Imaging protein activity in live embryos using fluorescence resonance energy transfer biosensors.
about
C2orf62 and TTC17 are involved in actin organization and ciliogenesis in zebrafish and humanMonitoring biosensor activity in living cells with fluorescence lifetime imaging microscopyExcess centrosomes perturb dynamic endothelial cell repolarization during blood vessel formation.Haemodynamics-driven developmental pruning of brain vasculature in zebrafishActivation of RhoA, but Not Rac1, Mediates Early Stages of S1P-Induced Endothelial Barrier EnhancementCalcineurin mediates synaptic scaling via synaptic trafficking of Ca2+-permeable AMPA receptorsLight activated cell migration in synthetic extracellular matrices.The PAR complex controls the spatiotemporal dynamics of F-actin and the MTOC in directionally migrating leukocytes.Lysyl oxidase drives tumour progression by trapping EGF receptors at the cell surface.Documentation and localization of force-mediated filamin A domain perturbations in moving cells.Correlative intravital imaging of cGMP signals and vasodilation in mice.SMN deficiency alters Nrxn2 expression and splicing in zebrafish and mouse models of spinal muscular atrophy.The Phosphatidylinositol (3,4,5)-Trisphosphate-dependent Rac Exchanger 1·Ras-related C3 Botulinum Toxin Substrate 1 (P-Rex1·Rac1) Complex Reveals the Basis of Rac1 Activation in Breast Cancer Cells.Neutrophil reverse migration becomes transparent with zebrafish.A simple approach for measuring FRET in fluorescent biosensors using two-photon microscopy.Mild Glucose Starvation Induces KDM2A-Mediated H3K36me2 Demethylation through AMPK To Reduce rRNA Transcription and Cell ProliferationProbing enzymatic activity inside living cells using a nanowire-cell "sandwich" assayYAP Nuclear Localization in the Absence of Cell-Cell Contact Is Mediated by a Filamentous Actin-dependent, Myosin II- and Phospho-YAP-independent Pathway during Extracellular Matrix MechanosensingRational Design of a GFP-Based Fluorogenic Caspase Reporter for Imaging Apoptosis In VivoLive Cell Imaging with R-GECO1 Sheds Light on flg22- and Chitin-Induced Transient [Ca(2+)]cyt Patterns in Arabidopsis.Advanced fluorescence microscopy techniques--FRAP, FLIP, FLAP, FRET and FLIM.Newly engineered cyan fluorescent proteins with enhanced performances for live cell FRET imaging.Next generation mothers: Maternal control of germline development in zebrafish.Monitoring developmental force distributions in reconstituted embryonic epitheliaMatrix rigidity regulates spatiotemporal dynamics of Cdc42 activity and vacuole formation kinetics of endothelial colony forming cells.A Protocol for Using Förster Resonance Energy Transfer (FRET)-force Biosensors to Measure Mechanical Forces across the Nuclear LINC Complex.Intravital microscopy of biosensor activities and intrinsic metabolic states.Electroporation-delivered fluorescent protein biosensors for probing molecular activities in cells without genetic encoding.Addressing the Functional Determinants of FAK during Ciliogenesis in Multiciliated Cells.The first ratiometric fluorescent probes for aminopeptidase N cell imaging.The Ret receptor regulates sensory neuron dendrite growth and integrin mediated adhesionDistinct Levels of Reactive Oxygen Species Coordinate Metabolic Activity with Beta-cell Mass Plasticity.Akt3 is a privileged first responder in isozyme-specific electrophile response.Visualising apoptosis in live zebrafish using fluorescence lifetime imaging with optical projection tomography to map FRET biosensor activity in space and timeOptimization of ERK activity biosensors for both ratiometric and lifetime FRET measurements.The spatio-temporal dynamics of PKA activity profile during mitosis and its correlation to chromosome segregation.Monitoring thioredoxin redox with a genetically encoded red fluorescent biosensor.Photocontrol of the Src Kinase in Mammalian Cells with a Photocaged Intein.Visualizing Dynamics of Cell Signaling In Vivo with a Phase Separation-Based Kinase Reporter.Calcium oscillations in fertilized pig oocytes are associated with repetitive interactions between STIM1 and ORAI1.
P2860
Q24324242-DC4140F5-5445-4EFC-A6DA-1C6C1A8E0F8CQ27012770-9C81A361-A5DC-48ED-823F-E1AD8C919886Q27305030-F53CC18E-9484-40AE-897B-7114BD7F94D1Q27318761-1F190882-FB4C-418A-97E9-0F73260FC674Q27346879-F8500215-3737-4205-9775-FE3FE32C0446Q28507701-2BB320D6-0221-4841-B686-36218512D1A8Q30544929-CFD89BA5-4776-480C-A61F-969EE964146AQ30592319-3D957DCA-4F25-4B4F-B9BF-B99AB6720D4FQ33587066-5CA29BB5-46E0-4E55-B910-F2C503013A46Q34069659-02BB0209-42EA-4D74-A192-04CAE5EC53E3Q34336542-DA17721C-56B8-4472-8D6C-6E7434E1DFB8Q35039158-4F2C2E8B-8F26-451F-926C-475A9C44BC99Q35978229-CD528994-2BF1-4C75-A4A5-BC447F111DBEQ36107308-56EF4B2C-C16D-4E36-A94C-293FD39073D5Q36148286-FE14157E-1A61-45BA-A86D-24F053AA9764Q36289555-6CA8F939-F96C-489F-8EA8-57BDA4AE15F8Q36522087-76D28BCF-1F67-45E2-9BB5-8DEE5399776CQ36744713-9C20D642-E12C-46E8-8BEE-FC954652B566Q37262511-51BF0E54-805C-46B1-B4DC-31257BC11577Q37466871-0E85CD7B-BD36-411C-BCD8-110C033FE442Q37999193-E592287A-A3B4-44FF-8272-39FC90CC3C74Q38172898-DF67E7B5-EF3B-4D75-8133-9A7EE517A782Q38270089-8B153A75-970F-46C0-9E96-2B385A71BEFEQ38577339-9FC734A0-BB00-4596-9C4A-3AEEEF842720Q38578896-231565FC-29F4-4B10-9CF1-1DAF35EB2230Q38817379-B3E6D5F6-E61A-462E-A21C-6F06A5B65EB5Q38824228-0B469908-4E19-458A-A93F-1D2C5CCEF4DDQ38964945-96268F34-FD23-4A2F-B410-FDE16B81DB5DQ39147472-98D2C412-3E3E-4A87-9011-EC8A45860143Q39240516-8506EDA2-F6B2-4EEF-81BE-A8B13AEB1050Q39433861-33362331-A952-4CE2-B0E2-2A31B41AEB9EQ41042241-E8442F81-1C14-46DD-9663-5086EB80F2BEQ41626312-E85461C3-C84C-49B5-B788-E928CEBED340Q41774474-0B846AF0-3E33-4977-95EE-C350350B4C0BQ41960148-A88131E5-A712-4B72-941F-EBFFFB7809BCQ43207108-8A77DD02-481B-49D4-AE64-360881072326Q46027204-2B8021EA-0576-4528-A5C1-EB4F05F32DF2Q46944371-F127E9AB-7600-46B5-A4FF-937F8569979BQ47226593-B064CF1A-0A0E-47E1-BBB9-BA6E1E4C4048Q48502826-3D9EA82A-EFCB-4B7E-B2C9-BA868CAD7B7D
P2860
Imaging protein activity in live embryos using fluorescence resonance energy transfer biosensors.
description
2011 nî lūn-bûn
@nan
2011年の論文
@ja
2011年学术文章
@wuu
2011年学术文章
@zh
2011年学术文章
@zh-cn
2011年学术文章
@zh-hans
2011年学术文章
@zh-my
2011年学术文章
@zh-sg
2011年學術文章
@yue
2011年學術文章
@zh-hant
name
Imaging protein activity in li ...... ce energy transfer biosensors.
@en
Imaging protein activity in li ...... ce energy transfer biosensors.
@nl
type
label
Imaging protein activity in li ...... ce energy transfer biosensors.
@en
Imaging protein activity in li ...... ce energy transfer biosensors.
@nl
prefLabel
Imaging protein activity in li ...... ce energy transfer biosensors.
@en
Imaging protein activity in li ...... ce energy transfer biosensors.
@nl
P2860
P356
P1433
P1476
Imaging protein activity in li ...... ce energy transfer biosensors.
@en
P2093
Jan Bandemer
P2860
P2888
P304
P356
10.1038/NPROT.2011.395
P577
2011-11-03T00:00:00Z