Bennett, WF Lynch, G
Exposure to low temperature causes platelets to change shape in a manner similar to the shape change that precedes secretagogue-induced serotonin release. Previous studies have shown that two proteins, of approximately 20,000 and approximately 40,000 Mr, become phosphorylated before secretion. We have investigated whether low temperature can induce...
Bennett, WF Lynch, G
Exposure to low temperature causes platelets to change shape in a manner similar to the shape change that precedes secretagogue-induced serotonin release. Previous studies have shown that two proteins, of approximately 20,000 and approximately 40,000 Mr, become phosphorylated before secretion. We have investigated whether low temperature can induce...
Bennett, WF Lynch, G
Exposure to low temperature causes platelets to change shape in a manner similar to the shape change that precedes secretagogue-induced serotonin release. Previous studies have shown that two proteins, of approximately 20,000 and approximately 40,000 Mr, become phosphorylated before secretion. We have investigated whether low temperature can induce...
Bennett, WF Lynch, G
Exposure to low temperature causes platelets to change shape in a manner similar to the shape change that precedes secretagogue-induced serotonin release. Previous studies have shown that two proteins, of approximately 20,000 and approximately 40,000 Mr, become phosphorylated before secretion. We have investigated whether low temperature can induce...
Bennett, WF Lynch, G
Exposure to low temperature causes platelets to change shape in a manner similar to the shape change that precedes secretagogue-induced serotonin release. Previous studies have shown that two proteins, of approximately 20,000 and approximately 40,000 Mr, become phosphorylated before secretion. We have investigated whether low temperature can induce...
Bennett, WF Lynch, G
Exposure to low temperature causes platelets to change shape in a manner similar to the shape change that precedes secretagogue-induced serotonin release. Previous studies have shown that two proteins, of approximately 20,000 and approximately 40,000 Mr, become phosphorylated before secretion. We have investigated whether low temperature can induce...
Bennett, WF Lynch, G
Exposure to low temperature causes platelets to change shape in a manner similar to the shape change that precedes secretagogue-induced serotonin release. Previous studies have shown that two proteins, of approximately 20,000 and approximately 40,000 Mr, become phosphorylated before secretion. We have investigated whether low temperature can induce...
Bennett, WF Lynch, G
Exposure to low temperature causes platelets to change shape in a manner similar to the shape change that precedes secretagogue-induced serotonin release. Previous studies have shown that two proteins, of approximately 20,000 and approximately 40,000 Mr, become phosphorylated before secretion. We have investigated whether low temperature can induce...
Bennett, WF Lynch, G
Exposure to low temperature causes platelets to change shape in a manner similar to the shape change that precedes secretagogue-induced serotonin release. Previous studies have shown that two proteins, of approximately 20,000 and approximately 40,000 Mr, become phosphorylated before secretion. We have investigated whether low temperature can induce...
Bennett, WF Lynch, G
Exposure to low temperature causes platelets to change shape in a manner similar to the shape change that precedes secretagogue-induced serotonin release. Previous studies have shown that two proteins, of approximately 20,000 and approximately 40,000 Mr, become phosphorylated before secretion. We have investigated whether low temperature can induce...