Quantitative nanostructure-activity relationship modeling
about
Nanoinformatics: emerging databases and available toolsThe biomechanisms of metal and metal-oxide nanoparticles' interactions with cellsChemical basis of interactions between engineered nanoparticles and biological systemsQSAR modeling: where have you been? Where are you going to?Comparative hazard analysis and toxicological modeling of diverse nanomaterials using the embryonic zebrafish (EZ) metric of toxicityComputer-aided design of carbon nanotubes with the desired bioactivity and safety profilesMetal Oxide Nanomaterial QNAR Models: Available Structural Descriptors and Understanding of Toxicity MechanismsDeep learning for computational chemistry.Predictive toxicology of cobalt ferrite nanoparticles: comparative in-vitro study of different cellular models using methods of knowledge discovery from dataCurrent situation on the availability of nanostructure-biological activity data.A review of the applications of data mining and machine learning for the prediction of biomedical properties of nanoparticles.Self-organizing map analysis of toxicity-related cell signaling pathways for metal and metal oxide nanoparticlesClassification NanoSAR development for cytotoxicity of metal oxide nanoparticlesPhysicochemical signatures of nanoparticle-dependent complement activation.Amorphous nanosilica induce endocytosis-dependent ROS generation and DNA damage in human keratinocytes.Toward a blended ontology: applying knowledge systems to compare therapeutic and toxicological nanoscale domains.NanoE-Tox: New and in-depth database concerning ecotoxicity of nanomaterials.What if the number of nanotoxicity data is too small for developing predictive Nano-QSAR models? An alternative read-across based approach for filling data gaps.Nanoparticle mediated non-covalent drug deliveryQSAR modeling of nanomaterials.In vivo biodistribution of nanoparticles.Searching for global descriptors of engineered nanomaterial fate and transport in the environmentBridge over troubled waters: understanding the synthetic and biological identities of engineered nanomaterials.Mechanisms of toxic action of Ag, ZnO and CuO nanoparticles to selected ecotoxicological test organisms and mammalian cells in vitro: a comparative review.Pharmacoinformatic approaches to understand complexation of dendrimeric nanoparticles with drugs.Smart chemistry in polymeric nanomedicine.Inorganic Nanoparticles for Therapeutic Delivery: Trials, Tribulations and Promise.Nano(Q)SAR: Challenges, pitfalls and perspectives.Activity and property landscape modeling is at the interface of chemoinformatics and medicinal chemistry.A Review of Recent Advances towards the Development of (Quantitative) Structure-Activity Relationships for Metallic Nanomaterials.Current Knowledge on the Use of Computational Toxicology in Hazard Assessment of Metallic Engineered Nanomaterials.Accurate and interpretable nanoSAR models from genetic programming-based decision tree construction approaches.Linear and non-linear modelling of the cytotoxicity of TiO2 and ZnO nanoparticles by empirical descriptors.Investigation of the influence of protein corona composition on gold nanoparticle bioactivity using machine learning approaches.Approaches to Develop Alternative Testing Strategies to Inform Human Health Risk Assessment of Nanomaterials.Toward a systematic exploration of nano-bio interactions.Computer-aided nanotoxicology: assessing cytotoxicity of nanoparticles under diverse experimental conditions by using a novel QSTR-perturbation approach.Literature Review of (Q)SAR Modelling of Nanomaterial Toxicity.Towards understanding mechanisms governing cytotoxicity of metal oxides nanoparticles: hints from nano-QSAR studies.Biological and environmental surface interactions of nanomaterials: characterization, modeling, and prediction.
P2860
Q27008517-5965F939-3F4C-4679-BC2C-18B698C5396EQ27013605-91DBE35D-7645-4973-83C6-EA84BCD88ED0Q27021154-AE492B4E-7924-47FF-B2E6-BB0D66DD59CAQ28222668-601EA0B8-A82D-4690-BD36-38013F825F4CQ28395523-3E770655-C4D7-4BFA-9603-38A7200CEF5FQ28829021-804D44A4-34CB-46B0-B507-1A5A09AE3966Q29248772-0D098F2C-03E0-4A15-90D7-73D2116AF06AQ30399624-819CEC9D-D3C1-4056-A79F-E5EE6F1D8FD1Q30657936-F2A652BC-E433-4759-AFCF-5B569881FD6FQ30885444-B4DA61E0-53F8-4352-9EDE-3662BD0989E5Q31106864-DF99827A-E22C-4A86-8AEF-7B73A1945921Q33798329-4AFF372C-A39B-4E51-ABAA-5D014CEBAE3AQ33859712-CEA27D97-9B87-47FA-8B81-45BEB8190A97Q34218533-628B3C59-D194-42A7-8D58-836DA9F4161FQ34537660-9CC63249-948C-43FB-8AC7-3BDF08F7382DQ35961514-117C7EE6-780F-400E-8852-EC77B9E09DBDQ36082067-164C6EBF-4308-46EE-9827-FA71D3BBE74AQ36399257-BCB2B280-2357-4277-B4C9-0B09B0E4D516Q37104463-428DA686-341A-4BBB-A714-71BDB3F6DE6DQ37850776-7731B238-227D-4462-AF5F-7BCD40DE0933Q37906630-59A95381-30B3-4ADC-8D33-56301497E24FQ38040892-6E0348DB-2135-451A-8175-E70D3DB421B6Q38075542-FB85FFCB-613B-434B-96E0-098D80EC5FDCQ38164357-291F5312-97D2-42DC-92C0-75B1E7E0D24FQ38179927-D37772EF-FD12-4B58-B381-D5D33540E807Q38221776-68655889-7B40-49D9-9440-90DD82FC5CBDQ38222429-0589D1F9-61FF-4667-8997-C30724F6048EQ38248366-FBA074F9-E106-42A5-9FAF-1CA70514E6F4Q38541498-978E9FC3-CA4F-463B-B371-9423FFDBEC34Q38600120-B0CC5C87-D2F8-4572-A404-110E9F5081B2Q38658065-49D07B6A-064B-40CC-85FB-457C0281CEC3Q38787849-92A0EF09-5349-4CFC-A07C-E9847B7C29E9Q38838799-930E7260-7FAC-4DF0-9431-D6DA81A2F0F0Q38850045-DDA53DEC-F035-4CB6-AD64-B26FEF8B3020Q38855212-355FF99D-320A-4D3C-A379-844D98388CABQ38875385-1FE2900E-B793-42C2-83AD-AE6ED38A7DBAQ38969588-794A2054-7E18-472D-AA17-790DAEC11E37Q38974889-1565B0B9-EC3C-4E44-A3E9-E61D806559EAQ38979118-97F64524-FC5D-49E0-B3A2-443C540D8CC9Q39013235-82C4046B-A575-41A6-9B32-7BEB7E50A446
P2860
Quantitative nanostructure-activity relationship modeling
description
2010 nî lūn-bûn
@nan
2010 թուականի Հոկտեմբերին հրատարակուած գիտական յօդուած
@hyw
2010 թվականի հոտեմբերին հրատարակված գիտական հոդված
@hy
2010年の論文
@ja
2010年論文
@yue
2010年論文
@zh-hant
2010年論文
@zh-hk
2010年論文
@zh-mo
2010年論文
@zh-tw
2010年论文
@wuu
name
Quantitative nanostructure-activity relationship modeling
@ast
Quantitative nanostructure-activity relationship modeling
@en
Quantitative nanostructure-activity relationship modeling
@nl
type
label
Quantitative nanostructure-activity relationship modeling
@ast
Quantitative nanostructure-activity relationship modeling
@en
Quantitative nanostructure-activity relationship modeling
@nl
prefLabel
Quantitative nanostructure-activity relationship modeling
@ast
Quantitative nanostructure-activity relationship modeling
@en
Quantitative nanostructure-activity relationship modeling
@nl
P2093
P2860
P50
P356
P1433
P1476
Quantitative nanostructure-activity relationship modeling
@en
P2093
Carlos Tassa
Dongqiuye Pu
Russell J Mumper
Stanley Y Shaw
P2860
P304
P356
10.1021/NN1013484
P407
P577
2010-10-26T00:00:00Z