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Effect of storage temperature and flash-freezing on salivary microbiota profiles based on 16S rRNA-targeted sequencing.

Hiroto FuruhashiLena TakayasuKimio IsshiYuko HaraShingo OnoMasayuki KatoKazuki SumiyamaWataru Suda
Published in: European journal of oral sciences (2022)
The sample storage environment affects gut microbial profiles as assessed using 16S rRNA sequencing. However, the influence of storage condition on human salivary microbial profiles has not been well characterized. Here, we performed an observational study to assess the robustness of microbiota profiles in three different storage environments (-80°C after flash-freezing, -80°C, and -15°C; all for 14 days) compared to immediate DNA extraction using the MiSeq Illumina platform. Notably, the 16S rRNA V1-V2 region amplicon sequencing revealed no difference in microbiota profiles between the immediate extraction and each of three storage conditions. An almost perfect correlation was shown between the immediate extraction and the -15°C storage group for relative abundance at the genus and operational taxonomic unit levels. The intraindividual UniFrac distances among storage methods were significantly shorter than those of interindividual distances. None of the amount of extracted DNA, the α-diversity indices, or the relative abundance at the phylum/genus/operational taxonomic unit level differed among storage methods. These findings indicate that a storage temperature of -15°C without flash-freezing may be optimal in terms of cost advantage and simplicity in 16S rRNA sequencing-based salivary microbial research.
Keyphrases
  • single cell
  • microbial community
  • cell free
  • drug delivery
  • antibiotic resistance genes
  • cancer therapy