We can't find the internet
Attempting to reconnect
Something went wrong!
Hang in there while we get back on track
Draft Genome Sequence of Zalerion maritima ATCC 34329, a (Micro)Plastic-Degrading Marine Fungus.
Summary
This paper reports the draft genome sequence of Zalerion maritima, a marine fungus previously shown to degrade microplastics. Access to the genome enables researchers to identify the genes and enzymes responsible for plastic degradation, potentially leading to biotechnological solutions for microplastic remediation.
Zalerion maritima is a marine fungus that has been studied for the biodegradation of (micro)plastics. Here, we report the draft genome sequence of strain ATCC 34329, which was shown to have a size of 58.4 Mb, a GC content of 44.39%, and 10,802 predicted genes.
Sign in to start a discussion.
More Papers Like This
BIORREMEDIAÇÃO DE MICROPLÁSTICOS COM A COLABORAÇÃO DO FUNGO Zalerion maritimum
This companion paper (in Portuguese) describes the potential of the marine fungus Zalerion maritimum for breaking down microplastics in the ocean. Fungal bioremediation represents an emerging biological approach to reducing plastic pollution in aquatic environments.
Biodegradation of polyethylene microplastics by the marine fungus Zalerion maritimum
Researchers tested whether the marine fungus Zalerion maritima can biodegrade polyethylene microplastics, finding evidence of polymer degradation through weight loss and surface modification, suggesting marine fungi as natural plastic-degrading agents.
The Role of Marine Fungi in Degradation of Microplastic and Plastics – a Review
This review examines the role of marine fungi in the biodegradation of microplastics and bulk plastics, synthesising literature on over 400 known plastic-degrading microorganism species and highlighting the most significant fungal groups capable of decomposing plastic materials in marine environments.
BIORREMEDIAÇÃO DE MICROPLÁSTICOS COM A COLABORAÇÃO DO FUNGO Zalerion maritimum
Researchers investigated whether the marine fungus Zalerion maritimum can bioremediate microplastics in ocean environments, noting that plastic pollution primarily originates from terrestrial sources. The study is a Brazilian-language paper exploring fungal biotechnology as a potential tool for reducing plastic contamination in marine ecosystems.
Prospection of marine filamentous fungi in the biodegradation of microplastic
This Brazilian study examined whether marine filamentous fungi can biodegrade microplastics, exploring their enzyme systems and degradation mechanisms. Marine fungi represent an underexplored biological resource for breaking down the plastic pollution accumulating in ocean environments.