryoun Kwon, and Kyung-Hwan Kim
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plant phenomics ,recombinant inbred line (RIL) ,rice ,initial growth ,QTL ,Technology ,Engineering (General). Civil engineering (General) ,TA1-2040 ,Biology (General) ,QH301-705.5 ,Physics ,QC1-999 ,Chemistry ,QD1-999 - Abstract
Early seedling establishment in rice (Oryza sativa L.), which is measured by primary/secondary tiller, shoot length, biomass, root-related traits, and leaf area index, is an important trait because it helps to compete for light, air, and water for better tolerating various abiotic stresses. Consequently, it can affect the yield. However, there are not many research studies on this subject. Furthermore, previous studies have only measured the target traits once. However, this does not reflect the variation of growth rate during the seedling stage. Thus, two data points, two weeks and four weeks after planting, were used in the current study. As a result, two QTL regions were detected for the growth differences via plant height and green area (reflecting tillering). We expect that these results can be utilized by breeders to evaluate and select vigorous seedlings for their breeding programs.
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- 2019
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11. Human Transcriptome and Chromatin Modifications: An ENCODE Perspective
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Li Shen, Inchan Choi, Eric J. Nestler, and Kyoung-Jae Won
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chromatin modification ,ENCODE ,GENCODE ,transcriptome ,Genetics ,QH426-470 - Abstract
A decade-long project, led by several international research groups, called the Encyclopedia of DNA Elements (ENCODE), recently released an unprecedented amount of data. The ambitious project covers transcriptome, cistrome, epigenome, and interactome data from more than 1,600 sets of experiments in human. To make use of this valuable resource, it is important to understand the information it represents and the techniques that were used to generate these data. In this review, we introduce the data that ENCODE generated, summarize the observations from the data analysis, and revisit a computational approach that ENCODE used to predict gene expression, with a focus on the human transcriptome and its association with chromatin modifications.
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- 2013
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12. The sequence-specific transcription factor c-Jun targets Cockayne syndrome protein B to regulate transcription and chromatin structure.
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Robert J Lake, Erica L Boetefuer, Pei-Fang Tsai, Jieun Jeong, Inchan Choi, Kyoung-Jae Won, and Hua-Ying Fan
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Genetics ,QH426-470 - Abstract
Cockayne syndrome is an inherited premature aging disease associated with numerous developmental and neurological defects, and mutations in the gene encoding the CSB protein account for the majority of Cockayne syndrome cases. Accumulating evidence suggests that CSB functions in transcription regulation, in addition to its roles in DNA repair, and those defects in this transcriptional activity might contribute to the clinical features of Cockayne syndrome. Transcription profiling studies have so far uncovered CSB-dependent effects on gene expression; however, the direct targets of CSB's transcriptional activity remain largely unknown. In this paper, we report the first comprehensive analysis of CSB genomic occupancy during replicative cell growth. We found that CSB occupancy sites display a high correlation to regions with epigenetic features of promoters and enhancers. Furthermore, we found that CSB occupancy is enriched at sites containing the TPA-response element. Consistent with this binding site preference, we show that CSB and the transcription factor c-Jun can be found in the same protein-DNA complex, suggesting that c-Jun can target CSB to specific genomic regions. In support of this notion, we observed decreased CSB occupancy of TPA-response elements when c-Jun levels were diminished. By modulating CSB abundance, we found that CSB can influence the expression of nearby genes and impact nucleosome positioning in the vicinity of its binding site. These results indicate that CSB can be targeted to specific genomic loci by sequence-specific transcription factors to regulate transcription and local chromatin structure. Additionally, comparison of CSB occupancy sites with the MSigDB Pathways database suggests that CSB might function in peroxisome proliferation, EGF receptor transactivation, G protein signaling and NF-κB activation, shedding new light on the possible causes and mechanisms of Cockayne syndrome.
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- 2014
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13. RBPJ, the major transcriptional effector of Notch signaling, remains associated with chromatin throughout mitosis, suggesting a role in mitotic bookmarking.
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Robert J Lake, Pei-Fang Tsai, Inchan Choi, Kyoung-Jae Won, and Hua-Ying Fan
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Genetics ,QH426-470 - Abstract
Mechanisms that maintain transcriptional memory through cell division are important to maintain cell identity, and sequence-specific transcription factors that remain associated with mitotic chromatin are emerging as key players in transcriptional memory propagation. Here, we show that the major transcriptional effector of Notch signaling, RBPJ, is retained on mitotic chromatin, and that this mitotic chromatin association is mediated through the direct association of RBPJ with DNA. We further demonstrate that RBPJ binds directly to nucleosomal DNA in vitro, with a preference for sites close to the entry/exit position of the nucleosomal DNA. Genome-wide analysis in the murine embryonal-carcinoma cell line F9 revealed that roughly 60% of the sites occupied by RBPJ in asynchronous cells were also occupied in mitotic cells. Among them, we found that a fraction of RBPJ occupancy sites shifted between interphase and mitosis, suggesting that RBPJ can be retained on mitotic chromatin by sliding on DNA rather than disengaging from chromatin during mitotic chromatin condensation. We propose that RBPJ can function as a mitotic bookmark, marking genes for efficient transcriptional activation or repression upon mitotic exit. Strikingly, we found that sites of RBPJ occupancy were enriched for CTCF-binding motifs in addition to RBPJ-binding motifs, and that RBPJ and CTCF interact. Given that CTCF regulates transcription and bridges long-range chromatin interactions, our results raise the intriguing hypothesis that by collaborating with CTCF, RBPJ may participate in establishing chromatin domains and/or long-range chromatin interactions that could be propagated through cell division to maintain gene expression programs.
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- 2014
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14. QTL mapping for pre-harvest sprouting resistance in japonica rice varieties utilizing genome re-sequencing
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Song Lim Kim, Young-Min Jeong, Hyun-Su Park, Inchan Choi, Nyunhee Kim, Eungyeong Lee, In Sun Yoon, Hyeonso Ji, Do-Yu Kang, Kyung-Hwan Kim, Yong Jae Won, Hyoja Oh, Jeong-Ho Baek, Kyeong-Seong Cheon, Youn-Young Lee, and Jun Oh
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0106 biological sciences ,0301 basic medicine ,inorganic chemicals ,Quantitative trait locus ,Quantitative Trait Loci ,Single-nucleotide polymorphism ,Germination ,01 natural sciences ,Genome ,Polymorphism, Single Nucleotide ,Japonica ,03 medical and health sciences ,Inbred strain ,INDEL Mutation ,Cleaved amplified polymorphic sequence ,Genetics ,Molecular Biology ,Gene ,Japonica rice ,Plant Proteins ,Pre-harvest sprouting ,biology ,Whole Genome Sequencing ,Chromosome ,food and beverages ,Chromosome Mapping ,Oryza ,General Medicine ,biology.organism_classification ,equipment and supplies ,030104 developmental biology ,bacteria ,Original Article ,Re-sequencing ,010606 plant biology & botany - Abstract
Pre-harvest sprouting (PHS) leads to serious economic losses because of reductions in yield and quality. To analyze the quantitative trait loci (QTLs) for PHS resistance in japonica rice, PHS rates on panicles were measured in 160 recombinant inbred lines (RILs) derived from a cross between the temperate japonica varieties Odae (PHS resistant) and Unbong40 (PHS susceptible) under two different environmental conditions—field (summer) and greenhouse (winter) environments. Genome re-sequencing of the parental varieties detected 266,773 DNA polymorphisms including 248,255 single nucleotide polymorphisms and 18,518 insertions/deletions. We constructed a genetic map comprising 239 kompetitive allele-specific PCR and 49 cleaved amplified polymorphic sequence markers. In the field environment, two major QTLs, qPHS-3FD and qPHS-11FD, were identified on chromosomes 3 and 11, respectively, whereas three major QTLs, qPHS-3GH, qPHS-4GH, and qPHS-11GH, were identified on chromosomes 3, 4, and 11, respectively, in the greenhouse environment. qPHS-11GH and qPHS-11FD had similar locations on chromosome 11, suggesting the existence of a gene conferring stable PHS resistance effects under different environmental conditions. The QTLs identified in this study can be used to improve the PHS resistance of japonica varieties, and they may improve our understanding of the genetic basis of PHS resistance.
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- 2020
15. Identification of the Capsicum baccatum NLR Protein CbAR9 Conferring Disease Resistance to Anthracnose
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Soohong Kim, Inchan Choi, Doil Choi, Jae Wahng Do, Kyong Sil Lee, Sang Ryeol Park, Seungmin Son, Jae Bok Yoon, Jung-Heon Han, and Jun Oh
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QH301-705.5 ,Virulence ,Nicotiana benthamiana ,Colletotrichum capsici ,Plant disease resistance ,Quantitative trait locus ,Catalysis ,Microbiology ,Inorganic Chemistry ,Physical and Theoretical Chemistry ,Biology (General) ,Molecular Biology ,Gene ,innate immunity ,QD1-999 ,Spectroscopy ,Innate immune system ,biology ,Organic Chemistry ,fungi ,food and beverages ,nucleotide-binding and leucine-rich repeat ,General Medicine ,biology.organism_classification ,Capsicum baccatum ,Computer Science Applications ,Chemistry - Abstract
Anthracnose is caused by Colletotrichum species and is one of the most virulent fungal diseases affecting chili pepper (Capsicum) yield globally. However, the noble genes conferring resistance to Colletotrichum species remain largely elusive. In this study, we identified CbAR9 as the causal locus underlying the large effect quantitative trait locus CcR9 from the anthracnose-resistant chili pepper variety PBC80. CbAR9 encodes a nucleotide-binding and leucine-rich repeat (NLR) protein related to defense-associated NLRs in several other plant species. CbAR9 transcript levels were induced dramatically after Colletotrichum capsici infection. To explore the biological function, we generated transgenic Nicotiana benthamiana lines overexpressing CbAR9, which showed enhanced resistance to C. capsici relative to wild-type plants. Transcript levels of pathogenesis-related (PR) genes increased markedly in CbAR9-overexpressing N. benthamiana plants. Moreover, resistance to anthracnose and transcript levels of PR1 and PR2 were markedly reduced in CbAR9-silenced chili pepper fruits after C. capsici infection. Our results revealed that CbAR9 contributes to innate immunity against C. capsici.
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- 2021
16. The Capsicum baccatum-Specific Truncated NLR Protein CbCN Enhances the Innate Immunity against Colletotrichum acutatum
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Sang Ryeol Park, Jae Bok Yoon, Jae Wahng Do, Jung-Heon Han, Jun Oh, Seungmin Son, Kyong Sil Lee, Inchan Choi, and Soohong Kim
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0106 biological sciences ,0301 basic medicine ,Colletotrichum acutatum ,QH301-705.5 ,Nicotiana benthamiana ,NLR Proteins ,Genetically modified crops ,Plant disease resistance ,01 natural sciences ,Catalysis ,Inorganic Chemistry ,03 medical and health sciences ,Colletotrichum ,Gene silencing ,Biology (General) ,Physical and Theoretical Chemistry ,QD1-999 ,Molecular Biology ,Gene ,Capsicum baccatum ,Spectroscopy ,Disease Resistance ,Plant Diseases ,Genetics ,biology ,Communication ,Organic Chemistry ,fungi ,food and beverages ,nucleotide-binding and leucine-rich repeat ,General Medicine ,anthracnose resistance ,NPR1 ,biology.organism_classification ,Computer Science Applications ,Chemistry ,030104 developmental biology ,Host-Pathogen Interactions ,Disease Susceptibility ,Capsicum ,010606 plant biology & botany - Abstract
Chili pepper (Capsicumannuum) is an important fruit and spice used globally, but its yield is seriously threatened by anthracnose. Capsicum baccatum is particularly valuable as it carries advantageous disease resistance genes. However, most of the genes remain to be identified. In this study, we identified the C. baccatum-specific gene CbCN, which encodes a truncated nucleotide-binding and leucine-rich repeat protein in the anthracnose resistant chili pepper variety PBC80. The transcription of CbCN was greater in PBC80 than it was in the susceptible variety An-S after Colletotrichum acutatum inoculation. In order to investigate the biological function of CbCN, we generated transgenic tobacco lines constitutively expressing CbCN. Notably, CbCN-overexpressing transgenic plants exhibited enhanced resistance to C. acutatum compared to wild-type plants. Moreover, the expression of pathogenesis-related (PR) genes was remarkably increased in a CbCN-overexpressing tobacco plants. In order to confirm these results in chili pepper, we silenced the CbCN gene using the virus-induced gene silencing system. The anthracnose resistance and expressions of PR1, PR2, and NPR1 were significantly reduced in CbCN-silenced chili peppers after C. acutatum inoculations. These results indicate that CbCN enhances the innate immunity against anthracnose caused by C. acutatum by regulating defense response genes.
- Published
- 2021
17. Mutations in the microRNA172 binding site of SUPERNUMERARY BRACT (SNB) suppress internode elongation in rice
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Song Lim Kim, Do-Yu Kang, Gang-Seob Lee, Chang-deok Han, Kyung-Hwan Kim, Ki-Hong Jung, Hyeonso Ji, Jeong-Ho Baek, Kyeong-Seong Cheon, Inchan Choi, Jun Oh, and Hyoja Oh
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Mutation ,Bract ,Mutant ,Soil Science ,Plant Science ,Biology ,lcsh:Plant culture ,medicine.disease_cause ,Phenotype ,Internode elongation ,Cell biology ,chemistry.chemical_compound ,chemistry ,Cytokinin ,medicine ,Gibberellin ,Original Article ,lcsh:SB1-1110 ,Rice ,SNB ,Agronomy and Crop Science ,Gene ,Plant stem ,microRNA172 - Abstract
Background Internode elongation is an important agronomic trait in rice that determines culm length, which is related to lodging, panicle exsertion, and biomass. sui4 (shortened uppermost internode 4) mutants show reduced internode length and a dwarf phenotype due to shortened internodes; the uppermost internode is particularly severely affected. The present study was performed to identify the molecular nature and function of the SUI4 gene during internode elongation. Results Our previous study showed that the SUI4 gene was mapped to a 1.1-Mb interval on chromosome 7 (Ji et al. 2014). In order to isolate the gene responsible for the sui4 phenotype, genomic DNA resequencing of sui4 mutants and wild-type plants and reciprocal transformation of wild-type and mutant alleles of the putative SUI4 gene was performed. The data revealed that the causative mutation of sui4 was a T to A nucleotide substitution at the microRNA172 binding site of Os07g0235800, and that SUI4 is a new allele of the previously reported gene SUPERNUMERARY BRACT (SNB), which affects flower structure. In order to understand the effect of this mutation on expression of the SUI4/SNB gene, SUI4/SNB native promoter-fuzed GUS transgenics were examined, along with qRT-PCR analysis at various developmental stages. In sui4 mutants, the SUI4/SNB gene was upregulated in the leaves, culms, and panicles, especially when internodes were elongated. In culms, SUI4/SNB was expressed in the nodes and the lower parts of elongating internodes. In order to further explore the molecular nature of SUI4/SNB during internode elongation, RNA-seq and qRT-PCR analysis were performed with RNAs from the culms of sui4 mutants and wild-type plants in the booting stage. The data showed that in sui4 mutants, genes deactivating bioactive gibberellins and cytokinin were upregulated while genes related to cell expansion and cell wall synthesis were downregulated. Conclusion In summary, this paper shows that interaction between SUI4/SNB and microRNA172 could determine internode elongation during the reproductive stage in rice plants. Due to a mutation at the microRNA172 binding site in sui4 mutants, the expression of SUI4/SNB was enhanced, which lowered the activities of cell expansion and cell wall synthesis and consequently resulted in shortened internodes. Electronic supplementary material The online version of this article (10.1186/s12284-019-0324-8) contains supplementary material, which is available to authorized users.
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- 2019
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18. High Throughput Phenotyping for Various Traits on Soybean Seeds Using Image Analysis
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Man Soo Choi, Song Lim Kim, Yong Suk Chung, Jeong-Ho Baek, Inchan Choi, Eungyeong Lee, Hyeonso Ji, Nyunhee Kim, Kyung-Hwan Kim, and Jung-Kyung Moon
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0106 biological sciences ,Breeding program ,Genotype ,seed traits ,Quantitative Trait Loci ,Biosensing Techniques ,Biology ,lcsh:Chemical technology ,01 natural sciences ,Biochemistry ,Rgb image ,Article ,Analytical Chemistry ,03 medical and health sciences ,Image acquisition ,Humans ,lcsh:TP1-1185 ,Electrical and Electronic Engineering ,Instrumentation ,Throughput (business) ,030304 developmental biology ,0303 health sciences ,seed morphology ,food and beverages ,Phenotype ,Atomic and Molecular Physics, and Optics ,High-Throughput Screening Assays ,Function analysis ,breeding ,Seeds ,Soybeans ,Biological system ,RGB image ,seed color ,010606 plant biology & botany - Abstract
Data phenotyping traits on soybean seeds such as shape and color has been obscure because it is difficult to define them clearly. Further, it takes too much time and effort to have sufficient number of samplings especially length and width. These difficulties prevented seed morphology to be incorporated into efficient breeding program. Here, we propose methods for an image acquisition, a data processing, and analysis for the morphology and color of soybean seeds by high-throughput method using images analysis. As results, quantitative values for colors and various types of morphological traits could be screened to create a standard for subsequent evaluation of the genotype. Phenotyping method in the current study could define the morphology and color of soybean seeds in highly accurate and reliable manner. Further, this method enables the measurement and analysis of large amounts of plant seed phenotype data in a short time, which was not possible before. Fast and precise phenotype data obtained here may facilitate Genome Wide Association Study for the gene function analysis as well as for development of the elite varieties having desirable seed traits.
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- 2020
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19. Expression and functional validation of heat-labile enterotoxin B (LTB) and cholera toxin B (CTB) subunits in transgenic rice (Oryza sativa)
- Author
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In-Sik Chung, Young Hee Han, Gee Young Lee, Bum-Soo Hahn, Jong-Hwa Park, Hyun Ju Lee, Hemavathi Ajjappala, Kyoungok Jang, Jae Wook Lim, Joon-Soo Sim, Ho Seob Soh, Ha Young Chung, Hyun Ho Lee, and Inchan Choi
- Subjects
Multidisciplinary ,medicine.diagnostic_test ,Immunogenicity ,Research ,Cholera toxin ,food and beverages ,Oryza sativa ,Enterotoxin ,Biology ,Heat-labile enterotoxin ,medicine.disease_cause ,complex mixtures ,Microbiology ,Western blot ,Vibrio cholerae ,Enterotoxigenic Escherichia coli ,embryonic structures ,medicine ,Oral vaccine ,Transgenic plant ,Escherichia coli - Abstract
We expressed the heat-labile enterotoxin B (LTB) subunit from enterotoxigenic Escherichia coli and the cholera toxin B (CTB) subunit from Vibrio cholerae under the control of the rice (Oryza sativa) globulin (Glb) promoter. Binding of recombinant LTB and CTB proteins was confirmed based on GM1-ganglioside binding enzyme-linked immunosorbent assays (GM1-ELISA). Real-time PCR of three generations (T3, T4, and T5) in homozygous lines (LCI-11) showed single copies of LTB, CTB, bar and Tnos. LTB and CTB proteins in rice transgenic lines were detected by Western blot analysis. Immunogenicity trials of rice-derived CTB and LTB antigens were evaluated through oral and intraperitoneal administration in mice, respectively. The results revealed that LTB- and CTB-specific IgG levels were enhanced in the sera of intraperitoneally immunized mice. Similarly, the toxin-neutralizing activity of CTB and LTB in serum of orally immunized mice was associated with elevated levels of both IgG and IgA. The results of the present study suggest that the combined expression of CTB and LTB proteins can be utilized to produce vaccines against enterotoxigenic strains of Escherichia coli and Vibrio cholera, for the prevention of diarrhea.
- Published
- 2015
20. The sequence-specific transcription factor c-Jun targets Cockayne syndrome protein B to regulate transcription and chromatin structure
- Author
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Pei-Fang Tsai, Kyoung-Jae Won, Jieun Jeong, Erica L. Boetefuer, Inchan Choi, Hua-Ying Fan, and Robert J. Lake
- Subjects
Premature aging ,musculoskeletal diseases ,Cancer Research ,congenital, hereditary, and neonatal diseases and abnormalities ,Transcription, Genetic ,lcsh:QH426-470 ,Proto-Oncogene Proteins c-jun ,Biology ,Biochemistry ,Cockayne syndrome ,Cell Line ,GTP-Binding Proteins ,Molecular Cell Biology ,medicine ,Genetics ,Humans ,Enhancer ,Poly-ADP-Ribose Binding Proteins ,Promoter Regions, Genetic ,Molecular Biology ,Transcription factor ,Genetics (clinical) ,Ecology, Evolution, Behavior and Systematics ,Regulation of gene expression ,Receptor transactivation ,DNA Helicases ,NF-kappa B ,Biology and Life Sciences ,nutritional and metabolic diseases ,Promoter ,Cell Biology ,Genomics ,medicine.disease ,Chromatin ,ErbB Receptors ,lcsh:Genetics ,DNA Repair Enzymes ,Transcription Factors ,Research Article - Abstract
Cockayne syndrome is an inherited premature aging disease associated with numerous developmental and neurological defects, and mutations in the gene encoding the CSB protein account for the majority of Cockayne syndrome cases. Accumulating evidence suggests that CSB functions in transcription regulation, in addition to its roles in DNA repair, and those defects in this transcriptional activity might contribute to the clinical features of Cockayne syndrome. Transcription profiling studies have so far uncovered CSB-dependent effects on gene expression; however, the direct targets of CSB's transcriptional activity remain largely unknown. In this paper, we report the first comprehensive analysis of CSB genomic occupancy during replicative cell growth. We found that CSB occupancy sites display a high correlation to regions with epigenetic features of promoters and enhancers. Furthermore, we found that CSB occupancy is enriched at sites containing the TPA-response element. Consistent with this binding site preference, we show that CSB and the transcription factor c-Jun can be found in the same protein-DNA complex, suggesting that c-Jun can target CSB to specific genomic regions. In support of this notion, we observed decreased CSB occupancy of TPA-response elements when c-Jun levels were diminished. By modulating CSB abundance, we found that CSB can influence the expression of nearby genes and impact nucleosome positioning in the vicinity of its binding site. These results indicate that CSB can be targeted to specific genomic loci by sequence-specific transcription factors to regulate transcription and local chromatin structure. Additionally, comparison of CSB occupancy sites with the MSigDB Pathways database suggests that CSB might function in peroxisome proliferation, EGF receptor transactivation, G protein signaling and NF-κB activation, shedding new light on the possible causes and mechanisms of Cockayne syndrome., Author Summary Cockayne syndrome is a devastating inherited disease, in which patients appear to age prematurely, have sun sensitivity and suffer from profound neurological and developmental defects. Mutations in the CSB gene account for the majority of Cockayne syndrome cases. CSB is an ATP-dependent chromatin remodeler, and these proteins can use energy from ATP-hydrolysis to alter contacts between DNA and histones of a nucleosome, the basic units of chromatin structure. CSB functions in DNA repair, but accumulating evidence reveals that CSB also functions in transcription regulation. Here, we determined the genomic localization of CSB to identify its gene targets and found that CSB occupancy displays high correlation to regions with epigenetic features of promoters and enhancers. Furthermore, CSB is enriched at genomic regions containing the binding site for the c-Jun transcription factor, and we found that these two proteins interact, uncovering a new targeting mechanism for CSB. We also demonstrate that CSB can influence gene expression in the vicinity of its binding sites and alter local chromatin structure. Together, this study supports the hypothesis that defects in the regulation of gene expression and chromatin structure by CSB might contribute to the diverse clinical features of Cockayne syndrome.
- Published
- 2014
21. Proteogenomics analysis reveals specific genomic orientations of distal regulatory regions composed by non-canonical histone variants.
- Author
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Kyoung-Jae Won, Inchan Choi, LeRoy, Gary, Zee, Barry M., Sidoli, Simone, Gonzales-Cope, Michelle, and Garcia, Benjamin A.
- Subjects
- *
HISTONES , *GENE expression , *CHROMATIN , *IMMUNOPRECIPITATION , *EPIGENETICS , *MASS spectrometry , *RNA polymerase II - Abstract
Background: Histone variants play further important roles in DNA packaging and controlling gene expression. However, our understanding about their composition and their functions is limited. Results: Integrating proteomic and genomic approaches, we performed a comprehensive analysis of the epigenetic landscapes containing the four histone variants H3.1, H3.3, H2A.Z, and macroH2A. These histones were FLAG-tagged in HeLa cells and purified using chromatin immunoprecipitation (ChIP). By adopting ChIP followed by mass spectrometry (ChIP-MS), we quantified histone post-translational modifications (PTMs) and histone variant nucleosomal ratios in highly purified mononucleosomes. Subsequent ChIP followed by next-generation sequencing (ChIP-seq) was used to map the genome-wide localization of the analyzed histone variants and define their chromatin domains. Finally, we included in our study large datasets contained in the ENCODE database. We newly identified a group of regulatory regions enriched in H3.1 and the histone variant associated with repressive marks macroH2A. Systematic analysis identified both symmetric and asymmetric patterns of histone variant occupancies at intergenic regulatory regions. Strikingly, these directional patterns were associated with RNA polymerase II (PolII). These asymmetric patterns correlated with the enhancer activities measured using global run-on sequencing (GRO-seq) data. Conclusions: Our studies show that H2A.Z and H3.3 delineate the orientation of transcription at enhancers as observed at promoters. We also showed that enhancers with skewed histone variant patterns well facilitate enhancer activity. Collectively, our study indicates that histone variants are deposited at regulatory regions to assist gene regulation. [ABSTRACT FROM AUTHOR]
- Published
- 2015
- Full Text
- View/download PDF
22. 5-hydroxymethylcytosine represses the activity of enhancers in embryonic stem cells: a new epigenetic signature for gene regulation.
- Author
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Inchan Choi, Rinho Kim, Hee-Woong Lim, Kaestner, Klaus H, and Kyoung-Jae Won
- Abstract
Background: Recent mapping of 5-hydroxymethylcytosine (5hmC) provides a genome-wide view of the distribution of this important chromatin mark. However, the role of 5hmC in specific regulatory regions is not clear, especially at enhancers. Results: We found a group of distal transcription factor binding sites highly enriched for 5-hdroxymethylcytosine (5hmC), but lacking any known activating histone marks and being depleted for nascent transcripts, suggesting a repressive role for 5hmC in mouse embryonic stem cells (mESCs). 5-formylcytosine (5fC), which is known to mark poised enhancers where H3K4me1 is enriched, is also observed at these sites. Furthermore, the 5hmC levels were inversely correlated with RNA polymerase II (PolII) occupancy in mESCs as well as in fully differentiated adipocytes. Interestingly, activating H3K4me1/2 histone marks were enriched at these sites when the associated genes become activated following lineage specification. These putative enhancers were shown to be functional in embryonic stem cells when unmethylated. Together, these data suggest that 5hmC suppresses the activity of this group of enhancers, which we termed “silenced enhancers”. Conclusions: Our findings indicate that 5hmC has a repressive role at specific proximal and distal regulatory regions in mESCs, and suggest that 5hmC is a new epigenetic mark for silenced enhancers. [ABSTRACT FROM AUTHOR]
- Published
- 2014
- Full Text
- View/download PDF
23. Epigenetic Regulation of the DLK1-MEG3 MicroRNA Cluster in Human Type 2 Diabetic Islets
- Author
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Lindsay B. McKenna, Vasumathi Kameswaran, Jonathan Schug, Nuria C. Bramswig, Joshua R. Friedman, Klaus H. Kaestner, Kumar Vivek, Inchan Choi, Kyoung-Jae Won, Anastassios Vourekas, Nicholas J. Hand, Melinda Penn, Chengyang Liu, Ying Chen, and Ali Naji
- Subjects
Adult ,Male ,endocrine system diseases ,Physiology ,Molecular Sequence Data ,Down-Regulation ,Biology ,Article ,Epigenesis, Genetic ,Genomic Imprinting ,Islets of Langerhans ,Young Adult ,Downregulation and upregulation ,Insulin-Secreting Cells ,microRNA ,medicine ,Humans ,RNA, Messenger ,Epigenetics ,Promoter Regions, Genetic ,Molecular Biology ,Chromosomes, Human, Pair 14 ,MEG3 ,Base Sequence ,Gene Expression Profiling ,Calcium-Binding Proteins ,Membrane Proteins ,Cell Biology ,Middle Aged ,Argonaute ,Molecular biology ,3. Good health ,MicroRNAs ,medicine.anatomical_structure ,Diabetes Mellitus, Type 2 ,DNA methylation ,Cancer research ,Intercellular Signaling Peptides and Proteins ,Female ,RNA, Long Noncoding ,Pancreas ,Genomic imprinting - Abstract
SummaryType 2 diabetes mellitus (T2DM) is a complex disease characterized by the inability of the insulin-producing β cells in the endocrine pancreas to overcome insulin resistance in peripheral tissues. To determine if microRNAs are involved in the pathogenesis of human T2DM, we sequenced the small RNAs of human islets from diabetic and nondiabetic organ donors. We identified a cluster of microRNAs in an imprinted locus on human chromosome 14q32 that is highly and specifically expressed in human β cells and dramatically downregulated in islets from T2DM organ donors. The downregulation of this locus strongly correlates with hypermethylation of its promoter. Using HITS-CLIP for the essential RISC-component Argonaute, we identified disease-relevant targets of the chromosome 14q32 microRNAs, such as IAPP and TP53INP1, that cause increased β cell apoptosis upon overexpression in human islets. Our results support a role for microRNAs and their epigenetic control by DNA methylation in the pathogenesis of T2DM.
- Full Text
- View/download PDF
24. Proteogenomics analysis reveals specific genomic orientations of distal regulatory regions composed by non-canonical histone variants
- Author
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Kyoung-Jae Won, Barry M. Zee, Benjamin A. Garcia, Michelle Gonzales-Cope, Gary LeRoy, Inchan Choi, and Simone Sidoli
- Subjects
Genetics ,Regulation of gene expression ,biology ,Methodology ,RNA polymerase II ,Chromatin ,Histone ,Regulatory sequence ,biology.protein ,Epigenetics ,Enhancer ,Chromatin immunoprecipitation ,Molecular Biology - Abstract
Background Histone variants play further important roles in DNA packaging and controlling gene expression. However, our understanding about their composition and their functions is limited. Results Integrating proteomic and genomic approaches, we performed a comprehensive analysis of the epigenetic landscapes containing the four histone variants H3.1, H3.3, H2A.Z, and macroH2A. These histones were FLAG-tagged in HeLa cells and purified using chromatin immunoprecipitation (ChIP). By adopting ChIP followed by mass spectrometry (ChIP-MS), we quantified histone post-translational modifications (PTMs) and histone variant nucleosomal ratios in highly purified mononucleosomes. Subsequent ChIP followed by next-generation sequencing (ChIP-seq) was used to map the genome-wide localization of the analyzed histone variants and define their chromatin domains. Finally, we included in our study large datasets contained in the ENCODE database. We newly identified a group of regulatory regions enriched in H3.1 and the histone variant associated with repressive marks macroH2A. Systematic analysis identified both symmetric and asymmetric patterns of histone variant occupancies at intergenic regulatory regions. Strikingly, these directional patterns were associated with RNA polymerase II (PolII). These asymmetric patterns correlated with the enhancer activities measured using global run-on sequencing (GRO-seq) data. Conclusions Our studies show that H2A.Z and H3.3 delineate the orientation of transcription at enhancers as observed at promoters. We also showed that enhancers with skewed histone variant patterns well facilitate enhancer activity. Collectively, our study indicates that histone variants are deposited at regulatory regions to assist gene regulation. Electronic supplementary material The online version of this article (doi:10.1186/s13072-015-0005-9) contains supplementary material, which is available to authorized users.
- Full Text
- View/download PDF
25. Epigenetic regulation of intestinal stem cells by Tet1-mediated DNA hydroxymethylation.
- Author
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Rinho Kim, Sheaffer, Karyn L., Inchan Choi, Kyoung-Jae Won, and Kaestner, Klaus H.
- Subjects
- *
EPIGENETICS , *STEM cells , *CYTOSINE , *DNA methylation , *GENE silencing , *CHROMOSOMAL translocation , *LABORATORY mice - Abstract
Methylated cytosines are associated with gene silencing. The ten-eleven translocation (TET) hydroxylases, which oxidize methylated cytosines to 5-hydroxymethylcytosine (5hmC), are essential for cytosine demethylation. Gene silencing and activation are critical for intestinal stem cell (ISC) maintenance and differentiation, but the potential role of TET hydroxylases in these processes has not yet been examined. Here, we generated genome-wide maps of the 5hmC mark in ISCs and their differentiated progeny. Genes with high levels of hydroxymethylation in ISCs are strongly associated with Wnt signaling and developmental processes. We found Tet1 to be the most abundantly expressed Tet gene in ISCs; therefore, we analyzed intestinal development in Tet1-deficient mice and determined that these mice are growth-retarded, exhibit partial postnatal lethality, and have significantly reduced numbers of proliferative cells in the intestinal epithelium. In addition, the Tet1-deficient intestine displays reduced organoid-forming capacity. In the Tet1-deficient crypt, decreased expression of Wnt target genes such as Axin2 and Lgr5 correlates with lower 5hmC levels at their promoters. These data demonstrate that Tet1-mediated DNA hydroxymethylation plays a critical role in the epigenetic regulation of the Wnt pathway in intestinal stem and progenitor cells and consequently in the self-renewal of the intestinal epithelium. [ABSTRACT FROM AUTHOR]
- Published
- 2016
- Full Text
- View/download PDF
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