With the support from the National Natural Science Foundation of China,Prof.Huang Yanyi(黄岩谊)led a team at Peking University to demonstrate a novel approach,which combined fluorogenic sequencingby-synthesis(SBS)chem...With the support from the National Natural Science Foundation of China,Prof.Huang Yanyi(黄岩谊)led a team at Peking University to demonstrate a novel approach,which combined fluorogenic sequencingby-synthesis(SBS)chemistry with an information theory-based error-correction coding scheme to展开更多
Background:The single-molecular sequencing(SMS)is under rapid development and generating increasingly long and accurate sequences.De novo assembly of genomes from SMS sequences is a critical step for many genomic stud...Background:The single-molecular sequencing(SMS)is under rapid development and generating increasingly long and accurate sequences.De novo assembly of genomes from SMS sequences is a critical step for many genomic studies.To scale well with the developing trends of SMS,many de novo assemblers for SMS have been released.These assembly workflows can be categorized into two different kinds:the correction-and-assembly strategy and the assembly-and-correction strategy,both of which are gaining more and more attentions.Results:In this article we make a discussion on the characteristics of errors in SMS sequences・We then review the currently widely applied de novo assemblers for SMS sequences.We also describe computational methods relevant to de novo assembly,including the alignment methods and the error correction methods.Benchmarks are provided to analyze their performance on different datasets and to provide use guides on applying the computation methods.Conclusion:We make a detailed review on the latest development of de novo assembly and some relevant algorithms for SMS,including their rationales,solutions and results.Besides,we provide use guides on the algorithms based on their benchmark results.Finally we conclude the review by giving some developing trends of third generation sequencing(TGS).展开更多
文摘With the support from the National Natural Science Foundation of China,Prof.Huang Yanyi(黄岩谊)led a team at Peking University to demonstrate a novel approach,which combined fluorogenic sequencingby-synthesis(SBS)chemistry with an information theory-based error-correction coding scheme to
文摘Background:The single-molecular sequencing(SMS)is under rapid development and generating increasingly long and accurate sequences.De novo assembly of genomes from SMS sequences is a critical step for many genomic studies.To scale well with the developing trends of SMS,many de novo assemblers for SMS have been released.These assembly workflows can be categorized into two different kinds:the correction-and-assembly strategy and the assembly-and-correction strategy,both of which are gaining more and more attentions.Results:In this article we make a discussion on the characteristics of errors in SMS sequences・We then review the currently widely applied de novo assemblers for SMS sequences.We also describe computational methods relevant to de novo assembly,including the alignment methods and the error correction methods.Benchmarks are provided to analyze their performance on different datasets and to provide use guides on applying the computation methods.Conclusion:We make a detailed review on the latest development of de novo assembly and some relevant algorithms for SMS,including their rationales,solutions and results.Besides,we provide use guides on the algorithms based on their benchmark results.Finally we conclude the review by giving some developing trends of third generation sequencing(TGS).
