Metagenome Assembled Genome of a Novel Phage from the Nunu Microbiome
Disciplines
Bioinformatics | Computational Biology | Food Microbiology | Other Genetics and Genomics
Abstract (300 words maximum)
The application of next-generation sequencing (NGS) has provided new opportunities in expanding our understanding towards microbiomes in homemade fermented foods. This study explores microbiomes from a homemade dairy product called nunu, which is a West African fermented dairy beverage sold in open-air markets without a standardized starter culture or pasteurization. Raw reads with NCBI accession number of PRJEB20873 were first subjected to quality control and adapter trimming with cutadapt before assembly with MetaSPAdes to generate metagenome assembled genomes (MAGs). One MAG consisted of 43,090 bp with a G + C content of 54.82% and 56 predicted open-reading frames (ORFs). Structural and functional annotations revealed shared synteny with phage vB_EcoM_ECOO78 that has been classified as a Jilinvirus. As members of the Myoviridaefamily, Jilinviruses are known to infect the genera of Escherichia and Enterobacter. Functional annotation with BLAST searches revealed eight ORFs that shared no sequence similarities with genes from other Jilinviruses. Seven ORFs have been annotated to function in nucleotide metabolism and replication. Twelve ORFs have been predicted for functions in morphogenesis, including several tail and capsid proteins. Putative small and large terminase subunits were assigned for ORF55 and ORF56. While other Jilinviruses lack integrases, ORF26 was predicted to function as an integrase with sequence similarity of 85.0% when compared against Pseudomonas phage PPpW-3. This putative integrase from our current study also shares a sequence similarity of 88% with a tyrosine-type recombinase/integrase from E. coli. ORF42 shares sequence similarity at N-terminus with Dpo42 from phage vB_EcoM_ECOO78, that prevents E. colibiofilm formation. In conclusion, this novel phage appears to represent the fifth member of the Jilinvirus and further our understanding towards the nunu microbiome.
Academic department under which the project should be listed
Departement of Molecular and Cellular Biology
Primary Investigator (PI) Name
Tsai-Tien Tseng
Metagenome Assembled Genome of a Novel Phage from the Nunu Microbiome
The application of next-generation sequencing (NGS) has provided new opportunities in expanding our understanding towards microbiomes in homemade fermented foods. This study explores microbiomes from a homemade dairy product called nunu, which is a West African fermented dairy beverage sold in open-air markets without a standardized starter culture or pasteurization. Raw reads with NCBI accession number of PRJEB20873 were first subjected to quality control and adapter trimming with cutadapt before assembly with MetaSPAdes to generate metagenome assembled genomes (MAGs). One MAG consisted of 43,090 bp with a G + C content of 54.82% and 56 predicted open-reading frames (ORFs). Structural and functional annotations revealed shared synteny with phage vB_EcoM_ECOO78 that has been classified as a Jilinvirus. As members of the Myoviridaefamily, Jilinviruses are known to infect the genera of Escherichia and Enterobacter. Functional annotation with BLAST searches revealed eight ORFs that shared no sequence similarities with genes from other Jilinviruses. Seven ORFs have been annotated to function in nucleotide metabolism and replication. Twelve ORFs have been predicted for functions in morphogenesis, including several tail and capsid proteins. Putative small and large terminase subunits were assigned for ORF55 and ORF56. While other Jilinviruses lack integrases, ORF26 was predicted to function as an integrase with sequence similarity of 85.0% when compared against Pseudomonas phage PPpW-3. This putative integrase from our current study also shares a sequence similarity of 88% with a tyrosine-type recombinase/integrase from E. coli. ORF42 shares sequence similarity at N-terminus with Dpo42 from phage vB_EcoM_ECOO78, that prevents E. colibiofilm formation. In conclusion, this novel phage appears to represent the fifth member of the Jilinvirus and further our understanding towards the nunu microbiome.