In recent decades research in the conservation and restoration field has provided sustainable alternatives to traditional procedures for cleaning or controlling the microbial colonization of works of art. In the present study, for the first time novel bioactive molecules extracted from marine invertebrate organisms (Anthozoa) were tested instead of chemical compounds for removing protein layers or as a biocide for controlling fungal or bacterial colonization. In particular, Bioactive Molecules with Protease activity (BMP), acting in a temperature range of 4- 30°C, were tested for the hydrolysis of protein layers on laboratory specimens. The cleaning protocol provides a selective procedure to avoid damage to the original materials constituting the heritage object. Concurrently, enzymatic cleaning was also performed using commercial Protease from Aspergillus sojae (Type XIX), in order to compare their hydrolytic activities. Bioactive Molecules with Antimicrobial activity (BMA1, BMA2) were tested to control bacterial (Bacillus, Micrococcus) or fungal (Aspergillus, Penicillium) growth, previously isolated from colonized canvas samples and characterized by an integrated approach based on in vitro culture, microscopy and molecular investigations. These molecules were tested to define the Minimal Inhibitory Concentration (MIC) and Minimal Bactericidal/ Fungicidal Concentration (MBC/MFC). Specifically, BMAs were used to control fungal growth during the relining of the painting (laboratory specimens), carried out using a canvas support, and glue paste as binder. In our hypothesis, these molecules provide an important contribution to the development of innovative protocols for biocleaning or microbial growth control, based on fast and easy application, operator friendly and environmentally sustainable molecules.
Barresi, G., Di Carlo, E., Trapani, M., Parisi, M., Chillè, C., Mulè, M., et al. (2015). Marine organisms as source of bioactive molecules applied in restoration projects. HERITAGE SCIENCE, 3, 17-20 [10.1186/s40494-015-0046-1].
Marine organisms as source of bioactive molecules applied in restoration projects
Barresi, G.;Di Carlo, E.;Trapani, M.;Parisi, M.;Mulè, M.;Cammarata, M.;Palla, F.
Writing – Review & Editing
2015-01-01
Abstract
In recent decades research in the conservation and restoration field has provided sustainable alternatives to traditional procedures for cleaning or controlling the microbial colonization of works of art. In the present study, for the first time novel bioactive molecules extracted from marine invertebrate organisms (Anthozoa) were tested instead of chemical compounds for removing protein layers or as a biocide for controlling fungal or bacterial colonization. In particular, Bioactive Molecules with Protease activity (BMP), acting in a temperature range of 4- 30°C, were tested for the hydrolysis of protein layers on laboratory specimens. The cleaning protocol provides a selective procedure to avoid damage to the original materials constituting the heritage object. Concurrently, enzymatic cleaning was also performed using commercial Protease from Aspergillus sojae (Type XIX), in order to compare their hydrolytic activities. Bioactive Molecules with Antimicrobial activity (BMA1, BMA2) were tested to control bacterial (Bacillus, Micrococcus) or fungal (Aspergillus, Penicillium) growth, previously isolated from colonized canvas samples and characterized by an integrated approach based on in vitro culture, microscopy and molecular investigations. These molecules were tested to define the Minimal Inhibitory Concentration (MIC) and Minimal Bactericidal/ Fungicidal Concentration (MBC/MFC). Specifically, BMAs were used to control fungal growth during the relining of the painting (laboratory specimens), carried out using a canvas support, and glue paste as binder. In our hypothesis, these molecules provide an important contribution to the development of innovative protocols for biocleaning or microbial growth control, based on fast and easy application, operator friendly and environmentally sustainable molecules.File | Dimensione | Formato | |
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