04213nam 2200865z- 450 991034685770332120231214133449.03-03897-981-3(CKB)4920000000095090(oapen)https://directory.doabooks.org/handle/20.500.12854/42129(EXLCZ)99492000000009509020202102d2019 |y 0engurmn|---annantxtrdacontentcrdamediacrrdacarrierBioactive Compounds from Marine-Derived Aspergillus, Penicillium, Talaromyces and Trichoderma SpeciesMDPI - Multidisciplinary Digital Publishing Institute20191 electronic resource (134 p.)3-03897-980-5 The importance of bioactive natural compounds in pharmacology and other biotechnological fields has stimulated the scientific community to explore new environmental contexts and their associated microbial diversity. As the largest frontier in biological discovery, the sea represents a significant source of organisms producing novel secondary metabolites with interesting bioactivities. Of the available biological material, fungi have received increasing consideration, both due to their pervasive occurrence in varying habitats as well as their aptitude to develop symbiotic associations with higher organisms in numerous contexts. In many cases, fungal strains have been reported as the real producers of drugs originally extracted from marine plants and animals. Due to the constantly increasing number of marine-derived fungi yielding valuable bioactive products, it is now appropriate to present these findings to a recipient audience in a more organized form. This Special Issue of Marine Drugs, entitled “Bioactive Compounds from Marine-Derived Aspergillus, Penicillium, Talaromyces, and Trichoderma Species"" is specifically focused on a few genera of ascomycetous fungi which are widespread regarding marine contexts and are particularly inclined to establishing symbiotic relationships. For this project, we welcome submissions of full research papers, short notes, and review articles reporting the discovery and characterization of products showing antibiotic, antitumor, antiviral, insecticidal, antimalarial, antifouling, antioxidant, plant growth-promoting and/or resistance-inducing, as well as other less-exploited activities.antibacterial activityTalaromyces purpurogenuslapatinibantibacterialhydroxypyrrolidinebis-indolyl benzenoidspenitrem Acytotoxicitiessesquiterpenoidsecondary metabolitesdrug discoverysponge-associated funguscandidusinPenicillium sp. TJ403-1coumaringefitinibbioactive productsAspergillaceaeindole-diterpenoidsmangrovesditerpenoidPenicillium raistrickiiECD calculationsTalaromycesmarine-derived fungiBK (Maxi-K) channelpolyketidesEGFRchromoneaspetritoneAspergillusbreviane spiroditerpenoidendophytic fungicytotoxiccytotoxicitybreast cancermangrove endophytic fungusIDH1 inhibitory activityNMR data calculationsantifungal activityAspergillus candidusdiastereomersTNF-?steroneAspergillus clavatusHER2thermo-change strategyNicoletti Rosarioauth317547Vinale FrancescoauthBOOK9910346857703321Bioactive Compounds from Marine-Derived Aspergillus, Penicillium, Talaromyces and Trichoderma Species3020400UNINA03037nam 2200853z- 450 991055773050332120231214133049.0(CKB)5400000000046018(oapen)https://directory.doabooks.org/handle/20.500.12854/68259(EXLCZ)99540000000004601820202105d2021 |y 0engurmn|---annantxtrdacontentcrdamediacrrdacarrierMicrofluidics for Biosensing and DiagnosticsBasel, SwitzerlandMDPI - Multidisciplinary Digital Publishing Institute20211 electronic resource (114 p.)3-0365-0062-6 3-0365-0063-4 Efforts to miniaturize sensing and diagnostic devices and to integrate multiple functions into one device have caused massive growth in the field of microfluidics and this integration is now recognized as an important feature of most new diagnostic approaches. These approaches have and continue to change the field of biosensing and diagnostics. In this Special Issue, we present a small collection of works describing microfluidics with applications in biosensing and diagnostics.History of engineering & technologybicssctherapeutic drug monitoring (TDM)aminoglycosidessize and mobility traps (SMT)microfluidicsnumerical techniquesMicrosoft Excelfinite difference methodNavier–Stokestime dependent flowdynamic flowinitiation of flowPoiseuille flowpoint-of-carebiosensorhybrid integrationacoustofluidicscavitationmicromixingoptical absorbancecolorimetrysalivary potassiumbiomoleculesmicrofluidicdielectrophoretic immobilizationCMOS biosensorlab-on-chipmicrofluidic probedropletsamplingTaylor dispersiondiagnosticGMR sensorwhole cellmicrodropletsphoto-isomerisationphotokineticsopto-mechanicsconformational statesHistory of engineering & technologyInglis David Wedt1319359Warkiani Majid EbrahimiedtQasaimeh Mohammad AedtChen WeiqiangedtInglis David WothWarkiani Majid EbrahimiothQasaimeh Mohammad AothChen WeiqiangothBOOK9910557730503321Microfluidics for Biosensing and Diagnostics3033822UNINA