Your search keyword '"Wei-Kai Wu"' showing total 3 results

1. Comparison of DNA stabilizers and storage conditions on preserving fecal microbiota profiles

Author

Chieh-Chang Chen, Wei-Kai Wu, Chih-Min Chang, Suraphan Panyod, Tzu-Pin Lu, Jyh-Ming Liou, Yu-Jen Fang, Eric Y. Chuang, and Ming-Shiang Wu

Subjects

Fecal microbiota, Storage condition, DNA stabilizers, 16S rRNA amplicon sequencing, OMNIgene.GUT, Stratec, Medicine (General), R5-920

Abstract

Background/purpose: Appropriate storage of fecal samples is a critical step for the unbiased analysis of microbial communities in metagenomic studies. Rapid freezing at −80 °C is usually considered to be best practice, but this approach is challenging. DNA stabilizing kits may provide a more convenient method to preserve and store clinical samples. We evaluated the reliability of two collection kits (Stratec stool collection tube with stabilizer, #1038111200 and OMNIgene.GUT OMR-200) on preserving fecal microbiota. Methods: Samples were collected from two locations of the fecal specimen, in four healthy volunteers. The samples were sub-aliquoted and stored in a −80 °C freezer, in Stratec and OMNIgene.GUT (incubation at ambient temperature for 0, 3, or 7 days). The fecal microbial composition was assessed by 16S rRNA sequencing. Results: We found that alpha diversity was not significantly affected by storage conditions. Samples stored in DNA stabilizers were still representative of the original microbial community after 7 days at ambient temperature. Individual differences were found to have a greater contribution to the differences in microbial community composition than storage conditions or sampling location. Samples subjected to stabilizers displayed microbial community shifts compared with immediately frozen samples. A linear discriminant analysis effect size (LEfSe) analysis showed that the relative abundances of Faecalibacterium were significantly higher in samples stored in Stratec kits. Conclusion: Our study reveals that both Stratec and OMNIgene.GUT kits provide good microbiome preservation for up to 7 days in ambient temperature and would represent good options for fecal sample collection in large scale, population-based studies.

Published

2020

2. Optimization of fecal sample processing for microbiome study — The journey from bathroom to bench

Author

Wei-Kai Wu, Chieh-Chang Chen, Suraphan Panyod, Rou-An Chen, Ming-Shiang Wu, Lee-Yan Sheen, and Shan-Chwen Chang

Subjects

Medicine (General), R5-920

Abstract

Although great interest has been displayed by researchers in the contribution of gut microbiota to human health, there is still no standard protocol with consensus to guarantee the sample quality of metagenomic analysis. Here we reviewed existing methodology studies and present suggestions for optimizing research pipeline from fecal sample collection to DNA extraction. First, we discuss strategies of clinical metadata collection as common confounders for microbiome research. Second, we propose general principles for freshly collected fecal sample and its storage and share a DIY stool collection kit protocol based on the manual procedure of Human Microbiome Project (HMP). Third, we provide a useful information of collection kit with DNA stabilization buffers and compare their pros and cons for multi-omic study. Fourth, we offer technical strategies as well as information of novel tools for sample aliquoting before long-term storage. Fifth, we discuss the substantial impact of different DNA extraction protocols on technical variations of metagenomic analysis. And lastly, we point out the limitation of current methods and the unmet needs for better quality control of metagenomic analysis. We hope the information provided here will help investigators in this exciting field to advance their studies while avoiding experimental artifacts. Keywords: Gut microbiome, Stool collection, Sample processing, Storage condition, Standardization

Published

2019

3. Comparison of DNA stabilizers and storage conditions on preserving fecal microbiota profiles

Author

Tzu-Pin Lu, Eric Y. Chuang, Yu-Jen Fang, Jyh-Ming Liou, Suraphan Panyod, C. Y. Chang, Chieh-Chang Chen, Wei-Kai Wu, and Ming-Shiang Wu

Subjects

Fecal microbiota, Population, 16S rRNA amplicon sequencing, Feces, 03 medical and health sciences, 0302 clinical medicine, RNA, Ribosomal, 16S, Healthy volunteers, Humans, Medicine, Microbiome, Food science, DNA stabilizers, education, Storage condition, education.field_of_study, lcsh:R5-920, business.industry, Stratec, Microbiota, Temperature, Reproducibility of Results, DNA, Sequence Analysis, DNA, General Medicine, Microbial population biology, Metagenomics, OMNIgene.GUT, 030220 oncology & carcinogenesis, 030211 gastroenterology & hepatology, Sample collection, business, lcsh:Medicine (General)

Abstract

Background/purpose Appropriate storage of fecal samples is a critical step for the unbiased analysis of microbial communities in metagenomic studies. Rapid freezing at −80 °C is usually considered to be best practice, but this approach is challenging. DNA stabilizing kits may provide a more convenient method to preserve and store clinical samples. We evaluated the reliability of two collection kits (Stratec stool collection tube with stabilizer, #1038111200 and OMNIgene.GUT OMR-200) on preserving fecal microbiota. Methods Samples were collected from two locations of the fecal specimen, in four healthy volunteers. The samples were sub-aliquoted and stored in a −80 °C freezer, in Stratec and OMNIgene.GUT (incubation at ambient temperature for 0, 3, or 7 days). The fecal microbial composition was assessed by 16S rRNA sequencing. Results We found that alpha diversity was not significantly affected by storage conditions. Samples stored in DNA stabilizers were still representative of the original microbial community after 7 days at ambient temperature. Individual differences were found to have a greater contribution to the differences in microbial community composition than storage conditions or sampling location. Samples subjected to stabilizers displayed microbial community shifts compared with immediately frozen samples. A linear discriminant analysis effect size (LEfSe) analysis showed that the relative abundances of Faecalibacterium were significantly higher in samples stored in Stratec kits. Conclusion Our study reveals that both Stratec and OMNIgene.GUT kits provide good microbiome preservation for up to 7 days in ambient temperature and would represent good options for fecal sample collection in large scale, population-based studies.

Published

2020