Calculator
AssayWise Letters 2021, Vol. 10(2)
In this issue
Portelite™ Fluorimetric Quantitation Kits: Companion Reagents Optimized for the CytoCite™ BG100 Spectrofluorometer
Fluorescent Probe Technologies Suitable for Multicolor Spectral Flow Cytometry
Frontiers in Serodiagnostics: A New Plasmon-Enhanced Fluorescence Biosensor Technology Suitable for Lab-on-a-Chip Applications
Fluorescent Tools for Studying Mitochondrial Morphology and Function
AssayWise Letters 2021, Vol. 10(2)
Portelite™ Fluorimetric Quantitation Kits: Companion Reagents Optimized for the CytoCite™ BG100 Spectrofluorometer
Portelite™ Fluorimetric Quantitation Kits, optimized for AAT BioQuest’s CytoCite™ BG100 fluorometer, are designed to selectively quantify total nucleic acid, DNA (ssDNA, dsDNA), RNA, endotoxin, and protein, providing more sensitive analysis than comparable UV absorbance-based instrumentation.…
Portelite™ Fluorimetric Quantitation Kits, optimized for AAT BioQuest’s CytoCite™ BG100 fluorometer, are designed to selectively quantify total nucleic acid, DNA (ssDNA, dsDNA), RNA, endotoxin, and protein, providing more sensitive analysis than comparable UV absorbance-based instrumentation.…
Featured Article
Fluorescent Probe Technologies Suitable for Multicolor Spectral Flow Cytometry
Flow cytometry is a versatile tool that has applications in numerous biomedical research disciplines, including cancer biology, immunology, infectious disease monitoring, microbiology, and molecular biology. Instrumentation for performing flow cytometry has advanced considerably over the past several decades. Systems incorporating multiple lasers are commonplace, as are specialized instruments designed for particular applications, such as systems using 96-well sample loaders, systems combining microscopy with flow cytometry, and systems combining mass spectrometry…
Flow cytometry is a versatile tool that has applications in numerous biomedical research disciplines, including cancer biology, immunology, infectious disease monitoring, microbiology, and molecular biology. Instrumentation for performing flow cytometry has advanced considerably over the past several decades. Systems incorporating multiple lasers are commonplace, as are specialized instruments designed for particular applications, such as systems using 96-well sample loaders, systems combining microscopy with flow cytometry, and systems combining mass spectrometry…
Frontiers in Serodiagnostics: A New Plasmon-Enhanced Fluorescence Biosensor Technology Suitable for Lab-on-a-Chip Applications
Host response to microbes may be detected in human serum using a variety of plasmonic-based technology platforms, including localized surface plasmon resonance, propagating surface plasma resonance, surface-enhanced Raman scattering, surface-enhanced infrared absorption spectroscopy,…
Host response to microbes may be detected in human serum using a variety of plasmonic-based technology platforms, including localized surface plasmon resonance, propagating surface plasma resonance, surface-enhanced Raman scattering, surface-enhanced infrared absorption spectroscopy,…
Fluorescent Tools for Studying Mitochondrial Morphology and Function
Mitochondria are the proverbial 'powerhouse' of eukaryotic cells producing a bulk of their energy supply in the form of adenosine triphosphate (ATP). As dynamic organelles, mitochondria can modify their architecture - sometimes taking up as much as 25% of a cell's volume - to accommodate for the cell's…
Mitochondria are the proverbial 'powerhouse' of eukaryotic cells producing a bulk of their energy supply in the form of adenosine triphosphate (ATP). As dynamic organelles, mitochondria can modify their architecture - sometimes taking up as much as 25% of a cell's volume - to accommodate for the cell's…