RESUMO
Phage Sonora is a siphophage that was isolated against the opportunistic human pathogen Stenotrophomonas maltophilia. The genome of phage Sonora is 63,825 bp long and is not related to that of any phage at the nucleotide level. Sonora shares 46 of 97 total proteins with the Bordetella phages CN2, MW2, and FP1.
RESUMO
Stenotrophomonas maltophilia is a Gram-negative bacterium known to cause respiratory tract infections and other diseases in humans. Here, we describe the isolation and genome annotation of S. maltophilia siphophage Suzuki. Its 56,042-bp genome has 83 predicted protein-coding genes and demonstrates similarity with Xylella phages Sano and Salvo.
RESUMO
Stenotrophomonas maltophilia is an opportunistic Gram-negative bacterium capable of causing respiratory infections. S. maltophilia siphophage Silvanus was isolated, and its 45,678-bp genome is not closely related to known phages based on whole-genome comparative genomics analysis. It is predicted to use cos-type packaging due to the similarity of its large terminase subunit to that of phage HK97.
RESUMO
Stenotrophomonas maltophilia is a Gram-negative opportunistic bacterium that is increasingly being associated with infections. Here, we report the complete genome of the S. maltophilia myophage Marzo, with a 159,384-bp genome encoding 268 proteins, 23 tRNAs, and 1 transfer-messenger RNA. Marzo is closely related to S. maltophilia phages IME-SM1 and Mendera.
RESUMO
Stenotrophomonas maltophilia is an opportunistic pathogen exhibiting resistance to multiple antimicrobials. This study reports the complete genome of an S. maltophilia siphophage, Summit. Its genome of 95,728 bp has 148 protein-coding genes and 5 tRNAs, including 1 predicted suppressor tRNA. Possible target genes for the suppressor tRNA are not identified.
RESUMO
Stenotrophomonas maltophilia is an opportunistic bacterium that is commonly associated with respiratory infections in immunocompromised patients, including cystic fibrosis patients. In this report, we introduce the complete genome sequence of S. maltophilia podophage Pepon, which is a T7-like phage closely related to the previously reported phage Ponderosa.
RESUMO
Burkholderia cenocepacia is able to cause infections in cystic fibrosis patients. B. cenocepacia phage Paku has a 42,727-bp genome sharing a phiKMV-like genome arrangement. T7-like tail components were identified in parallel with a tyrosine integrase, suggesting that Paku might exhibit a temperate lifestyle, an atypical feature for an Autographiviridae phage.
RESUMO
Stenotrophomonas maltophilia is a multidrug-resistant nosocomial pathogen that can cause life-threatening infections among immunocompromised populations. This report presents the complete 74,962-bp genome of S. maltophilia podophage Paxi, an N4-like phage sharing 85.3% nucleotide similarity to S. maltophilia podophage Pokken.
RESUMO
Stenotrophomonas maltophilia is emerging as an opportunistic multidrug-resistant pathogen. S. maltophilia podophage Philippe has a 74,717-bp genome which is related broadly to the N4-like phage group, including Stenotrophomonas phage Pokken. The low sequence identity to other described phages suggests that Philippe is an unclassified member of the N4-like subfamily Rothmandenesvirinae.
RESUMO
Stenotrophomonas maltophilia is an emerging multidrug-resistant opportunistic human pathogen causing various nosocomial infections. Here, we characterize the genome of S. maltophilia podophage Piffle. Its 76,332-bp genome is most closely related to the N4-like S. maltophilia podophage Pokken, with over 86% genome-wide nucleotide identity and 84 shared proteins.
RESUMO
Phage Suso is a temperate siphophage of Stenotrophomonas maltophilia with a 44,659-bp genome. This phage is closely related to Stenotrophomonas phage SM171, sharing 92% overall nucleotide identity as determined by BLASTn, and it shares 14 similar proteins (BLASTp, E value < 0.001) with some Pseudomonas phages from the genus Beetrevirus.
RESUMO
Stenotrophomonas maltophilia is an opportunistic pathogen demonstrating increasing drug resistance. Here, the genome of the T7-like S. maltophilia podophage Ptah is described. Its 42,593-bp genome is closely related to previously reported T7-like S. maltophilia podophages, including phage Ponderosa.
RESUMO
Stenotrophomonas maltophilia is associated with an increasing incidence of nosocomial infections. Here, we describe the isolation and genome annotation of S. maltophilia siphophage Siara. Its 61,427-bp genome is currently related only to one phage in the NCBI database, namely, S. maltophilia phage Salva, and is not related to any prophages.
RESUMO
Streptomyces spp. are saprophytic soil bacteria that produce secondary metabolites with therapeutic potential. This announcement describes the isolation and genome annotation of Streptomyces sp. strain Mg1 siphophage Shady. Learning more about Shady's novel 45-kb genome, containing 76 predicted protein-coding genes, could be industrially advantageous when using streptomycetes for their products.
RESUMO
Streptomyces are Gram-negative soil bacteria that can degrade lignin and synthesize antibiotics. Some species cause mycetoma, pneumonitis, and bloodstream infections. Here, we present the genome sequence of the Streptomyces sp. strain Mg1 phage Salutena, a siphovirus in the subfamily Arquatrovirinae The genome is 51,993 bp, with 90 predicted protein-coding genes.
RESUMO
Streptomyces sp. strain Mg1 is a Gram-positive soil bacterium capable of causing cell lysis and degradation of Bacillus subtilis colonies. Here, we report the 48,481-bp genome of Streptomyces sp. Mg1 siphophage Sitrop. With 77 predicted protein-coding genes and one tRNA, Sitrop shares 77% nucleotide sequence identity with the Streptomyces phage Verse.
RESUMO
Here, we present the genome of siphophage Shaeky, infecting the Gram-positive bacterium Streptomyces sp. strain Mg1. Shaeky has very low sequence identity to other phages, with phage phiC31 being the most closely related in the NCBI database. The Shaeky genome is 45,617 bp with 77 protein-coding genes and 16 tRNAs.
RESUMO
The Streptomyces genus produces over two-thirds of clinically useful, natural antibiotics. Here, we describe the isolation and genome annotation of siphophage Sentinel, which utilizes Streptomyces sp. strain Mg1 as a host. It has a 50,272-bp genome and 83 protein-coding genes and shows similarity to other Streptomyces phages in the Arequatrovirus genus.
RESUMO
Streptomyces sp. strain Mg1 is a competitive soil-dwelling bacterium that secretes antibiotics that inhibit growth of Bacillus subtilis Here, we present the genome sequence of Sycamore, a 44,694-bp Streptomyces sp. Mg1 siphophage with 66 predicted protein-coding genes, that is similar to phage genome sequences in the Lomovskayavirus genus.
RESUMO
Streptomyces spp. are Gram-positive soil bacteria that have been reported in some cases to cause acute and chronic infections, including mycetomas, pneumonia, and septicemia. Here, we present Streptomyces sp. strain Mg1 phage Spernnie. Spernnie is a temperate siphophage containing 89 predicted coding genes in a 50,834-bp genome sequence.