Abstract
Phages are important research tools and can be used as an alternative to antibiotics. They are abundant and diverse. Genome annotation is used to better understand phage diversity as well as individual phages for use in the lab and clinic. We annotated the genomes of four novel phages: RedRaider89, SuperHeroCarly, Kouch, and CherryCola. All four phages were discovered by Northwestern College students. CherryCola is a Cluster DC1 phage that infects Gordonia terrae. It has 92 predicted protein-coding genes. RedRaider89 (Cluster B1) and SuperHeroCarly (Cluster D1) infect Mycobacterium smegmatis mc²155. RedRaider89 has 99 predicted protein-coding genes and SuperHeroCarly has 87 predicted protein-coding genes. Kouch is a Cluster EA1 phage that infects Mycobacterium foliorum NRRL B-24224. Its genome has 63 protein-coding genes.
Included in
Annotation of Bacteriophages RedRaider89, SuperHeroCarly, CherryCola, and Kouch
Phages are important research tools and can be used as an alternative to antibiotics. They are abundant and diverse. Genome annotation is used to better understand phage diversity as well as individual phages for use in the lab and clinic. We annotated the genomes of four novel phages: RedRaider89, SuperHeroCarly, Kouch, and CherryCola. All four phages were discovered by Northwestern College students. CherryCola is a Cluster DC1 phage that infects Gordonia terrae. It has 92 predicted protein-coding genes. RedRaider89 (Cluster B1) and SuperHeroCarly (Cluster D1) infect Mycobacterium smegmatis mc²155. RedRaider89 has 99 predicted protein-coding genes and SuperHeroCarly has 87 predicted protein-coding genes. Kouch is a Cluster EA1 phage that infects Mycobacterium foliorum NRRL B-24224. Its genome has 63 protein-coding genes.