Fluorescent AM1-43 and FM1-43 probes for dental sensory nerves and cells: Their labeling mechanisms and applications - ScienceDirect
Photoconversion of FM1-43 Reveals Differences in Synaptic Vesicle Recycling and Sensitivity to Pharmacological Disruption of Actin Dynamics in Individual Synapses | ACS Chemical Neuroscience
Lighting up the Senses: FM1-43 Loading of Sensory Cells through Nonselective Ion Channels | Journal of Neuroscience
SynaptoGreen C4 (also known as FM1-43, a trademark of Molecular Probes, Inc.) | LAB MARK
IJMS | Free Full-Text | FM1-43 Dye Memorizes Piezo1 Activation in the Trigeminal Nociceptive System Implicated in Migraine Pain
Use of FM1‐43 and Other Derivatives to Investigate Neuronal Function - Cousin - 2008 - Current Protocols in Neuroscience - Wiley Online Library
Direct monitoring of vesicular release and uptake in brain slices by multiphoton excitation of the styryl FM® 1-43 | BioTechniques
FM1-43 rapidly fills the cytoplasm of auditory and vestibular hair... | Download Scientific Diagram
FM1-43 is a Permeant Blocker of Mechanosensitive Ion Channels in Sensory Neurons and Inhibits Behavioural Responses to Mechanical Stimuli - Liam J Drew, John N Wood, 2007
Molecular Tuning of Styryl Dyes Leads to Versatile and Efficient Plasma Membrane Probes for Cell and Tissue Imaging | bioRxiv
Molecular Tuning of Styryl Dyes Leads to Versatile and Efficient Plasma Membrane Probes for Cell and Tissue Imaging | bioRxiv
Fluorescent AM1-43 and FM1-43 probes for dental sensory nerves and cells: Their labeling mechanisms and applications – topic of research paper in Biological sciences. Download scholarly article PDF and read for free
FM1-43 is a permeant blocker of mechanosensitive ion channels in sensory neurons and inhibits behavioural responses to mechanical stimuli | Molecular Pain | Full Text
FM1-43 can enter hair cells through the mechanotransduction channel. A,... | Download Scientific Diagram