Notice: Private records are filtered that would not be displayed.
Sort:
  • OEZ_Yidi_2310201103

    Yidi Sun, , 2023.10.20

    Analysis type

    Other

    OEZ014368

  • test

    development NODE, , 2023.01.13

    Analysis type

    De Novo Assembly

    OEZ013235

  • variation

    node_dev node_dev, , 2020.02.28

    Analysis type

    Other

    OEZ005406

  • test analysis data security

    development NODE, , 2023.10.09

    Description

    test analysis data security

    Analysis type

    De Novo Assembly

    OEZ014366

  • OEZ_Yuanhu_2306131232

    Yuanhu Ju, , 2023.06.13

    Analysis type

    De Novo Assembly

    OEZ014104

  • OEZ_development_2211091551

    development NODE, , 2022.11.09

    Analysis type

    Other

    OEZ013176

  • ljy_Arcobacteraceae_MAGs_from_wood-falls_20230921

    Jianyang Li, , 2023.09.21

    Description

    Arcobacteraceae MAGs were obtained from wood-falls (Kalenitchenko, D., Dupraz, M., Le Bris, N., Petetin, C., Rose, C., West, N. J.Galand, P. E. (2016) Ecological succession leads to chemosynthesis in mats colonizing wood in sea water. The ISME journal. 10, 2246-2258.;Kalenitchenko, D., Le Bris, N., Dadaglio, L., Peru, E., Besserer, A.Galand, P. E. (2017) Bacteria alone establish the chemical basis of the wood-fall chemosynthetic ecosystem in the deep-sea. The ISME journal. 12, 367-379.). These were reassembled in this study using MetaSPAdes v3.13.0 with the settings “-k 21,33,55”.

    Analysis type

    De Novo Assembly

    OEZ014276

  • ljy_Arcobacteraceae_MAGs_from_63samples_ALOHA_20230921

    Jianyang Li, , 2023.09.21

    Description

    249 of MAGs were obtained from the 63 metagenomic data of sinking particulate organic matter collected by sediment traps at abyssal depths at ALOHA (Boeuf, D., Edwards, B. R., Eppley, J. M., Hu, S. K., Poff, K. E., Romano, A. E., Caron, D. A., Karl, D. M.DeLong, E. F. (2019) Biological composition and microbial dynamics of sinking particulate organic matter at abyssal depths in the oligotrophic open ocean. Proceedings of the National Academy of Sciences. 116, 11824-11832.). These were reassembled in this study using MetaSPAdes v3.13.0 with the settings “-k 21,33,55”.

    Analysis type

    De Novo Assembly

    OEZ014275

  • OEZ_Ming_2212062343

    Ming Li, , 2022.12.06

    Description

    IgA nephropathy (IgAN) is a major cause of kidney failure worldwide. Here we investigated the contribution of genome-wide protein coding variants to IgAN risk by performing a three-stage exome chip-based association study in 8,529 IgAN patients and 23,224 healthy controls of Han Chinese ancestry. We discovered a novel rare nonsynonymous risk variant in VEGFA, and further sequencing of VEGFA revealed twice as many carriers of other rare variants in 2,148 IgAN cases compared to 2,732 controls. We also discovered a common nonsynonymous risk variant in PKD1L3, and the variant was shown to be associated with nearby HP gene expression and lower protein level by previous and current studies. However, a common loss-of-function mutation of PKD1L3 did not show any association, suggesting that HP is more likely to be a susceptibility gene for IgAN. Our discovery of VEGFA and HP has expanded understanding on the genetic basis of IgAN susceptibility.

    Analysis type

    Other

    OEZ013225

  • Processing

    Guangdun Peng, , 2022.11.01

    Analysis type

    Other

    OEZ013173