Deanna S. Beatty scite author profile

Licensed to kill: A new antibiotic, anthracimycin (see scheme), produced by a marine‐derived actinomycete in saline culture, shows significant activity toward Bacillus anthracis, the bacterial pathogen responsible for anthrax infections. Chlorination of anthracimycin gives a dichloro derivative that retains activity against Gram‐positive bacteria, such as anthrax, but also shows activity against selected Gram‐negative bacteria.

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Previously Uncultured Marine Bacteria Linked to Novel Alkaloid Production

Choi

Nam

Paul

et al. 2015

Chemistry & Biology

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Low-nutrient media and long incubation times facilitated the cultivation of 20 taxonomically diverse Gram-negative marine bacteria within the phyla Bacteroidetes and Proteobacteria. These strains comprise as many as three new families and include members of clades that had only been observed using culture-independent techniques. Chemical studies of the type strains representing two new families within the order Cytophagales led to the isolation of nine new alkaloid secondary metabolites that can be grouped into four distinct structure classes, including azepinones, aziridines, quinolones, and pyrazinones. Several of these compounds possess antibacterial properties and appear, on structural grounds, to be produced by amino acid-based biosynthetic pathways. Our results demonstrate that relatively simple cultivation techniques can lead to the isolation of new bacterial taxa that are capable of the production of alkaloid secondary metabolites with antibacterial activities. These findings support continued investment in cultivation techniques as a method for natural product discovery.

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Disease surveillance by artificial intelligence links eelgrass wasting disease to ocean warming across latitudes

Aoki

Rappazzo

Beatty

et al. 2022

Limnology & Oceanography

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Ocean warming endangers coastal ecosystems through increased risk of infectious disease, yet detection, surveillance, and forecasting of marine diseases remain limited. Eelgrass (Zostera marina) meadows provide essential coastal habitat and are vulnerable to a temperature-sensitive wasting disease caused by the protist Labyrinthula zosterae. We assessed wasting disease sensitivity to warming temperatures across a 3500 km study range by combining long-term satellite remote sensing of ocean temperature with field surveys from 32 meadows along the Pacific coast of North America in 2019. Between 11% and 99% of plants were infected in individual meadows, with up to 35% of plant tissue damaged. Disease prevalence was 3Â higher in locations with warm temperature anomalies in summer, indicating that the risk of wasting disease will increase with climate warming throughout the geographic range for eelgrass. Large-scale surveys were made possible for the first time by the Eelgrass Lesion Image Segmentation Application, an artificial intelligence (AI) system that quantifies eelgrass wasting disease 5000Â faster and with comparable accuracy to a human expert. This study highlights the value of AI in marine biological observing specifically for detecting widespread climate-driven disease outbreaks.Disease outbreaks frequently cause rapid declines of host populations, transforming community structure and ecosystem functioning. Outbreaks that affect foundation or keystone species have particularly widespread and long-lasting consequences. Prominent examples include the ecological extinction of chestnut trees in eastern U.S. forests from chestnut blight (Ellison et al. 2005); decimation of at least 20 species of sea-stars in the eastern Pacific due to sea-star wasting disease

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Anthracimycin, a Potent Anthrax Antibiotic from a Marine‐Derived Actinomycete

Jang¹,

Nam²,

Locke³

et al. 2013

Angewandte Chemie

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Eine signifikante Aktivität gegen Bacillus anthracis, das bakterielle Pathogen bei Anthraxinfektionen, entfaltet das neue Antibiotikum Anthracimycin, das von einem Meeresactinomyceten in Salzkultur produziert wird. Durch Chlorierung von Anthracimycin entsteht ein Dichlorderivat, das weiterhin gegen Gram‐positive Bakterien wie den Anthraxerreger aktiv ist, aber auch gegen ausgewählte Gram‐negative Bakterien wirkt.

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Intergenerational effects of macroalgae on a reef coral: major declines in larval survival but subtle changes in microbiomes

Beatty

Clements

Stewart

et al. 2018

Mar. Ecol. Prog. Ser.

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Tropical reefs are shifting from coral to macroalgal dominance, with macroalgae suppressing coral recovery, potentially via effects on coral microbiomes. Understanding how macroalgae affect corals and their microbiomes requires comparing algae- versus coral-dominated reefs without confounding aspects of time and geography. We compared survival, settlement, and post-settlement survival of larvae, as well as the microbiomes of larvae and adults, of the Pacific coral Pocillopora damicornis between an Marine Protected Area (MPA) dominated by corals versus an adjacent fished area dominated by macroalgae. Microbiome composition in adult coral, larval coral, and seawater did not differ between the MPA and fished area. However, microbiomes of adult coral were more variable in the fished area and Vibrionaceae bacteria, including strains most closely related to the pathogen Vibrio shilonii, were significantly enriched, but rare, in adult and larval coral from the fished area. Larvae from the macroalgae-dominated area exhibited higher pre-settlement mortality and reduced settlement compared to those from the coral-dominated area. Juveniles planted into a coral-dominated area survived better than those placed into a fished area dominated by macroalgae. Differential survival depended on whether macroalgae were immediately adjacent to juvenile coral rather than on traits of the areas per se. Contrary to our expectations, coral microbiomes were relatively uniform at the community level despite dramatic differences in macroalgal cover between the MPA (~2% cover) and fished (~90%) area. Reducing macroalgae may elicit declines in rare but potentially harmful microbes in coral and their larvae, as well as positive intergenerational effects on offspring survival.

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Deanna S. Beatty

Anthracimycin, a Potent Anthrax Antibiotic from a Marine‐Derived Actinomycete

Previously Uncultured Marine Bacteria Linked to Novel Alkaloid Production

Disease surveillance by artificial intelligence links eelgrass wasting disease to ocean warming across latitudes

Anthracimycin, a Potent Anthrax Antibiotic from a Marine‐Derived Actinomycete

Intergenerational effects of macroalgae on a reef coral: major declines in larval survival but subtle changes in microbiomes

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