calcium and fluorescent imaging
Assay MethodIn combination with calcium and fluorescent imaging, functional alterations caused by mutations in epilepsy genes can be traced.
CFBacMamMusHumTxRep
Ev 20Rep 9Pr 71
Toolkit Items
Browse the toolkit beneath workflows. The mechanism branch runs mechanism -> architecture -> component, while the technique branch runs from high-level approaches down to concrete methods.
3 items matching 1 filter
Mechanism Branch
Layer 1
Mechanisms
▾Top-level concepts: biophysical action modes such as heterodimerization, photocleavage, or RNA binding.
Layer 1
Mechanisms
Layer 2
Architectures
▾Arrangements that realize or deploy mechanisms, including switches, construct patterns, and delivery strategies.
Layer 2
Architectures
Layer 3
Components
▾Low-level parts and sequence-defined elements used inside architectures, including protein domains and RNA elements.
Layer 3
Components
Technique Branch
Layer 1
Approaches
▾High-level engineering practices such as computational design, directed evolution, sequence verification, and functional assay.
Layer 1
Approaches
Layer 2
Methods
▾Concrete methods used to design, build, verify, or characterize engineered systems.
Layer 2
Methods
Sort
fluorescence-based functional readout
Showing 1-3 of 3
Loaditems
Page 1 / 1
droplet microfluidic platform
Assay MethodSince 2017cell population separation based on analyte-induced biosensor responsecell population sorting/separation based on analyte-induced biosensor responsefluorescence-based functional readoutmicrofluidic droplet compartmentalizationFunctional AssaySelection / Enrichment
The droplet microfluidic platform is an assay method for screening and separating cell populations based on the in vivo fluorescence response of expressed biosensors after addition of an exogenous analyte. It was applied to HeLa-cell genetic linker libraries for genetically encoded Zn2+ sensors to assess library diversity and detect response heterogeneity.
CFBacMamMusHumTxRep
Ev 28Rep 9Pr 59
fluorometric assays
Assay MethodClassical methods for detecting efflux (e.g. minimum inhibitory concentration (MIC) shifts with inhibitors, fluorometric assays) have technical limitations, while novel technologies offer improved precision.
CFBacMamMusHumTxRep
Ev 14Rep 9Pr 71
Page 1 / 1