Generating amplicon reads for microbial community assessment with next-generation sequencing

被引:59
作者
Golebiewski, M. [1 ,2 ]
Tretyn, A. [1 ,2 ]
机构
[1] Nicolaus Copernicus Univ, Plant Physiol & Biotechnol, Lwowska 1, PL-87100 Torun, Poland
[2] Nicolaus Copernicus Univ, Ctr Modern Interdisciplinary Technol, Torun, Poland
来源
JOURNAL OF APPLIED MICROBIOLOGY | 2020年 / 128卷 / 02期
关键词
16S rRNA gene; error and bias sources; experimental workflow; marker gene amplicons; microbial community assessment; next-generation sequencing; 16S RIBOSOMAL-RNA; BACTERIAL DIVERSITY; PCR AMPLIFICATION; CHIMERA FORMATION; BARCODED PRIMERS; DNA; EXTRACTION; GENOME; BIAS; ACCURATE;
D O I
10.1111/jam.14380
中图分类号
Q81 [生物工程学(生物技术)]; Q93 [微生物学];
学科分类号
071005 ; 0836 ; 090102 ; 100705 ;
摘要
Marker gene amplicon sequencing is often preferred over whole genome sequencing for microbial community characterization, due to its lower cost while still enabling assessment of uncultivable organisms. This technique involves many experimental steps, each of which can be a source of errors and bias. We present an up-to-date overview of the whole experimental pipeline, from sampling to sequencing reads, and give information allowing for informed choices at each step of both planning and execution of a microbial community assessment study. When applicable, we also suggest ways of avoiding inherent pitfalls in amplicon sequencing.
引用
收藏
页码:330 / 354
页数:25
相关论文
共 165 条
  • [71] Bias and artifacts in multitemplate polymerase chain reactions (PCR)
    Kanagawa, T
    [J]. JOURNAL OF BIOSCIENCE AND BIOENGINEERING, 2003, 96 (04) : 317 - 323
  • [72] Sources of PCR-induced distortions in high-throughput sequencing data sets
    Kebschull, Justus M.
    Zador, Anthony M.
    [J]. NUCLEIC ACIDS RESEARCH, 2015, 43 (21)
  • [73] Power and sample-size estimation for microbiome studies using pairwise distances and PERMANOVA
    Kelly, Brendan J.
    Gross, Robert
    Bittinger, Kyle
    Sherrill-Mix, Scott
    Lewis, James D.
    Collman, Ronald G.
    Bushman, Frederic D.
    Li, Hongzhe
    [J]. BIOINFORMATICS, 2015, 31 (15) : 2461 - 2468
  • [74] Profiling bacterial communities by MinION sequencing of ribosomal operons
    Kerkhof, Lee J.
    Dillon, Kevin P.
    Haggblom, Max M.
    McGuinness, Lora R.
    [J]. MICROBIOME, 2017, 5 : 116
  • [75] Koonin Eugene V, 2016, F1000Res, V5, DOI 10.12688/f1000research.8737.1
  • [76] Development of a Dual-Index Sequencing Strategy and Curation Pipeline for Analyzing Amplicon Sequence Data on the MiSeq Illumina Sequencing Platform
    Kozich, James J.
    Westcott, Sarah L.
    Baxter, Nielson T.
    Highlander, Sarah K.
    Schloss, Patrick D.
    [J]. APPLIED AND ENVIRONMENTAL MICROBIOLOGY, 2013, 79 (17) : 5112 - 5120
  • [77] Kreader C.A., 1996, APPL ENVIRON MICROB, V62, P5
  • [78] Hypothesis Testing and Power Calculations for Taxonomic-Based Human Microbiome Data
    La Rosa, Patricio S.
    Brooks, J. Paul
    Deych, Elena
    Boone, Edward L.
    Edwards, David J.
    Wang, Qin
    Sodergren, Erica
    Weinstock, George
    Shannon, William D.
    [J]. PLOS ONE, 2012, 7 (12):
  • [79] Reducing the impact of PCR-mediated recombination in molecular evolution and environmental studies using a new-generation high-fidelity DNA polymerase
    Lahr, Daniel J. G.
    Katz, Laura A.
    [J]. BIOTECHNIQUES, 2009, 47 (04) : 857 - 863
  • [80] Marker genes that are less conserved in their sequences are useful for predicting genome-wide similarity levels between closely related prokaryotic strains
    Lan, Yemin
    Rosen, Gail
    Hershberg, Ruth
    [J]. MICROBIOME, 2016, 4
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