Computational identification and analysis of noncoding RNAs - Unearthing the buried treasures in the genorne

Byung-Jun Yoon; Vaidyanathan P.P.

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Computational identification and analysis of noncoding RNAs - Unearthing the buried treasures in the genorne

机译：非编码RNA的计算鉴定和分析-发掘出紫罗兰中的藏宝

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The central dogma of molecular biology states that the genetic information flows from DNA to RNA to protein. This dogma has exerted a substantial influence on our understanding of the genetic activities in the cells. Under this influence, the prevailing assumption until the recent past was that genes are basically repositories for protein coding information, and proteins are responsible for most of the important biological functions in all cells. In the meanwhile, the importance of RNAs has remained rather obscure, and RNA was mainly viewed as a passive intermediary that bridges the gap between DNA and protein. Except for classic examples such as tRNAs (transfer RNAs) and rRNAs (ribosomal RNAs), functional noncoding RNAs were considered to be rare

机译：分子生物学的中心教条指出，遗传信息从DNA到RNA再到蛋白质。这种教条对我们对细胞遗传活性的理解产生了重大影响。在这种影响下，直到最近的一个普遍假设是，基因基本上是蛋白质编码信息的储存库，蛋白质负责所有细胞中的大多数重要生物学功能。同时，RNA的重要性仍然模糊不清，RNA主要被视为弥合DNA和蛋白质之间鸿沟的被动中介。除了经典示例（如tRNA（转移RNA）和rRNA（核糖体RNA））外，功能性非编码RNA被认为是罕见的

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《IEEE Signal Processing Magazine》 |2007年第1期|p.64-74|共11页
作者
Byung-Jun Yoon; Vaidyanathan P.P.;
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正文语种 eng
中图分类通信理论;
关键词
DNA; molecular biophysics; proteins; computational identification; functional noncoding RNA; genetic information; molecular biology; passive intermediary; protein coding information; rRNA; ribosomal RNA; tRNA; transfer RNA;

机译：DNA;分子生物物理学;蛋白质;计算鉴定;功能性非编码RNA;遗传信息;分子生物学;被动中介;蛋白质编码信息;rRNA;核糖体RNA;tRNA;转移RNA;

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1. Excavation of a buried treasure--DNA, mRNA, miRNA and protein analysis in formalin fixed, paraffin embedded tissues. [J] . Klopfleisch R, Weiss AT, Gruber AD Histology and histopathology . 2011,第4a6期

机译：挖掘埋藏的宝藏-在福尔马林固定的石蜡包埋组织中进行DNA，mRNA，miRNA和蛋白质分析。
2. Long noncoding RNA RP11‐547D24.1 regulates proliferation and migration in papillary thyroid carcinoma: Identification and validation of a novel long noncoding RNA through integrated analysis of TCGA database [J] . Kai Guo, Lili Chen, Yunjun Wang, Cancer Medicine . 2019,第6期

机译：长度非划分RNA RP11-547D24.1调节乳头状甲状腺癌中的增殖和迁移：通过TCGA数据库的综合分析鉴定和验证新型长度非编码RNA
3. LncFunNet: an integrated computational framework for identification of functional long noncoding RNAs in mouse skeletal muscle cells [J] . Nucleic Acids Research . 2017,第12期

机译：LNCFUNNET：用于鉴定小鼠骨骼肌细胞中功能长NONCODING RNA的集成计算框架
4. Computational Identification Noncoding RNAs in Salvia Miltiorrhiza Bunge, Including 46 Conserved and Non-Conserved miRNAs [C] . Li Guanglin, Dong Yafei, Wang Zhe-Zhi, 2010 4th International Conference on Bioinformatics and Biomedical Engineering . 2010

机译：计算鉴定丹参中的非编码RNA，包括46个保守和非保守miRNA。
5. Computational Functional Analysis of noncoding RNA in Recurrent Glioblastoma [D] . Liu, Qiang 2018

机译：复发性胶质母细胞瘤中非编码RNA的计算功能分析
6. LncFunNet: an integrated computational framework for identification of functional long noncoding RNAs in mouse skeletal muscle cells [O] . Jiajian Zhou, Suyang Zhang, Huating Wang, 2017

机译：LncFunNet：用于识别小鼠骨骼肌细胞中功能性长非编码RNA的集成计算框架
7. Computational identification and analysis of noncoding RNAs - Unearthing the buried treasures in the genome [O] . Yoon Byung-Jun, Vaidyanathan P. P. 2007

机译：非编码RNA的计算鉴定和分析-发掘基因组中隐藏的宝藏

Computational identification and analysis of noncoding RNAs - Unearthing the buried treasures in the genorne

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