Successful Direct Whole Genome Sequencing and Revivification of Freeze-Dried Nontuberculous Mycobacteria after More than Half a Century of Storage
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Successful Direct Whole Genome Sequencing and Revivification of Freeze-Dried Nontuberculous Mycobacteria after More than Half a Century of Storage. / Iversen, Xenia Emilie Sinding; Norman, Anders; Folkvardsen, Dorte Bek; Svensson, Erik; Rasmussen, Erik Michael; Lillebæk, Troels.
I: Microbiology Spectrum, Bind 10, Nr. 3, e0031022, 2022.Publikation: Bidrag til tidsskrift › Tidsskriftartikel › Forskning › fagfællebedømt
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TY - JOUR
T1 - Successful Direct Whole Genome Sequencing and Revivification of Freeze-Dried Nontuberculous Mycobacteria after More than Half a Century of Storage
AU - Iversen, Xenia Emilie Sinding
AU - Norman, Anders
AU - Folkvardsen, Dorte Bek
AU - Svensson, Erik
AU - Rasmussen, Erik Michael
AU - Lillebæk, Troels
PY - 2022
Y1 - 2022
N2 - In this study, 28 "historical" clinical freeze-dried nontuberculous mycobacterial isolates collected from 1948 to 1957, were analyzed by investigating their viability and performing whole genome sequencing (WGS) on DNA extracted (i) directly from freeze-dried cells versus (ii) after culturing, to determine cell properties and DNA quality after centuries of freeze-dried storage. The isolated DNA was sequenced on the Illumina MiSeq platform and data quality evaluated analyzing the per-base quality scores of paired-end sequencing reads as well as the overall contiguity of resulting de novo assemblies. After 72 years in storage, all freeze-dried isolates were viable, and showed no signs of cell damage and limited signs of contamination when reculturing. They were recultured without problems and identified through WGS with only four of 13 parameters showing statistical significance based on sequence data obtained directly from the freeze-dried cells versus after reculturing, indicating no DNA degradation. Thus, mycobacteria can be whole genome sequenced successfully directly from freeze-dried material without prior recultivation, saving laboratory time and resources, and emphasizing the value of freeze-drying for long-term storage. Our study lays the groundwork for further genomic investigations of freeze-dried bacterial isolates, and the approximately 4,000 historical isolates in our collection will provide a unique opportunity to investigate mycobacterial DNA from a variety of NTM species unexposed to antimicrobials, some maybe still undescribed species. IMPORTANCE The genus Mycobacterium was described more than a century ago and new species are continuously identified and described. There is an ongoing discussion about an increase in the incidence of disease caused by nontuberculous mycobacteria (NTM). How the different bacteria looked before exposure to antibiotics can only be investigated by looking at strains from before the antibiotic era. Strains from that era will be stored in different ways, for example by freeze-drying. The question is how to investigate these strains, and if they are still viable, whether they need to be cultured, and if that changes the DNA. Here, we test all these parameters on freeze-dried strains and show that NGS can be applied directly without culturing.
AB - In this study, 28 "historical" clinical freeze-dried nontuberculous mycobacterial isolates collected from 1948 to 1957, were analyzed by investigating their viability and performing whole genome sequencing (WGS) on DNA extracted (i) directly from freeze-dried cells versus (ii) after culturing, to determine cell properties and DNA quality after centuries of freeze-dried storage. The isolated DNA was sequenced on the Illumina MiSeq platform and data quality evaluated analyzing the per-base quality scores of paired-end sequencing reads as well as the overall contiguity of resulting de novo assemblies. After 72 years in storage, all freeze-dried isolates were viable, and showed no signs of cell damage and limited signs of contamination when reculturing. They were recultured without problems and identified through WGS with only four of 13 parameters showing statistical significance based on sequence data obtained directly from the freeze-dried cells versus after reculturing, indicating no DNA degradation. Thus, mycobacteria can be whole genome sequenced successfully directly from freeze-dried material without prior recultivation, saving laboratory time and resources, and emphasizing the value of freeze-drying for long-term storage. Our study lays the groundwork for further genomic investigations of freeze-dried bacterial isolates, and the approximately 4,000 historical isolates in our collection will provide a unique opportunity to investigate mycobacterial DNA from a variety of NTM species unexposed to antimicrobials, some maybe still undescribed species. IMPORTANCE The genus Mycobacterium was described more than a century ago and new species are continuously identified and described. There is an ongoing discussion about an increase in the incidence of disease caused by nontuberculous mycobacteria (NTM). How the different bacteria looked before exposure to antibiotics can only be investigated by looking at strains from before the antibiotic era. Strains from that era will be stored in different ways, for example by freeze-drying. The question is how to investigate these strains, and if they are still viable, whether they need to be cultured, and if that changes the DNA. Here, we test all these parameters on freeze-dried strains and show that NGS can be applied directly without culturing.
U2 - 10.1128/spectrum.00310-22
DO - 10.1128/spectrum.00310-22
M3 - Journal article
C2 - 35587637
VL - 10
JO - Microbiology spectrum
JF - Microbiology spectrum
SN - 2165-0497
IS - 3
M1 - e0031022
ER -
ID: 308545170