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Principles and innovative technologies for decrypting noncoding RNAs: from discovery and functional prediction to clinical application

机译：解密Noncoding RNA的原理和创新技术：从发现和功能预测到临床应用

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摘要

Principle for novel ncRNA discovery. a Identification and classification of ncRNAs based on chromatin signatures. Most mRNA-like lincRNAs are generated from genomic regions with H3K4me3/H3K36me3 signatures; eRNAs originate from activated enhancers with H3K4me1/H3K27ac signatures; the junction site sequences of circSTATB1 were reverse transcribed and inserted into an enhancer with active H3K4me1 signatures. b Sno-lncRNAs maintain their stability by their classical stem-loop structures of snoRNAs. c Alternative splicing within circRNAs. d A number of novel small ncRNAs derived from rRNAs (rRFs), tRNAs (tsRNAs), and snoRNAs (sdRNAs) have also been found to be enriched in RNA-induced silencing complexes (RISCs) and function in a miRNA-like pathway

机译：新型NCRNA发现原则。基于染色质签名的NCRNA的鉴定与分类。大多数mRNA的Lincrnas是从带有H3K4ME3 / H3K36ME3签名的基因组区域产生的; ernas源自H3K4ME1 / H3K27AC签名的激活增强剂; Circstatb1的结位点序列逆转录并插入增强剂中，具有活性H3K4ME1签名。 B Sno-LNCRNA通过他们的古典茎环结构保持稳定性的Snornas。 C Circrnas内的C替代拼接。 d还发现了衍生自RRNA（RRF），TrNAS（TSRNA）和Snornas（SDRNA）的多种新的小NCRNA在RNA诱导的沉默复合物（RISC）中富集，并在miRNA样途径中富集

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期刊名称 Journal of Hematology Oncology
作者
Yu-Meng Sun; Yue-Qin Chen;
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作者单位

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年(卷),期 2020(-1),-1
年度 2020
页码 -1
总页数 27
原文格式 PDF
正文语种
中图分类肿瘤学;血液学检验;
关键词

机译：新型NCRNA;测序技术;功能性NCRNA发现;亚细胞定位;NCRNA数据库;诊断套件;

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1. Long and noncoding RNAs (Inc-RNAs) determine androgen receptor dependent gene expression in prostate cancer growth in vivo [J] . Richard G Pestell, Zuoren Yu 亚洲男性学杂志（英文版） . 2014,第002期
2. Neuroprotective effects of long noncoding RNAs involved in ischemic postconditioning after ischemic stroke [J] . Wei Ma, Kuang-Pin Liu, Yu Liang, 中国神经再生研究（英文版） . 2022,第006期
3. Identification and functional prediction of long intergenic noncoding RNAs in fetal porcine longissimus dorsi muscle [J] . LI Cen-cen, YU Shu-long, REN Hai-feng, 农业科学学报（英文版） . 2021,第001期
4. Guanosine-5′-triphosphate cyclohydrolase 1 regulated long noncoding RNAs are potential targets for microglial activation in neuropathic pain [J] . Yan-Hu Liang, Guo-Wu Chen, Xue-Song Li, 中国神经再生研究（英文版） . 2021,第003期
5. Structure Prediction: New Insights into Decrypting Long Noncoding RNAs [J] . Kun Yan, Yasir Arfat, Dijie Li, International Journal of Molecular Sciences . 2016,第1期

机译：结构预测：解密长非编码RNA的新见解
6. Decrypting noncoding RNA interactions, structures, and functional networks [J] . Fabbri Muller, Girnita Leonard, Varani Gabriele, Genome research . 2019,第9期

机译：解密非分量RNA相互作用，结构和功能网络
7. Can Population Modelling Principles be Used to Identify Key PBPK Parameters for Paediatric Clearance Predictions? An Innovative Application of Optimal Design Theory [J] . Calvier Elisa A. M., Thu Thuy Nguyen, Johnson Trevor N., Pharmaceutical research . 2018,第11期

机译：人口建模原则是否可以用于识别儿科清除预测的关键PBPK参数？最优设计理论的创新应用
8. Functional Predictions of Long Noncoding RNAs by MiRNAs in Populus Euphratica Oliv. [C] . Wei-wei YAN, Hao ZOU, Sheng-jie LUO, International Conference on Biological Sciences and Technology . 2018

机译：MiRNA在杨树杨树幼虫中的长rNA的功能预测。
9. Discovery and Applications of Bacterial Noncoding RNAs. [D] . Tseng, Huei-Hun Elizabeth. 2012

机译：细菌非编码RNA的发现和应用。
10. Structure Prediction: New Insights into Decrypting Long Noncoding RNAs [O] . Kun Yan, Yasir Arfat, Dijie Li, 2016

机译：结构预测：解密长非编码RNA的新见解
11. Principles and innovative technologies for decrypting noncoding RNAs: from discovery and functional prediction to clinical application [O] . Yu-Meng Sun, Yue-Qin Chen 2020

机译：解密Noncoding RNA的原理和创新技术：从发现和功能预测到临床应用

Principles and innovative technologies for decrypting noncoding RNAs: from discovery and functional prediction to clinical application

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