about
Whole organism high-content screening by label-free, image-based Bayesian classification for parasitic diseasesHigh Content Imaging (HCI) on Miniaturized Three-Dimensional (3D) Cell CulturesShedding light on filovirus infection with high-content imagingA systems biology view of blood vessel growth and remodellingTools for GPCR drug discovery.Quantifying differences in cell line population dynamics using CellPD.Low-cost motility tracking system (LOCOMOTIS) for time-lapse microscopy applications and cell visualisationDeep Learning in Label-free Cell ClassificationNew therapeutic approaches for Krabbe disease: The potential of pharmacological chaperonesCell-Based Assay Design for High-Content Screening of Drug CandidatesTarget identification by image analysisMorphoNeuroNet: an automated method for dense neurite network analysisNeurphologyJ: an automatic neuronal morphology quantification method and its application in pharmacological discoveryIn Vitro Testing of Biomaterials for Neural Repair: Focus on Cellular Systems and High-Content AnalysisAssessment of Cr(VI)-induced cytotoxicity and genotoxicity using high content analysisA system for performing high throughput assays of synaptic functionPhenotypic pattern-based assay for dynamically monitoring host cellular responses to Salmonella infectionsHigh-content, high-throughput screening for the identification of cytotoxic compounds based on cell morphology and cell proliferation markersHigh throughput screening for anti-Trypanosoma cruzi drug discoveryAutomated high-content assay for compounds selectively toxic to Trypanosoma cruzi in a myoblastic cell lineDiscovery of a Novel, Isothiazolonaphthoquinone-Based Small Molecule Activator of FOXO Nuclear-Cytoplasmic ShuttlingThe use of multidimensional image-based analysis to accurately monitor cell growth in 3D bioreactor cultureA novel high-throughput imaging system for automated analyses of avoidance behavior in zebrafish larvae.Differential determinants of cancer cell insensitivity to antimitotic drugs discriminated by a one-step cell imaging assayAn automatic method for robust and fast cell detection in bright field images from high-throughput microscopy.Assessment of Cell Viability with Single-, Dual-, and Multi-Staining Methods Using Image Cytometry.Embryonic stem cell application in drug discovery.Molecular deconstruction, detection, and computational prediction of microenvironment-modulated cellular responses to cancer therapeutics.A high-content subtractive screen for selecting small molecules affecting internalization of GPCRs.Metabolomic high-content nuclear magnetic resonance-based drug screening of a kinase inhibitor librarySystems microscopy approaches to understand cancer cell migration and metastasis.High-content imaging for automated determination of host-cell infection rate by the intracellular parasite Trypanosoma cruzi.Discovery of regulators of receptor internalization with high-throughput flow cytometry.Concise review: a high-content screening approach to stem cell research and drug discovery.Targeting nucleocytoplasmic transport in cancer therapyAdapting human pluripotent stem cells to high-throughput and high-content screening.Building synthetic gene circuits from combinatorial libraries: screening and selection strategies.Evaluating extracellular matrix influence on adherent cell signaling by cold trypsin phosphorylation-specific flow cytometry.Use of biological knowledge to inform the analysis of gene-gene interactions involved in modulating virologic failure with efavirenz-containing treatment regimens in ART-naïve ACTG clinical trials participants.Identification and characterization of pharmacological chaperones to correct enzyme deficiencies in lysosomal storage disorders.
P2860
Q21144493-DDC07023-13C7-4B34-BD65-D51B81FF9EE8Q26773298-CBCD809D-C4EA-4614-A71F-5E4F623D448BQ26863739-2EB95733-7FAF-46FB-AF1E-758B5801CCCFQ27003945-76AEE396-33F1-4B14-B8FD-EEDAF950E384Q27007472-922CC2E6-6FA9-442C-B81C-A51D7BFE9A43Q27304717-CE46B1E3-BAD8-4D94-9C28-1252A31CA322Q27317014-3A172FDF-27BF-40B3-886F-D7EBDCE8BEC0Q27347513-D0BEFFB6-AC1C-4D22-B5E0-1EE2D822EF5FQ28068142-216999A3-56A7-4185-A053-615D02976558Q28084264-37BF5ADB-4570-4650-81AA-09DFC220F8DDQ28272139-668C5FB5-15F9-4888-A843-776590F649AFQ28364921-DE8C6A41-F99A-4D8A-9EEE-97B0478BEE8BQ28364923-AB02AB01-0B3C-477C-BE73-3B94FFCB4E3AQ28387048-9C8EBB97-16C2-455F-9B43-0E5D266087D7Q28387269-F9F3D792-C373-4295-8540-9B7116B329E4Q28477381-7D879927-EF43-470C-A4F9-C8195D5F1665Q28477778-AE551868-3259-458A-BE2A-6BFB930DCF66Q28539567-0516E86E-6F08-41AD-AD7C-4F8C01CFBB5FQ28542489-C0E75D0F-8B52-451E-B683-048F4A7FF100Q28543069-EC62DE5B-18A1-4C8D-A2EF-5599E77D9E05Q28554890-975EF235-63A6-4CB0-9E36-1E4823B5A13FQ28743675-490BC0A8-8F6E-4F2F-9D6C-7A06A81AA62FQ30501001-D0D03973-551A-47EF-BE65-5B25FE79BF22Q30546921-10BF423E-522C-473B-A427-063995C7135AQ30558664-132AE0B5-7072-4616-A752-21DDAD12DC6EQ32177871-9879DE11-6794-48F1-B42E-14FAD31F3A5FQ33565675-E3AF938F-46B4-44B8-B197-3B63E67C5CB2Q33605227-FAC91058-12EC-4BE1-9932-812642AF1091Q34075275-E5CC5B15-0D36-4809-90BC-EB0286155FCDQ34081089-871B8ECC-15CB-43BB-89E2-4D061C65179AQ34106013-E359F1E9-2EFE-4F14-9CAD-9AB0C7EEE9D8Q34242291-6760B8C7-2E1B-4059-A460-6B8669DB0F18Q34327895-34BF4CA2-78DD-430A-99A7-3FF3855233C6Q34347602-31E2B377-5D45-45EC-8ACF-B0FFAC1860F8Q34398166-59B25175-4A45-4754-8FCB-3C2A0F2CAB89Q34519522-1E7D891B-7EDB-462F-9415-76727C67F99FQ34557687-15A7CA57-6249-4839-9E8F-3F6A1087DF37Q34955588-A5EC9341-4879-4F18-A93F-EDD16B5C6882Q34982530-3C8967FC-99F8-4603-B81D-DAD3F67A920AQ35007910-ABD8DA18-6441-4DD6-9EBA-28F933AAABFD
P2860
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on 24 March 2010
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
High content screening: seeing is believing.
@en
High content screening: seeing is believing.
@nl
type
label
High content screening: seeing is believing.
@en
High content screening: seeing is believing.
@nl
prefLabel
High content screening: seeing is believing.
@en
High content screening: seeing is believing.
@nl
P1476
High content screening: seeing is believing
@en
P2093
Fabian Zanella
James B Lorens
P304
P356
10.1016/J.TIBTECH.2010.02.005
P577
2010-03-24T00:00:00Z