Your search keyword '"Souza GFL"' showing total 10 results

1. Erratum: Description of Millerago gen. nov. based on taxogenomic analysis, with two new species, Millerago phaffii f.a., sp. nov. and Millerago galiae f.a., sp. nov.

Author

García-Acero AM, Batista TM, Souza GFL, Santos ARO, Souza DL, Franco GR, Velásquez-Lozano ME, Yamamoto D, Toki W, Lachance MA, and Rosa CA

Published

2024

2. Description of Millerago gen. nov. based on taxogenomic analysis, with two new species, Millerago phaffii f.a., sp. nov. and Millerago galiae f.a., sp. nov.

Author

García-Acero AM, Batista TM, Souza GFL, Santos ARO, Souza DL, Franco GR, Velásquez-Lozano ME, Yamamoto D, Toki W, Lachance MA, and Rosa CA

Subjects

Japan, Colombia, Quercus microbiology, Plant Bark microbiology, Mycological Typing Techniques, Animals, Insecta microbiology, Saccharomycetales genetics, Saccharomycetales classification, Saccharomycetales isolation & purification, Candida genetics, Candida classification, Candida isolation & purification, Phylogeny, DNA, Fungal genetics, Sequence Analysis, DNA, DNA, Ribosomal Spacer genetics

Abstract

Four yeast isolates obtained from tree bark and fermenting sap of Quercus spp. and insects in Colombia and Japan were phylogenetically related to Candida galis based on analyses of the sequences of the internal transcribed spacer (ITS) region and the D1/D2 domains of the large subunit rRNA gene. The novel species differs from C. galis by 20 nt substitutions and 5 indels in the D1/D2 sequences. A phylogenomic analysis suggested that these species are related to Candida ficus , the genus Phaffomyces and a small clade containing Barnettozyma botsteinii , Barnettozyma siamensis and Candida montana . Our genomic analyses suggest that the novel species and C. galis should be separated in a novel yeast genus. We propose the genus Millerago gen. nov. to accommodate these species and the species Millerago phaffii f.a., sp. nov. (CBS 18021 T ; MycoBank MB856172) to accommodate the Colombian and Japanese isolates. The Colombian isolate of M. phaffii differs from the Japanese isolates by three nt substitutions and one indel and two substitutions and one indel in the ITS and D1/D2 sequences, respectively, showing that they were conspecific. We also propose the new species Millerago galiae sp. nov. to validate this species according to the rules of the International Code of Nomenclature for algae, fungi and plants.

Published

2024

3. Spencermartinsiella nicolii sp. nov., a potential opportunistic pathogenic yeast species isolated from rotting wood in Brazil.

Author

Barros KO, Valério AD, Batista TM, Santos ARO, Souza GFL, Alvarenga FBM, Lopes MR, Morais CG, Alves C, Goes-Neto A, Vital MJS, Uetanabaro APT, Souza DL, Bai FY, Franco GR, Lachance MA, Rosa CA, and Johann S

Subjects

Brazil, Mycological Typing Techniques, DNA, Ribosomal Spacer genetics, Rainforest, Forests, Phylogeny, Wood microbiology, DNA, Fungal genetics, Saccharomycetales genetics, Saccharomycetales isolation & purification, Saccharomycetales classification, Sequence Analysis, DNA

Abstract

Nineteen isolates representing a candidate for a novel yeast species belonging to the genus Spencermartinsiella were recovered from rotting wood samples collected at different sites in Atlantic Rainforest and Amazonian Forest ecosystems in Brazil. Similarity search of the nucleotide sequence of the intergenic spacer (ITS)-5.8S and large subunit D1/D2 regions of the ribosomal gene cluster showed that this novel yeast is closely related to Spencermartinsiella cellulosicola . The isolates differ by four nucleotide substitutions in the D1/D2 domain and six substitutions and 31 indels in the ITS region from the holotype of S. cellulosicola . Phylogenomic analysis based on 1474 single-copy orthologues for a set of Spencermartinsiella species whose whole genome sequences are available confirmed that the novel species is phylogenetically close to S. cellulosicola . The low average nucleotide identity value of 83% observed between S. cellulosicola and the candidate species confirms that they are distinct. The novel species produced asci with hemispherical ascospores. The name Spencermartinsiella nicolii sp. nov. is proposed. The holotype is CBS 14238 T . The MycoBank number is MB855027. Interestingly, the D1/D2 sequence of the S. nicolii was identical to that of an uncultured strain of Spencermartinsiella causing systemic infection in a male adult crocodile ( Crocodylus niloticus ). The characterization of some virulence factors and antifungal susceptibility of S. nicolii isolates suggest that this yeast may be an opportunistic pathogen for animals, including humans; the isolates grow at 37 °C.

Published

2024

4. Spathaspora marinasilvae sp. nov., a xylose-fermenting yeast isolated from galleries of passalid beetles and rotting wood in the Amazonian rainforest biome.

Author

Barros KO, Batista TM, Soares RCC, Lopes MR, Alvarenga FBM, Souza GFL, Abegg MA, Santos ARO, Góes-Neto A, Hilário HO, Moreira RG, Franco GR, Lachance MA, and Rosa CA

Subjects

Animals, Brazil, Fermentation, DNA, Fungal genetics, Sequence Analysis, DNA, Phylogeny, Wood microbiology, Coleoptera microbiology, Rainforest, Saccharomycetales genetics, Saccharomycetales classification, Saccharomycetales isolation & purification, Saccharomycetales metabolism, Xylose metabolism

Abstract

Four yeast isolates were obtained from rotting wood and galleries of passalid beetles collected in different sites of the Brazilian Amazonian Rainforest in Brazil. This yeast produces unconjugated allantoid asci each with a single elongated ascospore with curved ends. Sequence analysis of the internal transcribed spacer-5.8 S region and the D1/D2 domains of the large subunit ribosomal RNA (rRNA) gene showed that the isolates represent a novel species of the genus Spathaspora. The novel species is phylogenetically related to a subclade containing Spathaspora arborariae and Spathaspora suhii. Phylogenomic analysis based on 1884 single-copy orthologs for a set of Spathaspora species whose whole genome sequences are available confirmed that the novel species represented by strain UFMG-CM-Y285 is phylogenetically close to Sp. arborariae. The name Spathaspora marinasilvae sp. nov. is proposed to accommodate the novel species. The holotype of Sp. marinasilvae is CBS 13467  T (MycoBank 852799). The novel species was able to accumulate xylitol and produce ethanol from  d-xylose, a trait of biotechnological interest common to several species of the genus Spathaspora., (© 2024 John Wiley & Sons Ltd.)

Published

2024

5. Ogataea nonmethanolica f.a, sp. nov., a novel yeast species isolated from rotting wood in Brazil and Colombia.

Author

Garcia-Acero AM, Morais CG, Souza GFL, Santos ARO, Lachance MA, Velásquez-Lozano ME, and Rosa CA

Subjects

Brazil, Phylogeny, Colombia, DNA, Ribosomal Spacer genetics, Wood, RNA, Ribosomal, 16S genetics, DNA, Fungal genetics, Mycological Typing Techniques, Sequence Analysis, DNA, DNA, Bacterial genetics, Bacterial Typing Techniques, Base Composition, Fatty Acids chemistry, Nucleotides, Peptide Elongation Factor 1 genetics, Saccharomycetales genetics

Abstract

Three yeast isolate candidates for a novel species were obtained from rotting wood samples collected in Brazil and Colombia. The Brazilian isolate differs from the Colombian isolates by one nucleotide substitution in each of the D1/D2 and small subunit (SSU) sequences. The internal transcribed spacer (ITS) and translation elongation factor 1-α gene sequences of the three isolates were identical. A phylogenetic analysis showed that this novel species belongs to the genus Ogataea . This novel species is phylogenetically related to Candida nanaspora and Candida nitratophila . The novel species differs from C. nanaspora by seven nucleotides and two indels, and by 17 nucleotides and four indels from C. nitratophila in the D1/D2 sequences. The ITS sequences of these three species differ by more than 30 nucleotides. Analyses of the sequences of the SSU and translation elongation factor 1-α gene also showed that these isolates represent a novel species of the genus Ogataea . Different from most Ogataea species, these isolates did not assimilate methanol as the sole carbon source. The name Ogataea nonmethanolica sp. nov. is proposed to accommodate these isolates. The holotype of Ogataea nonmethanolica is CBS 13485 T . The MycoBank number is MB 851195.

Published

2024

6. Yueomyces silvicola sp. nov., a novel ascomycetous yeast species unable to utilize ammonium, glutamate, and glutamine as sole nitrogen sources.

Author

Yu HT, Shang YJ, Zhu HY, Han PJ, Wang QM, Santos ARO, Barros KO, Souza GFL, Alvarenga FBM, Abegg MA, Rosa CA, and Bai FY

Subjects

Saccharomyces cerevisiae genetics, Glutamine genetics, Glutamic Acid genetics, Phylogeny, DNA, Ribosomal Spacer genetics, Sequence Analysis, DNA, Amino Acids genetics, DNA, Fungal genetics, Ammonium Compounds, Saccharomycetales genetics

Abstract

Five yeast strains isolated from tree bark and rotten wood collected in central and southwestern China, together with four Brazilian strains (three from soil and rotting wood collected in an Amazonian rainforest biome and one from Bromeliad collected in Alagoas state) and one Costa Rican strain isolated from a flower beetle, represent a new species closely related with Yueomyces sinensis in Saccharomycetaceae, as revealed by the 26S ribosomal RNA gene D1/D2 domain and the internal transcribed spacer region sequence analysis. The name Yueomyces silvicola sp. nov. is proposed for this new species with the holotype China General Microbiological Culture Collection Center 2.6469 (= Japan Collection of Microorganisms 34885). The new species exhibits a whole-genome average nucleotide identity value of 77.8% with Y. sinensis. The two Yueomyces species shared unique physiological characteristics of being unable to utilize ammonium and the majority of the amino acids, including glutamate and glutamine, as sole nitrogen sources. Among the 20 amino acids tested, only leucine and tyrosine can be utilized by the Yueomyces species. Genome sequence comparison showed that GAT1, which encodes a GATA family protein participating in transcriptional activation of nitrogen-catabolic genes in Saccharomyces cerevisiae, is absent in the Yueomyces species. However, the failure of the Yueomyces species to utilize ammonium, glutamate, and glutamine, which are generally preferred nitrogen sources for microorganisms, implies that more complicated alterations in the central nitrogen metabolism pathway might occur in the genus Yueomyces., (© 2023 John Wiley & Sons Ltd.)

Published

2023

7. Saccharomycopsis praedatoria sp. nov., a predacious yeast isolated from soil and rotten wood in an Amazonian rainforest biome.

Author

Santos ARO, Barros KO, Batista TM, Souza GFL, Alvarenga FBM, Abegg MA, Sato TK, Hittinger CT, Lachance MA, and Rosa CA

Subjects

Wood, Rainforest, Saccharomyces cerevisiae genetics, Soil, Phylogeny, Sequence Analysis, DNA, RNA, Ribosomal, 16S genetics, DNA, Bacterial genetics, Bacterial Typing Techniques, Base Composition, Fatty Acids chemistry, DNA, Ribosomal Spacer genetics, DNA, Fungal genetics, Mycological Typing Techniques, Saccharomycopsis, Saccharomycetales

Abstract

Three yeast isolates were obtained from soil and rotting wood samples collected in an Amazonian rainforest biome in Brazil. Comparison of the intergenic spacer 5.8S region and the D1/D2 domains of the large subunit rRNA gene showed that the isolates represent a novel species of the genus Saccharomycopsis . A tree inferred from the D1/D2 sequences placed the novel species near a subclade containing Saccharomycopsis lassenensis , Saccharomycopsis fermentans , Saccharomycopsis javanensis , Saccharomycopsis babjevae , Saccharomycopsis schoenii and Saccharomycopsis oosterbeekiorum , but with low bootstrap support. In terms of sequence divergence, the novel species had the highest identity in the D1/D2 domains with Saccharomycopsis capsularis , from which it differed by 36 substitutions. In contrast, a phylogenomic analysis based on 1061 single-copy orthologs for a smaller set of Saccharomycopsis species whose whole genome sequences are available indicated that the novel species represented by strain UFMG-CM-Y6991 is phylogenetically closer to Saccharomycopsis fodiens and Saccharomycopsis sp. TF2021a (= Saccharomycopsis phalluae ). The novel yeast is homothallic and produces asci with one spheroidal ascospore with an equatorial or subequatorial ledge. The name Saccharomycopsis praedatoria sp. nov. is proposed to accommodate the novel species. The holotype of Saccharomycopsis praedatoria is CBS 16589 T . The MycoBank number is MB849369. S. praedatoria was able to kill cells of Saccharomyces cerevisiae by means of penetration with infection pegs, a trait common to most species of Saccharomycopsis .

Published

2023

8. Sugiyamaella bielyi f. a., sp. nov. and Sugiyamaella amazoniana f. a., sp. nov., two yeast species isolated from passalid beetles and rotting wood in Amazonia.

Author

Souza GFL, Barros KO, Alvarenga FBM, Santos ARO, Fonseca CRV, Abegg MA, Lachance MA, and Rosa CA

Subjects

Animals, Wood, Brazil, Phylogeny, Sequence Analysis, DNA, DNA, Fungal genetics, Mycological Typing Techniques, Base Composition, RNA, Ribosomal, 16S genetics, DNA, Bacterial genetics, Bacterial Typing Techniques, Fatty Acids chemistry, DNA, Ribosomal Spacer genetics, Coleoptera, Saccharomycetales

Abstract

Sixteen yeast isolates representing two novel species of the genus Sugiyamaella were obtained from passalid beetles, their galleries and rotting wood collected in three sites of Amazonian Forest in Brazil. Sequence analyses of the ITS-5.8S region and the D1/D2 domains of the large subunit rRNA gene showed that the first species, described here as Sugiyamaella amazoniana f. a., sp. nov. (holotype CBS 18112, MycoBank 847461) is phylogenetically related to S. bonitensis with these species differing by 37 nucleotide substitutions and six gaps in D1/D2 sequences. S. amazoniana is represented by nine isolates obtained from the guts of the passalid beetles Popilius marginatus , Veturius magdalenae , Veturius sinuosus and Spasalus aquinoi , a beetle gallery and rotting wood. The second species, Sugiyamaella bielyi f. a., sp. nov. (holotype CBS 18148, MycoBank 847463), is most phylogenetically related to several undescribed Sugiyamaella species. S. bielyi is described based on seven isolates obtained from the guts of V. magdalenae and V. sinuosus , a beetle gallery and rotting wood. Both species appear to be associated with passalid beetles and their ecological niches in Amazonian biome.

Published

2023

9. Spathaspora brunopereirae sp. nov. and Spathaspora domphillipsii sp. nov., two d-xylose-fermenting ascosporogenous yeasts from Amazonian Forest biomes.

Author

Santos ARO, Souza GFL, Barros KO, Alvarenga FBM, Lopes MR, Souza LMD, Rosa LH, Góes-Neto A, Morais PB, Lachance MA, and Rosa CA

Subjects

Ecosystem, Sequence Analysis, DNA, RNA, Ribosomal, 16S genetics, Phylogeny, DNA, Bacterial genetics, Bacterial Typing Techniques, Base Composition, Fatty Acids chemistry, Yeasts genetics, Forests, Wood, DNA, Fungal genetics, DNA, Ribosomal Spacer genetics, Xylose, Saccharomycetales genetics

Abstract

Four isolates of Spathaspora species were recovered from rotting wood collected in two Brazilian Amazonian biomes. The isolates produced unconjugated allantoid asci with a single elongated ascospore with curved ends. Sequence analysis of the ITS-5.8S region and the D1/D2 domains of the large subunit rRNA gene showed that the isolates represent two different novel Spathaspora species, phylogenetically related to Sp. boniae . Two isolates were obtained from rotting wood collected in two different sites of the Amazonian forest in the state of Pará. The name Spathaspora brunopereirae sp. nov. is proposed to accommodate these isolates. The holotype of Spathaspora brunopereirae sp. nov. is CBS 16119 T (MycoBank MB846672). The other two isolates were obtained from a region of transition between the Amazonian forest and the Cerrado ecosystem in the state of Tocantins. The name Spathaspora domphillipsii sp. nov. is proposed for this novel species. The holotype of Spathaspora domphillipsii sp. nov. is CBS 14229 T (MycoBank MB846697). Both species are able to convert d-xylose into ethanol and xylitol, a trait with biotechnological applications.

Published

2023

10. The Brazilian Amazonian rainforest harbors a high diversity of yeasts associated with rotting wood, including many candidates for new yeast species.

Author

Barros KO, Alvarenga FBM, Magni G, Souza GFL, Abegg MA, Palladino F, da Silva SS, Rodrigues RCLB, Sato TK, Hittinger CT, and Rosa CA

Subjects

Cellulose, Rainforest, Brazil, Phylogeny, Yeasts, Wood, Saccharum

Abstract

This study investigated the diversity of yeast species associated with rotting wood in Brazilian Amazonian rainforests. A total of 569 yeast strains were isolated from rotting wood samples collected in three Amazonian areas (Universidade Federal do Amazonas-Universidade Federal do Amazonas [UFAM], Piquiá, and Carú) in the municipality of Itacoatiara, Amazon state. The samples were cultured in yeast nitrogen base (YNB)-d-xylose, YNB-xylan, and sugarcane bagasse and corncob hemicellulosic hydrolysates (undiluted and diluted 1:2 and 1:5). Sugiyamaella was the most prevalent genus identified in this work, followed by Kazachstania. The most frequently isolated yeast species were Schwanniomyces polymorphus, Scheffersomyces amazonensis, and Wickerhamomyces sp., respectively. The alpha diversity analyses showed that the dryland forest of UFAM was the most diverse area, while the floodplain forest of Carú was the least. Additionally, the difference in diversity between UFAM and Carú was the highest among the comparisons. Thirty candidates for new yeast species were obtained, representing 36% of the species identified and totaling 101 isolates. Among them were species belonging to the clades Spathaspora, Scheffersomyces, and Sugiyamaella, which are recognized as genera with natural xylose-fermenting yeasts that are often studied for biotechnological and ecological purposes. The results of this work showed that rotting wood collected from the Amazonian rainforest is a tremendous source of diverse yeasts, including candidates for new species., (© 2022 John Wiley & Sons Ltd.)

Published

2023