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A Novel Podophage StenR_269 Suggests a New Family in the Class Caudoviricetes.

Vyacheslav I YakubovskijVera V MorozovaYuliya N KozlovaArtem Yurievich TikunovIgor V BabkinAlevtina V BardashevaElena V ZhirakovskaiaIvan K BaykovGalina B KaverinaNina V Tikunova
Published in: Viruses (2023)
Stenotrophomonas rhizophila was first discovered in soil; it is associated with the rhizosphere and capable of both protecting roots and stimulating plant growth. Therefore, it has a great potential to be used in biocontrol. The study of S. rhizophila phages is important for a further evaluation of their effect on the fitness and properties of host bacteria. A novel phage StenR_269 and its bacterial host S. rhizophila were isolated from a soil sample in the remediation area of a coal mine. Electron microscopy revealed a large capsid (~Ø80 nm) connected with a short tail, which corresponds to the podovirus morphotype. The length of the genomic sequence of the StenR_269 was 66,322 bp and it contained 103 putative genes; 40 of them encoded proteins with predicted functions, 3 corresponded to tRNAs, and the remaining 60 were identified as hypothetical ones. Comparative analysis indicated that the StenR_269 phage had a similar genome organization to that of the unclassified Xanthomonas phage DES1, despite their low protein similarity. In addition, the signature proteins of StenR_269 and DES1 had low similarity and these proteins clustered far from the corresponding proteins of classified phages. Thus, the StenR_269 genome is orphan and the analyzed data suggest a new family in the class Caudoviricetes.
Keyphrases
  • plant growth
  • pseudomonas aeruginosa
  • genome wide
  • electron microscopy
  • body composition
  • physical activity
  • gene expression
  • microbial community
  • risk assessment
  • climate change
  • human health
  • transcription factor