Improved pipeline for reducing erroneous identification by 16S rRNA sequences using the Illumina MiSeq platform
The cost of DNA sequencing has decreased due to advancements in Next Generation Sequencing. The number of sequences obtained from the Illumina platform is large, use of this platform can reduce costs more than the 454 pyrosequencer. However, the Illumina platform has other challenges, including bioi...
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| Published in | The journal of microbiology Vol. 53; no. 1; pp. 60 - 69 |
|---|---|
| Main Authors | , , , , |
| Format | Journal Article |
| Language | English |
| Published |
Heidelberg
Springer-Verlag
01.01.2015
The Microbiological Society of Korea Springer Nature B.V 한국미생물학회 |
| Subjects | |
| Online Access | Get full text |
| ISSN | 1225-8873 1976-3794 1976-3794 |
| DOI | 10.1007/s12275-015-4601-y |
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| Abstract | The cost of DNA sequencing has decreased due to advancements in Next Generation Sequencing. The number of sequences obtained from the Illumina platform is large, use of this platform can reduce costs more than the 454 pyrosequencer. However, the Illumina platform has other challenges, including bioinformatics analysis of large numbers of sequences and the need to reduce erroneous nucleotides generated at the 3′-ends of the sequences. These erroneous sequences can lead to errors in analysis of microbial communities. Therefore, correction of these erroneous sequences is necessary for accurate taxonomic identification. Several studies that have used the Illumina platform to perform metagenomic analyses proposed curating pipelines to increase accuracy. In this study, we evaluated the likelihood of obtaining an erroneous microbial composition using the MiSeq 250 bp paired sequence platform and improved the pipeline to reduce erroneous identifications. We compared different sequencing conditions by varying the percentage of control phiX added, the concentration of the sequencing library, and the 16S rRNA gene target region using a mock community sample composed of known sequences. Our recommended method corrected erroneous nucleotides and improved identification accuracy. Overall, 99.5% of the total reads shared 95% similarity with the corresponding template sequences and 93.6% of the total reads shared over 97% similarity. This indicated that the MiSeq platform can be used to analyze microbial communities at the genus level with high accuracy. The improved analysis method recommended in this study can be applied to amplicon studies in various environments using high-throughput reads generated on the MiSeq platform. |
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| AbstractList | The cost of DNA sequencing has decreased due to advancements in Next Generation Sequencing. The number of sequences obtained from the Illumina platform is large, use of this platform can reduce costs more than the 454 pyrosequencer. However, the Illumina platform has other challenges, including bioinformatics analysis of large numbers of sequences and the need to reduce erroneous nucleotides generated at the 3′-ends of the sequences. These erroneous sequences can lead to errors in analysis of microbial communities. Therefore, correction of these erroneous sequences is necessary for accurate taxonomic identification. Several studies that have used the Illumina platform to perform metagenomic analyses proposed curating pipelines to increase accuracy. In this study, we evaluated the likelihood of obtaining an erroneous microbial composition using the MiSeq 250 bp paired sequence platform and improved the pipeline to reduce erroneous identifications. We compared different sequencing conditions by varying the percentage of control phiX added, the concentration of the sequencing library, and the 16S rRNA gene target region using a mock community sample composed of known sequences. Our recommended method corrected erroneous nucleotides and improved identification accuracy. Overall, 99.5% of the total reads shared 95% similarity with the corresponding template sequences and 93.6% of the total reads shared over 97% similarity. This indicated that the MiSeq platform can be used to analyze microbial communities at the genus level with high accuracy. The improved analysis method recommended in this study can be applied to amplicon studies in various environments using high-throughput reads generated on the MiSeq platform. The cost of DNA sequencing has decreased due to advancements in Next Generation Sequencing. The number of sequences obtained from the Illumina platform is large, use of this platform can reduce costs more than the 454 pyrosequencer. However, the Illumina platform has other challenges, including bioinformatics analysis of large numbers of sequences and the need to reduce erroneous nucleotides generated at the 3'-ends of the sequences. These erroneous sequences can lead to errors in analysis of microbial communities. Therefore, correction of these erroneous sequences is necessary for accurate taxonomic identification. Several studies that have used the Illumina platform to perform metagenomic analyses proposed curating pipelines to increase accuracy. In this study, we evaluated the likelihood of obtaining an erroneous microbial composition using the MiSeq 250 bp paired sequence platform and improved the pipeline to reduce erroneous identifications. We compared different sequencing conditions by varying the percentage of control phiX added, the concentration of the sequencing library, and the 16S rRNA gene target region using a mock community sample composed of known sequences. Our recommended method corrected erroneous nucleotides and improved identification accuracy. Overall, 99.5% of the total reads shared 95% similarity with the corresponding template sequences and 93.6% of the total reads shared over 97% similarity. This indicated that the MiSeq platform can be used to analyze microbial communities at the genus level with high accuracy. The improved analysis method recommended in this study can be applied to amplicon studies in various environments using high-throughput reads generated on the MiSeq platform.The cost of DNA sequencing has decreased due to advancements in Next Generation Sequencing. The number of sequences obtained from the Illumina platform is large, use of this platform can reduce costs more than the 454 pyrosequencer. However, the Illumina platform has other challenges, including bioinformatics analysis of large numbers of sequences and the need to reduce erroneous nucleotides generated at the 3'-ends of the sequences. These erroneous sequences can lead to errors in analysis of microbial communities. Therefore, correction of these erroneous sequences is necessary for accurate taxonomic identification. Several studies that have used the Illumina platform to perform metagenomic analyses proposed curating pipelines to increase accuracy. In this study, we evaluated the likelihood of obtaining an erroneous microbial composition using the MiSeq 250 bp paired sequence platform and improved the pipeline to reduce erroneous identifications. We compared different sequencing conditions by varying the percentage of control phiX added, the concentration of the sequencing library, and the 16S rRNA gene target region using a mock community sample composed of known sequences. Our recommended method corrected erroneous nucleotides and improved identification accuracy. Overall, 99.5% of the total reads shared 95% similarity with the corresponding template sequences and 93.6% of the total reads shared over 97% similarity. This indicated that the MiSeq platform can be used to analyze microbial communities at the genus level with high accuracy. The improved analysis method recommended in this study can be applied to amplicon studies in various environments using high-throughput reads generated on the MiSeq platform. The cost of DNA sequencing has decreased due to advancements in Next Generation Sequencing. The number of sequences obtained from the Illumina platform is large, use of this platform can reduce costs more than the 454 pyrosequencer. However, the Illumina platform has other challenges, including bioinformatics analysis of large numbers of sequences and the need to reduce erroneous nucleotides generated at the 3'-ends of the sequences. These erroneous sequences can lead to errors in analysis of microbial communities. Therefore, correction of these erroneous sequences is necessary for accurate taxonomic identification. Several studies that have used the Illumina platform to perform metagenomic analyses proposed curating pipelines to increase accuracy. In this study, we evaluated the likelihood of obtaining an erroneous microbial composition using the MiSeq 250 bp paired sequence platform and improved the pipeline to reduce erroneous identifications. We compared different sequencing conditions by varying the percentage of control phiX added, the concentration of the sequencing library, and the 16S rRNA gene target region using a mock community sample composed of known sequences. Our recommended method corrected erroneous nucleotides and improved identification accuracy. Overall, 99.5% of the total reads shared 95% similarity with the corresponding template sequences and 93.6% of the total reads shared over 97% similarity. This indicated that the MiSeq platform can be used to analyze microbial communities at the genus level with high accuracy. The improved analysis method recommended in this study can be applied to amplicon studies in various environments using high-throughput reads generated on the MiSeq platform.[PUBLICATION ABSTRACT] The cost of DNA sequencing has decreased due to advancementsin Next Generation Sequencing. The number of sequencesobtained from the Illumina platform is large, use ofthis platform can reduce costs more than the 454 pyrosequencer. However, the Illumina platform has other challenges,including bioinformatics analysis of large numbersof sequences and the need to reduce erroneous nucleotidesgenerated at the 3 -ends of the sequences. These erroneoussequences can lead to errors in analysis of microbial communities. Therefore, correction of these erroneous sequencesis necessary for accurate taxonomic identification. Severalstudies that have used the Illumina platform to perform metagenomicanalyses proposed curating pipelines to increaseaccuracy. In this study, we evaluated the likelihood of obtainingan erroneous microbial composition using the MiSeq250 bp paired sequence platform and improved the pipelineto reduce erroneous identifications. We compared differentsequencing conditions by varying the percentage of controlphiX added, the concentration of the sequencing library, andthe 16S rRNA gene target region using a mock communitysample composed of known sequences. Our recommendedmethod corrected erroneous nucleotides and improved identificationaccuracy. Overall, 99.5% of the total reads shared95% similarity with the corresponding template sequencesand 93.6% of the total reads shared over 97% similarity. Thisindicated that the MiSeq platform can be used to analyze microbialcommunities at the genus level with high accuracy. The improved analysis method recommended in this studycan be applied to amplicon studies in various environmentsusing high-throughput reads generated on the MiSeq platform. KCI Citation Count: 33 |
| Author | Kim, Bong-Soo Jeon, Yoon-Seong Lim, Jeongmin Chun, Jongsik Park, Sang-Cheol |
| Author_xml | – sequence: 1 fullname: Jeon, Yoon-Seong – sequence: 2 fullname: Park, Sang-Cheol – sequence: 3 fullname: Lim, Jeongmin – sequence: 4 fullname: Chun, Jongsik – sequence: 5 fullname: Kim, Bong-Soo |
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| Snippet | The cost of DNA sequencing has decreased due to advancements in Next Generation Sequencing. The number of sequences obtained from the Illumina platform is... The cost of DNA sequencing has decreased due to advancementsin Next Generation Sequencing. The number of sequencesobtained from the Illumina platform is large,... |
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| SubjectTerms | Accuracy Bioinformatics Biomedical and Life Sciences Cloning Computational Biology cost effectiveness DNA libraries DNA Primers Gene Library genes high-throughput nucleotide sequencing High-Throughput Nucleotide Sequencing - economics High-Throughput Nucleotide Sequencing - methods Life Sciences Metagenome Metagenomics Microbial activity microbial communities Microbiology nucleotide sequences nucleotides pipelines ribosomal RNA RNA, Ribosomal, 16S - genetics Sequence Analysis, DNA - methods species identification Systems and Synthetic Microbiology and Bioinformatics Taxonomy 생물학 |
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| Title | Improved pipeline for reducing erroneous identification by 16S rRNA sequences using the Illumina MiSeq platform |
| URI | https://link.springer.com/article/10.1007/s12275-015-4601-y https://www.ncbi.nlm.nih.gov/pubmed/25557481 https://www.proquest.com/docview/1641720255 https://www.proquest.com/docview/1642608799 https://www.proquest.com/docview/1647020000 https://www.proquest.com/docview/2000069948 https://www.kci.go.kr/kciportal/ci/sereArticleSearch/ciSereArtiView.kci?sereArticleSearchBean.artiId=ART001940589 |
| Volume | 53 |
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| ispartofPNX | The Journal of Microbiology, 2015, 53(1), , pp.60-69 |
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