Sub-lineage B.1.6 of hMPXV in a global context: Phylogeny and epidemiology.

During the 2022 COVID-19 pandemic, monkeypox emerged as a significant threat to global health. The virus responsible for the disease, the human monkeypox virus (hMPXV), underwent various genetic changes, resulting in the emergence of over a dozen distinct lineages, which could be identified by only a small number of unique mutations. As of January 25, 2023, genomic information of hMPXV generated had reached 4632 accessions in the GISAID database. In this study, we aimed to investigate the epidemiological and phylogenetic characteristics of the B.1.6 sub-lineage of hMPXV in Peru, compared with other circulating sub-lineages during the global outbreak. The B.1.6 sub-lineage, characterized by the 111029G>A mutation, was estimated to have emerged in June 2022 and was found mainly in Peru. Most cases (95.8%) were men with an average age of 33 years, and nearly half of the patients had HIV, of whom only 77.35% received antiretroviral therapy. Our findings revealed that the B.1.6, B.1.4, and B.1.2 sub-lineages were well represented and had a higher number of mutations despite having the lowest media substitution rates per site per year. Moreover, it was estimated that B.1.2 and B.1.4 appeared in February 2022 and were the first two sub-lineages to emerge. A mutation profile was also obtained for each sub-lineage, reflecting that several mutations had a pattern similar to the characteristic mutation. This study provides the first estimation of the substitution rate and ancestry of each monkeypox sub-lineage belonging to the 2022 outbreak. Based on our findings, continued genomic surveillance of monkeypox is necessary to understand better and track the evolution of the virus.

Genomic surveillance of the Lambda SARS-CoV-2 variant in a global phylogenetic context.

The massive sequencing of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) and global genomic surveillance strategies allowed the detection of many variants of concern and interest. The variant of interest Lambda (C.37), which originated in South America, has been the most prevalent in Peru and Chile, but its dispersion in other continents still remains unknown. The current study aims to determine the phylogenetic relationship among C.37 isolates worldwide, focusing on spike mutations to understand the spread of Lambda in pandemics. A total of 7441 sequences identified as C.37 were downloaded from the GISAID database; local analysis was carried out to identify spike mutations and phylogenetic analysis was carried out to determine the rate of spread of the virus. Our results showed some spike mutations of Lambda that allowed us to detect small local outbreaks in different countries that occurred in the past and identify several clades that have not yet been designated. Although the lineage C.37 is not epidemiologically relevant in Europe or North America, the endemic behavior of this variant in Peru had a major impact on the second SARS-CoV-2 wave.

Complete genome sequence of Shewanella algae strain 2NE11, a decolorizing bacterium isolated from industrial effluent in Peru.

Shewanella is a microbial group with high potential to be applied in textile effluents bioremediation due to its ability to use a wide variety of substrates as a final electron acceptor in respiration. The present research aimed to describe a new strain, Shewanella algae 2NE11, a decolorizing bacterium isolated from industrial effluent in Peru. S. algae 2NE11 showed an optimal growth under pH 6-9, temperature between 30-40 °C, and 0-4 % NaCl. It can tolerate high concentrations of NaCl until 10% and low temperatures as 4 °C. It decolorizes azo and anthraquinone dyes with a decolorization rate of 89-97%. We performed next-generation sequencing (Pacific Bioscience®) and achieved its complete genome sequence with a length of 5,030,813bp and a GC content of 52.98%. Genomic characterization revealed the presence of protein-coding genes related to decolorization like azoreductase, dyp-peroxidase, oxidoreductases, and the complete Mtr respiratory pathway. Likewise, we identified other properties such as the presence of metal resistant genes, and genes related to lactate and N-acetylglucosamine metabolism. These results highlight its potential to be applied in the bioremediation of textile effluents and guide future research on decolorization metabolic pathways.

Genomic analysis reveals a rapid spread and predominance of lambda (C.37) SARS-COV-2 lineage in Peru despite circulation of variants of concern.

The pandemic generated by SARS-Cov-2 has caused a large number of cases and deaths in the world, but South America has been one of the continents that were most hard hit. The appearance of new variants causes concern because of the possibility that they may evade the protection generated by vaccination campaigns, their greater capacity to be transmitted, or their higher virulence. We analyzed the circulating variants in Peru after improving our Genomic Surveillance program. The results indicate a steep increase of the lambda lineage (C.37) until becoming predominant between January and April 2021, despite the cocirculation of other variants of concern or interest. Lambda lineage deserves close monitoring and could probably become a variant of concern in the near future.

Complete Genome Sequence of Halomonas sp. Strain SH5A2, a Dye-Degrading Halotolerant Bacterium Isolated from the Salinas and Aguada Blanca National Reserve in Peru.

Halomonas sp. strain SH5A2 is a halotolerant bacterium isolated from Salinas Lake at 4,300 m above sea level in Peru. Here, we report its complete genome sequence with a length of 3,849,224 bp and highlight the presence of genes putatively related to dye degradation, such as NADPH-dependent oxidoreductases.