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Fast and accurate correction of optical mapping data via spaced seeds

机译：通过间隔种子快速准确地校正光学映射数据

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摘要

Optical mapping data is used in many core genomics applications, including structural variation detection, scaffolding assembled contigs and mis-assembly detection. However, the pervasiveness of spurious and deleted cut sites in the raw data, which are called Rmaps, make assembly and alignment of them challenging. Although there exists another method to error correct Rmap data, named cOMet, it is unable to scale to even moderately large sized genomes. The challenge faced in error correction is in determining pairs of Rmaps that originate from the same region of the same genome.

机译：光学测绘数据用于许多核心基因组学应用程序，包括结构变异检测，脚手架组装重叠群和错配检测。但是，原始数据中伪造和删除的剪切位点的普遍性（称为Rmap）使它们的组装和对齐面临挑战。尽管存在另一种错误校正Rmap数据的方法，称为cOMet，但它甚至无法扩展到中等大小的基因组。纠错面临的挑战是确定源自同一基因组同一区域的Rmap对。

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期刊名称 Bioinformatics
作者
Leena Salmela; Kingshuk Mukherjee; Simon J Puglisi; Martin D Muggli; Christina Boucher;
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作者单位

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年(卷),期 -1(36),3
年度 -1
页码 -1
总页数 8
原文格式 PDF
正文语种
中图分类应用微生物学;生化遗传学;生化药理学;
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专利

1. Fast and accurate correction of optical mapping data via spaced seeds [J] . Salmela Leena, Mukherjee Kingshuk, Puglisi Simon J., Bioinformatics . 2020,第3期

机译：通过间隔种子快速准确地校正光学映射数据
2. Fast and accurate correction of optical mapping data via spaced seeds (vol 36, pg 682, 2019) [J] . Bioinformatics . 2020,第9期

机译：通过间隔种子快速准确地校正光学映射数据（Vol 36，PG 682,2019）
3. Improved signal spoiling in fast radial gradient-echo imaging: Applied to accurate T(1) mapping and flip angle correction. [J] . Lin W, Song HK Magnetic resonance in medicine: official journal of the Society of Magnetic Resonance in Medicine . 2009,第5期

机译：快速径向梯度回波成像中改进的信号损坏：应用于精确的T（1）映射和翻转角校正。
4. Fast and accurate optical proximity correction based on aerial image simulation [C] . Tetsuro Hanawa, Mitsubishi Electric Corp., Itami City, Optical Microlithography IX . 1996

机译：基于航拍图像仿真的快速准确的光学邻近校正
5. Fast and accurate lithography simulation and optical proximity correction for nanometer design for manufacturing [D] . Yu, Peng 2009

机译：快速准确的光刻模拟和光学接近度校正，可用于制造的纳米设计
6. rasbhari: Optimizing Spaced Seeds for Database Searching Read Mapping and Alignment-Free Sequence Comparison [O] . Lars Hahn, Chris-André Leimeister, Rachid Ounit, 2016

机译：rasbhari：优化间隔种子以进行数据库搜索读取映射和无序列比对
7. Space-Efficient Indexing of Spaced Seeds for Accurate Overlap Computation of Raw Optical Mapping Data [O] . Riku Walve, Simon J. Puglisi, Leena Salmela 2021

机译：用于准确的光学映射数据的间隔种子的空间高效索引

Fast and accurate correction of optical mapping data via spaced seeds

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