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GAMUT: GPU accelerated microRNA analysis to uncover target genes through CUDA-miRanda

机译：GAMUT：GPU加速的microRNA分析通过CUDA-miRanda发现靶基因

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BackgroundNon-coding sequences such as microRNAs have important roles in disease processes. Computational microRNA target identification (CMTI) is becoming increasingly important since traditional experimental methods for target identification pose many difficulties. These methods are time-consuming, costly, and often need guidance from computational methods to narrow down candidate genes anyway. However, most CMTI methods are computationally demanding, since they need to handle not only several million query microRNA and reference RNA pairs, but also several million nucleotide comparisons within each given pair. Thus, the need to perform microRNA identification at such large scale has increased the demand for parallel computing.

机译：背景技术非编码序列（例如microRNA）在疾病过程中具有重要作用。由于传统的目标识别实验方法存在许多困难，因此计算性microRNA目标识别（CMTI）变得越来越重要。这些方法耗时，昂贵且通常需要计算方法的指导以缩小候选基因的范围。但是，大多数CMTI方法在计算上都要求很高，因为它们不仅需要处理数百万个查询microRNA和参考RNA对，而且还需要处理每个给定对中的数百万个核苷酸比较。因此，以如此大规模进行microRNA鉴定的需求增加了对并行计算的需求。

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期刊名称 BMC Medical Genomics
作者
Shuang Wang; Jihoon Kim; Xiaoqian Jiang; Stefan F Brunner; Lucila Ohno-Machado;
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作者单位

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年(卷),期 2014(7),Suppl 1
年度 2014
页码 S9
总页数 13
原文格式 PDF
正文语种
中图分类遗传学;
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入库时间 2022-08-17 14:19:39

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专利

1. GAMUT: GPU accelerated microRNA analysis to uncover target genes through CUDA-miRanda [J] . Shuang Wang, Jihoon Kim, Xiaoqian Jiang, BMC Medical Genomics . 2014,第SUPPLEMENTa1期

机译：GAMUT：GPU加速的microRNA分析，通过CUDA-miRanda发现目标基因
2. Uncovering anthocyanin biosynthesis related microRNAs and their target genes by small RNA and degradome sequencing in tuberous roots of sweetpotato [J] . Liheng He, Ruimin Tang, Xiaowen Shi, BMC Plant Biology . 2019,第1期

机译：通过小型RNA和甜菜藻枯萎病的小RNA和降解测序揭开花青素生物合成相关的MicroRNA及其靶基因
3. CARAT-GxG: CUDA-Accelerated Regression Analysis Toolkit for Large-Scale Gene–Gene Interaction with GPU Computing System [J] . Sungyoung Lee, Min-Seok Kwon, Taesung Park Cancer Informatics . 2014,第Supplaa7期

机译：CARAT-GxG：CUDA加速回归分析工具套件，用于与GPU计算系统进行大规模基因-基因相互作用
4. Computational Analysis of Microrna Profiles and Their Target Genes Involved In Multidrug Resistance of Breast Cancer Cell [C] . Guoqing Chen, Zhiwei Zhao International Conference on Smart Materials and Nanotechnology in Engineering . 2012

机译：乳腺癌细胞多药抗性患者微瘤谱的计算分析及其靶基因
5. Development of Novel Bioinformatic Strategies for MicroRNA Target Prediction and Next Generation Sequencing Analysis. [D] . Roberts, Justin Tyler. 2017

机译：MicroRNA靶标预测和下一代测序分析的新型生物信息学策略的开发。
6. CARAT-GxG: CUDA-Accelerated Regression Analysis Toolkit for Large-Scale Gene–Gene Interaction with GPU Computing System [O] . Sungyoung Lee, Min-Seok Kwon, Taesung Park 2014

机译：CARAT-GxG：CUDA加速回归分析工具套件用于与GPU计算系统进行大规模基因-基因相互作用
7. GAMUT: GPU accelerated microRNA analysis to uncover target genes through CUDA-miRanda [O] . Shuang Wang, Jihoon Kim, Xiaoqian Jiang, 2014

机译：GAMUT：GPU加速的microRNA分析，通过CUDA-miRanda发现靶基因

GAMUT: GPU accelerated microRNA analysis to uncover target genes through CUDA-miRanda

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