[1] |
Delaunay S, Pascual G, Feng BH, Klann K, Behm M, Hotz-Wagenblatt A, Richter K, Zaoui K, Herpel E, Münch C, Dietmann S, Hess J, Benitah SA, Frye M. Mitochondrial RNA modifications shape metabolic plasticity in metastasis. Nature, 2022, 607(7919): 593-603.
|
[2] |
Li R, Zhao HZ, Huang XD, Zhang JL, Bai RH, Zhuang LS, Wen SJ, Wu SJ, Zhou QB, Li M, Zeng LX, Zhang SP, Deng S, Su JC, Zuo ZX, Chen RF, Lin DX, Zheng J. Super-enhancer RNA m6A promotes local chromatin accessibility and oncogene transcription in pancreatic ductal adenocarcinoma. Nat Genet, 2023, 55(12): 2224-2234.
|
[3] |
Delaunay S, Helm M, Frye M. RNA modifications in physiology and disease: towards clinical applications. Nat Rev Genet, 2024, 25(2): 104-122.
|
[4] |
Jain M, Abu-Shumays R, Olsen HE, Akeson M. Advances in nanopore direct RNA sequencing. Nat Methods, 2022, 19(10): 1160-1164.
doi: 10.1038/s41592-022-01633-w
pmid: 36203024
|
[5] |
Dorey A, Howorka S. Nanopore DNA sequencing technologies and their applications towards single-molecule proteomics. Nat Chem, 2024, 16(3): 314-334.
|
[6] |
Ying YL, Hu ZL, Zhang SL, Qing YJ, Fragasso A, Maglia G, Meller A, Bayley H, Dekker C, Long YT. Nanopore- based technologies beyond DNA sequencing. Nature Nanotechnol, 2022, 17(11): 1136-1146.
|
[7] |
Wang J, Chew BLA, Lai Y, Dong HP, Xu L, Liu Y, Fu XY, Lin ZG, Shi PY, Lu TK, Luo DH, Jaffrey SR, Dedon PC. A systems-level mass spectrometry-based technique for accurate and sensitive quantification of the RNA cap epitranscriptome. Nat Protoc, 2023, 18(9): 2671-2698.
doi: 10.1038/s41596-023-00857-0
pmid: 37567932
|
[8] |
Zhang Y, Lu L, Li XY. Detection technologies for RNA modifications. Exp Mol Med, 2022, 54(10): 1601-1616.
doi: 10.1038/s12276-022-00821-0
pmid: 36266445
|