研究者業績

大田 達郎

オオタ タツロウ  (Tazro Ohta)

基本情報

所属
千葉大学 国際高等研究基幹 准教授
特定国立研究開発法人理化学研究所 情報統合本部 客員研究員
国立遺伝学研究所 生命情報・DDBJ研究センター 特命准教授
(兼任)データサイエンス共同利用基盤施設 ライフサイエンス統合データベースセンター 客員准教授
学位
博士(理学)(2019年3月 総合研究大学院大学)

研究者番号
20625355
ORCID ID
 https://orcid.org/0000-0003-3777-5945
J-GLOBAL ID
202101013476683597
researchmap会員ID
R000031083

主要な論文

 32
  • Hirotaka Suetake, Tsukasa Fukusato, Takeo Igarashi, Tazro Ohta
    GigaScience 12 2023年5月8日  
  • Hirotaka Suetake, Tsukasa Fukusato, Takeo Igarashi, Tazro Ohta
    GigaScience 2023年2月22日  
  • Zhaonan Zou, Tazro Ohta, Fumihito Miura, Shinya Oki
    Nucleic acids research 2022年3月24日  
    ChIP-Atlas (https://chip-atlas.org) is a web service providing both GUI- and API-based data-mining tools to reveal the architecture of the transcription regulatory landscape. ChIP-Atlas is powered by comprehensively integrating all data sets from high-throughput ChIP-seq and DNase-seq, a method for profiling chromatin regions accessible to DNase. In this update, we further collected all the ATAC-seq and whole-genome bisulfite-seq data for six model organisms (human, mouse, rat, fruit fly, nematode, and budding yeast) with the latest genome assemblies. These together with ChIP-seq data can be visualized with the Peak Browser tool and a genome browser to explore the epigenomic landscape of a query genomic locus, such as its chromatin accessibility, DNA methylation status, and protein-genome interactions. This epigenomic landscape can also be characterized for multiple genes and genomic loci by querying with the Enrichment Analysis tool, which, for example, revealed that inflammatory bowel disease-associated SNPs are the most significantly hypo-methylated in neutrophils. Therefore, ChIP-Atlas provides a panoramic view of the whole epigenomic landscape. All datasets are free to download via either a simple button on the web page or an API.
  • Shinya Oki, Tazro Ohta, Go Shioi, Hideki Hatanaka, Osamu Ogasawara, Yoshihiro Okuda, Hideya Kawaji, Ryo Nakaki, Jun Sese, Chikara Meno
    EMBO reports 19(12) 2018年12月9日  
    We have fully integrated public chromatin chromatin immunoprecipitation sequencing (ChIP-seq) and DNase-seq data (n > 70,000) derived from six representative model organisms (human, mouse, rat, fruit fly, nematode, and budding yeast), and have devised a data-mining platform-designated ChIP-Atlas (). ChIP-Atlas is able to show alignment and peak-call results for all public ChIP-seq and DNase-seq data archived in the NCBI Sequence Read Archive (SRA), which encompasses data derived from GEO, ArrayExpress, DDBJ, ENCODE, Roadmap Epigenomics, and the scientific literature. All peak-call data are integrated to visualize multiple histone modifications and binding sites of transcriptional regulators (TRs) at given genomic loci. The integrated data can be further analyzed to show TR-gene and TR-TR interactions, as well as to examine enrichment of protein binding for given multiple genomic coordinates or gene names. ChIP-Atlas is superior to other platforms in terms of data number and functionality for data mining across thousands of ChIP-seq experiments, and it provides insight into gene regulatory networks and epigenetic mechanisms.
  • Tazro Ohta, Takeshi Kawashima, Natsuko O. Shinozaki, Akito Dobashi, Satoshi Hiraoka, Tatsuhiko Hoshino, Keiichi Kanno, Takafumi Kataoka, Shuichi Kawashima, Motomu Matsui, Wataru Nemoto, Suguru Nishijima, Natsuki Suganuma, Haruo Suzuki, Y-h. Taguchi, Yoichi Takenaka, Yosuke Tanigawa, Momoka Tsuneyoshi, Kazutoshi Yoshitake, Yukuto Sato, Riu Yamashita, Kazuharu Arakawa, Wataru Iwasaki
    Journal of Plant Research 131(4) 709-717 2018年7月19日  
    Recent studies have shown that environmental DNA is found almost everywhere. Flower petal surfaces are an attractive tissue to use for investigation of the dispersal of environmental DNA in nature as they are isolated from the external environment until the bud opens and only then can the petal surface accumulate environmental DNA. Here, we performed a crowdsourced experiment, the "Ohanami Project", to obtain environmental DNA samples from petal surfaces of Cerasus × yedoensis 'Somei-yoshino' across the Japanese archipelago during spring 2015. C. × yedoensis is the most popular garden cherry species in Japan and clones of this cultivar bloom simultaneously every spring. Data collection spanned almost every prefecture and totaled 577 DNA samples from 149 collaborators. Preliminary amplicon-sequencing analysis showed the rapid attachment of environmental DNA onto the petal surfaces. Notably, we found DNA of other common plant species in samples obtained from a wide distribution; this DNA likely originated from the pollen of the Japanese cedar. Our analysis supports our belief that petal surfaces after blossoming are a promising target to reveal the dynamics of environmental DNA in nature. The success of our experiment also shows that crowdsourced environmental DNA analyses have considerable value in ecological studies.

書籍等出版物

 10

講演・口頭発表等

 16