An advanced molecular strategy to identify bacterial communities on art objects.
about
Synthetic consolidants attacked by melanin-producing fungi: case study of the biodeterioration of Milan (Italy) cathedral marble treated with acrylicsAmid the possible causes of a very famous foxing: molecular and microscopic insight into Leonardo da Vinci's self-portraitContribution of the microbial communities detected on an oil painting on canvas to its biodeteriorationMultiple displacement amplification as a pre-polymerase chain reaction (pre-PCR) to process difficult to amplify samples and low copy number sequences from natural environments.Potential for plant growth promotion of rhizobacteria associated with Salicornia growing in Tunisian hypersaline soils.Bacterial community dynamics during the application of a Myxococcus xanthus-inoculated culture medium used for consolidation of ornamental limestone.The microbial community characteristics of ancient painted sculptures in Maijishan Grottoes, ChinaHalophilic microorganisms are responsible for the rosy discolouration of saline environments in three historical buildings with mural paintings.Soil dissipation of juvenile hormone analog insecticide pyriproxyfen and its effect on the bacterial community.Abiotic determinants of the historical buildings biodeterioration in the former Auschwitz II-Birkenau concentration and extermination camp.Microbial deterioration of cultural heritage and works of art--tilting at windmills?Microbial communities adhering to the obverse and reverse sides of an oil painting on canvas: identification and evaluation of their biodegradative potentialA combined approach to assess the microbial contamination of the archimedes palimpsestMicroscopic, chemical, and molecular-biological investigation of the decayed medieval stained window glasses of two Catalonian churches.Unmasking the measles-like parchment discoloration: molecular and microanalytical approach.Molecular monitoring of the microbial dynamics occurring on historical limestone buildings during and after the in situ application of different bio-consolidation treatments.Molecular Tools for Monitoring the Ecological Sustainability of a Stone Bio-Consolidation Treatment at the Royal Chapel, GranadaBiodeterioration Risk Threatens the 3100 Year Old Staircase of Hallstatt (Austria): Possible Involvement of Halophilic Microorganisms.Microbial survey of the mummies from the Capuchin Catacombs of Palermo, Italy: biodeterioration risk and contamination of the indoor air.Comparison of different primer sets for use in automated ribosomal intergenic spacer analysis of complex bacterial communities.Physiology of biodeterioration on canvas paintings.Monitoring the colonization of monuments by bacteria: cultivation versus molecular methods.Phylogenetic 16S rRNA analysis reveals the presence of complex and partly unknown bacterial communities in Tito Bustillo cave, Spain, and on its Palaeolithic paintings.Detection of indigenous Halobacillus populations in damaged ancient wall paintings and building materials: molecular monitoring and cultivation.Relationship between microbial community dynamics and process performance during thermophilic sludge bioleaching.Monitoring the effects of different conservation treatments on paper-infecting fungi.Quantification of fungal abundance on cultural heritage using real time PCR targeting the β-actin gene.Molecular and microscopical investigation of the microflora inhabiting a deteriorated Italian manuscript dated from the thirteenth century.Anaerobic biodegradation of toluene coupled to sulfate reduction in oil-contaminated soils: optimum environmental conditions for field applications.Effect of phosphate and sediment bacteria on trichloroethylene dechlorination with zero valent iron.Polyphasic detection of cyanobacteria in terrestrial biofilms.Analyses of bacterial communities in meju, a Korean traditional fermented soybean bricks, by cultivation-based and pyrosequencing methods.Polymerase chain reaction-denaturing gradient gel electrophoresis analysis of bacterial community structure in the food, intestines, and feces of earthworms.Application of denaturing gradient gel electrophoresis for analysing the gut microflora of Lumbricus rubellus Hoffmeister under different feeding conditions.Proteomic and metagenomic insights into prehistoric Spanish Levantine Rock Art.Dual phylogenetic staining protocol for simultaneous analysis of yeast and bacteria in artworksDual phylogenetic staining protocol for simultaneous analysis of yeast and bacteria in artworksBacterial and Fungal Diversity of Quaternary Cave Sediment Deposits
P2860
Q24676138-F16E36E3-EDF7-44DC-97AC-E8B073A2BBB7Q28384915-6D21BE4A-C1CE-42F4-892B-906AB61A902AQ28535459-F0EA9968-9D70-411E-A436-51780DC550B0Q30785410-A3B2CE7D-37C6-45DD-9E76-C6299BD0990AQ31119637-2A63EB61-C788-4C11-B4D4-88AF7C10DFFFQ33555991-E6E5F0DD-5BD2-463A-A9BC-09BBBF318C53Q33873820-E7379E83-733B-4BE4-935F-E713B9370181Q33989247-9A48155E-77E8-4D35-8933-2C6F038C5C1CQ34056424-44D3C283-53AE-48E1-9BC8-2AB74A7BA7C4Q34287376-BA09B2FC-6DBB-4FA6-84A1-E9AFF59A784CQ34375820-1DB18368-7E77-4915-8C5E-5BC94EA5CE90Q34663434-5288CB88-8DF2-4439-820E-E20E5BA3ECD2Q34877053-8F093BAA-B0B0-4AE1-A636-492DFA2E9A2BQ35007764-57ACDF8E-322C-440A-9369-47CD0A0E20DCQ35211705-F8B65FD9-F652-4E60-B0C6-EDBBCB8E2E5DQ35532166-F8F36CDA-1D7B-4760-898C-D3BE88CF476AQ35722601-65F88FAC-D621-4C89-9428-D1A6B025363CQ35925894-BFFD17E3-A640-42F0-BFCC-9841E4FB1833Q37564816-798A5DC1-F1E7-4804-A2B8-FE5EC2671A1BQ37572000-4789FE87-BC56-48FC-9037-21F87E0FAD88Q38369444-C469B0F2-536D-494D-B62F-F388D66D4406Q38485749-5BA83053-712F-40D3-9571-A53E8E7BF958Q38488342-843B076C-E0F1-42CF-A599-F24EF6FBDAD7Q38491944-0128FE81-4F09-4051-91B7-288D7B3F3881Q38871493-473B5B98-6CC8-4D2D-A61F-B06561297839Q39339580-33D5D0F3-641D-491D-A94B-6A858894159CQ39983043-178C3AE2-3D70-420F-94F8-7FD482ACE0FFQ41983804-B2AB8C05-62F0-4FE9-92DC-F93D868E76DEQ44458700-37D52EF0-E13F-4E10-BF85-2F5257351C8CQ46137880-48264444-3F4C-431E-A571-9B05109F9014Q48186455-18CE5DEE-0C57-420B-9F16-605D48676750Q53417780-8DAF651F-9588-4DD0-99DB-48AB33C3A136Q54350908-695AA7A5-C3C3-4FE2-A8C9-B28F1BF63A8AQ54535302-7D9B56D4-3DB5-4FAE-91A6-D8763EBF74DFQ55654769-B73355F1-A35E-40F1-893A-B35D62F94F71Q57499162-0BF3BBC9-0CD6-4ABB-A90B-D9F3E30FD661Q57499166-3E0D790E-B1DE-488A-92E7-CAB05B805174Q59138736-D1DFA5AC-4FC9-4EE1-BEBD-505B4DF6339D
P2860
An advanced molecular strategy to identify bacterial communities on art objects.
description
2001 nî lūn-bûn
@nan
2001 թուականի Յունիսին հրատարակուած գիտական յօդուած
@hyw
2001 թվականի հունիսին հրատարակված գիտական հոդված
@hy
2001年の論文
@ja
2001年論文
@yue
2001年論文
@zh-hant
2001年論文
@zh-hk
2001年論文
@zh-mo
2001年論文
@zh-tw
2001年论文
@wuu
name
An advanced molecular strategy to identify bacterial communities on art objects.
@ast
An advanced molecular strategy to identify bacterial communities on art objects.
@en
type
label
An advanced molecular strategy to identify bacterial communities on art objects.
@ast
An advanced molecular strategy to identify bacterial communities on art objects.
@en
prefLabel
An advanced molecular strategy to identify bacterial communities on art objects.
@ast
An advanced molecular strategy to identify bacterial communities on art objects.
@en
P2093
P1476
An advanced molecular strategy to identify bacterial communities on art objects.
@en
P2093
Schabereiter-Gurtner C
P356
10.1016/S0167-7012(01)00227-5
P577
2001-06-01T00:00:00Z