Functional importance of synaptobrevin and SNAP-25 during exocytosis of histamine by rat gastric enterochromaffin-like cells. Read more about Functional importance of synaptobrevin and SNAP-25 during exocytosis of histamine by rat gastric enterochromaffin-like cells.
Prenatal hippocampal granule cells in primary cell culture form mossy fiber boutons at pyramidal cell dendrites. Read more about Prenatal hippocampal granule cells in primary cell culture form mossy fiber boutons at pyramidal cell dendrites.
Electrochemistry in microscopic domains. 1. The electrochemical cell and its voltammetric and amperometric response. Read more about Electrochemistry in microscopic domains. 1. The electrochemical cell and its voltammetric and amperometric response.
Release of dopamine and norepinephrine by hypoxia from PC-12 cells. Read more about Release of dopamine and norepinephrine by hypoxia from PC-12 cells.
Continuous in situ electrochemical monitoring of doxorubicin efflux from sensitive and drug-resistant cancer cells. Read more about Continuous in situ electrochemical monitoring of doxorubicin efflux from sensitive and drug-resistant cancer cells.
Characterization of vesicular membrane-bound alpha-SNAP and NSF in adrenal chromaffin cells. Read more about Characterization of vesicular membrane-bound alpha-SNAP and NSF in adrenal chromaffin cells.
Single cell model for simultaneous drug delivery and efflux. Read more about Single cell model for simultaneous drug delivery and efflux.
Identification of voltage-activated Na+ and K+ channels in human steroid-secreting ovarian cells. Read more about Identification of voltage-activated Na+ and K+ channels in human steroid-secreting ovarian cells.
SNAP-25 requirement for dendritic growth of hippocampal neurons. Read more about SNAP-25 requirement for dendritic growth of hippocampal neurons.
Monitoring drug efflux from sensitive and multidrug-resistant single cancer cells with microvoltammetry. Read more about Monitoring drug efflux from sensitive and multidrug-resistant single cancer cells with microvoltammetry.
