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author Doval, Raquel Ledo
Müller, Astrid
Brown, Daren W
Johnson, Derek
Quandt, C Alisha
Barry, Kerrie
Clum, Alicia
Hundley, Hope
LaButti, Kurt
Lipzen, Anna
Mondo, Stephen J
Ohm, Robin A
Pangilinan, Jasmyn L
Riley, Robert W
Steindorff, Andrei S
Wang, Mei
Drula, Elodie
Henrissat, Bernard
Bushley, Kathryn
Spatafora, Joseph W
Peng, Mao
Grigoriev, Igor V
de Vries, Ronald P
author_facet Doval, Raquel Ledo
Müller, Astrid
Brown, Daren W
Johnson, Derek
Quandt, C Alisha
Barry, Kerrie
Clum, Alicia
Hundley, Hope
LaButti, Kurt
Lipzen, Anna
Mondo, Stephen J
Ohm, Robin A
Pangilinan, Jasmyn L
Riley, Robert W
Steindorff, Andrei S
Wang, Mei
Drula, Elodie
Henrissat, Bernard
Bushley, Kathryn
Spatafora, Joseph W
Peng, Mao
Grigoriev, Igor V
de Vries, Ronald P
Doval, Raquel Ledo
Müller, Astrid
Brown, Daren W
Johnson, Derek
Quandt, C Alisha
Barry, Kerrie
Clum, Alicia
Hundley, Hope
LaButti, Kurt
Lipzen, Anna
Mondo, Stephen J
Ohm, Robin A
Pangilinan, Jasmyn L
Riley, Robert W
Steindorff, Andrei S
Wang, Mei
Drula, Elodie
Henrissat, Bernard
Bushley, Kathryn
Spatafora, Joseph W
Peng, Mao
Grigoriev, Igor V
de Vries, Ronald P
collection PubMed - marine biology
contents A Comparison of the Biotechnological Potential of Marine and Terrestrial Species of Two Orders of Sordariomycete Fungi. Doval, Raquel Ledo Müller, Astrid Brown, Daren W Johnson, Derek Quandt, C Alisha Barry, Kerrie Clum, Alicia Hundley, Hope LaButti, Kurt Lipzen, Anna Mondo, Stephen J Ohm, Robin A Pangilinan, Jasmyn L Riley, Robert W Steindorff, Andrei S Wang, Mei Drula, Elodie Henrissat, Bernard Bushley, Kathryn Spatafora, Joseph W Peng, Mao Grigoriev, Igor V de Vries, Ronald P Genome, Fungal Biotechnology Phylogeny Hypocreales Aquatic Organisms Marine fungi have been receiving increasing interest, especially with respect to their potential for biotechnological applications. Carbon sources in marine environments, such as seaweeds, have cell walls that are structurally different from the cell walls of terrestrial plants, which implies that marine fungi likely possess a specific set of extracellular enzymes to enable them to use these marine substrates as carbon and energy source. In addition, marine fungi have been implicated as good sources of secondary metabolites with bioactive functions, as e.g., drugs and antibiotics. To evaluate if marine fungi have genomic signatures that distinguish them from terrestrial fungi with respect to biotechnological potential, we genome-sequenced three marine fungal species (Varicosporina prolifera, Corollospora maritima, Emericellopsis maritima), two terrestrial species (Clonostachys rosea, Stanjemonium grisellum), and one that is found in both terrestrial and marine environments (Microascus triganosporus) and compared them to taxonomically-related terrestrial (Microascus stellatus, Valetoniellopsis laxa) and marine species (Emericellopsis atlantica) for which genomes were already available. These fungi originate from two orders (Microascales, Hypocreales) of the Sordariomycetes. We then compared their carbohydrate-active enzymes and secondary metabolism content and their ability to use terrestrial and marine biomass as carbon sources. The analysis revealed that despite the presence of some genes specific to marine fungi, no general genomic or growth phenotypes can be identified to distinguish marine fungi from terrestrial fungi, suggesting that all have maintained the ability to use both marine and terrestrial carbon sources.
format Artículo científico
id pubmed_40560406
institution PubMed
language en
publishDate 2025
publisher Marine biotechnology (New York, N.Y.)
record_format pubmed
spellingShingle A Comparison of the Biotechnological Potential of Marine and Terrestrial Species of Two Orders of Sordariomycete Fungi.
Doval, Raquel Ledo
Müller, Astrid
Brown, Daren W
Johnson, Derek
Quandt, C Alisha
Barry, Kerrie
Clum, Alicia
Hundley, Hope
LaButti, Kurt
Lipzen, Anna
Mondo, Stephen J
Ohm, Robin A
Pangilinan, Jasmyn L
Riley, Robert W
Steindorff, Andrei S
Wang, Mei
Drula, Elodie
Henrissat, Bernard
Bushley, Kathryn
Spatafora, Joseph W
Peng, Mao
Grigoriev, Igor V
de Vries, Ronald P
Genome, Fungal
Biotechnology
Phylogeny
Hypocreales
Aquatic Organisms
A Comparison of the Biotechnological Potential of Marine and Terrestrial Species of Two Orders of Sordariomycete Fungi. Doval, Raquel Ledo Müller, Astrid Brown, Daren W Johnson, Derek Quandt, C Alisha Barry, Kerrie Clum, Alicia Hundley, Hope LaButti, Kurt Lipzen, Anna Mondo, Stephen J Ohm, Robin A Pangilinan, Jasmyn L Riley, Robert W Steindorff, Andrei S Wang, Mei Drula, Elodie Henrissat, Bernard Bushley, Kathryn Spatafora, Joseph W Peng, Mao Grigoriev, Igor V de Vries, Ronald P Genome, Fungal Biotechnology Phylogeny Hypocreales Aquatic Organisms Marine fungi have been receiving increasing interest, especially with respect to their potential for biotechnological applications. Carbon sources in marine environments, such as seaweeds, have cell walls that are structurally different from the cell walls of terrestrial plants, which implies that marine fungi likely possess a specific set of extracellular enzymes to enable them to use these marine substrates as carbon and energy source. In addition, marine fungi have been implicated as good sources of secondary metabolites with bioactive functions, as e.g., drugs and antibiotics. To evaluate if marine fungi have genomic signatures that distinguish them from terrestrial fungi with respect to biotechnological potential, we genome-sequenced three marine fungal species (Varicosporina prolifera, Corollospora maritima, Emericellopsis maritima), two terrestrial species (Clonostachys rosea, Stanjemonium grisellum), and one that is found in both terrestrial and marine environments (Microascus triganosporus) and compared them to taxonomically-related terrestrial (Microascus stellatus, Valetoniellopsis laxa) and marine species (Emericellopsis atlantica) for which genomes were already available. These fungi originate from two orders (Microascales, Hypocreales) of the Sordariomycetes. We then compared their carbohydrate-active enzymes and secondary metabolism content and their ability to use terrestrial and marine biomass as carbon sources. The analysis revealed that despite the presence of some genes specific to marine fungi, no general genomic or growth phenotypes can be identified to distinguish marine fungi from terrestrial fungi, suggesting that all have maintained the ability to use both marine and terrestrial carbon sources.
title A Comparison of the Biotechnological Potential of Marine and Terrestrial Species of Two Orders of Sordariomycete Fungi.
topic Genome, Fungal
Biotechnology
Phylogeny
Hypocreales
Aquatic Organisms
url https://pubmed.ncbi.nlm.nih.gov/40560406/