Matteo Di Giosia scite author profile

Ocean acidification is predicted to impact ecosystems reliant on calcifying organisms, potentially reducing the socioeconomic benefits these habitats provide. Here we investigate the acclimation potential of stony corals living along a pH gradient caused by a Mediterranean CO2 vent that serves as a natural long-term experimental setting. We show that in response to reduced skeletal mineralization at lower pH, corals increase their skeletal macroporosity (features >10 μm) in order to maintain constant linear extension rate, an important criterion for reproductive output. At the nanoscale, the coral skeleton's structural features are not altered. However, higher skeletal porosity, and reduced bulk density and stiffness may contribute to reduce population density and increase damage susceptibility under low pH conditions. Based on these observations, the almost universally employed measure of coral biomineralization, the rate of linear extension, might not be a reliable metric for assessing coral health and resilience in a warming and acidifying ocean.

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Luminescent gold nanoclusters as biocompatible probes for optical imaging and theranostics

Cantelli

Battistelli

Guidetti

et al. 2016

Dyes and Pigments

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C₆₀@lysozyme: a new photosensitizing agent for photodynamic therapy

et al. 2017

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Concanavalin A-Rose Bengal bioconjugate for targeted Gram-negative antimicrobial photodynamic therapy

Cantelli

Piro

Pecchini

et al. 2020

Journal of Photochemistry and Photobiology B: Biology

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A Bio‐Conjugated Fullerene as a Subcellular‐Targeted and Multifaceted Phototheranostic Agent

Giosia

Soldà

Seeger

et al. 2021

Adv Funct Materials

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Fullerenes are candidates for theranostic applications because of their high photodynamic activity and intrinsic multimodal imaging contrast. However, fullerenes suffer from low solubility in aqueous media, poor biocompatibility, cell toxicity, and a tendency to aggregate. C70@lysozyme is introduced herein as a novel bioconjugate that is harmless to a cellular environment, yet is also photoactive and has excellent optical and optoacoustic contrast for tracking cellular uptake and intracellular localization. The formation, water‐solubility, photoactivity, and unperturbed structure of C70@lysozyme are confirmed using UV‐visible and 2D 1H, 15N NMR spectroscopy. The excellent imaging contrast of C70@lysozyme in optoacoustic and third harmonic generation microscopy is exploited to monitor its uptake in HeLa cells and lysosomal trafficking. Last, the photoactivity of C70@lysozyme and its ability to initiate cell death by means of singlet oxygen (1O2) production upon exposure to low levels of white light irradiation is demonstrated. This study introduces C70@lysozyme and other fullerene‐protein conjugates as potential candidates for theranostic applications.

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Matteo Di Giosia

Gains and losses of coral skeletal porosity changes with ocean acidification acclimation

Luminescent gold nanoclusters as biocompatible probes for optical imaging and theranostics

C₆₀@lysozyme: a new photosensitizing agent for photodynamic therapy

Concanavalin A-Rose Bengal bioconjugate for targeted Gram-negative antimicrobial photodynamic therapy

A Bio‐Conjugated Fullerene as a Subcellular‐Targeted and Multifaceted Phototheranostic Agent

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Matteo Di Giosia

Gains and losses of coral skeletal porosity changes with ocean acidification acclimation

Luminescent gold nanoclusters as biocompatible probes for optical imaging and theranostics

C60@lysozyme: a new photosensitizing agent for photodynamic therapy

Concanavalin A-Rose Bengal bioconjugate for targeted Gram-negative antimicrobial photodynamic therapy

A Bio‐Conjugated Fullerene as a Subcellular‐Targeted and Multifaceted Phototheranostic Agent

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Product

Resources

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C₆₀@lysozyme: a new photosensitizing agent for photodynamic therapy