光学成像电压敏感染料Opt-Imaging VOLTAGE SENSITIVE DYES Dye, RH 1691 10mg Opt-Imaging VOLTAGE SENSITIVE DYES Dye, RH 1691 10mg 货号:RH1691 品牌:


光学成像电压敏感染料Opt-Imaging VOLTAGE SENSITIVE DYES Dye, RH 1691 10mg

英文名:Opt-Imaging VOLTAGE SENSITIVE DYES Dye, RH 1691 10mg

货号:RH1691

规格:10mg

报价:8000.00

商品描述

 hotodynamic Damage and Bleaching

Dye Characteristics

Photodynamic damage depends on illumination intensity. At 4-10 msec time resolution, saturating a camera (10,000,000 electrons/pixel) with the dye fluorescence, using a 1:1 tandem lens, allowed averaging of about 256 trials, each of 1 sec, without significant photodamage. Bleaching proved very variable in cat visual cortex

The similarity between the corti光学成像电压敏感染料Opt-Imaging VOLTAGE SENSITIVE DYES Dye, RH 1691 10mg Opt-Imaging VOLTAGE SENSITIVE DYES Dye, RH 1691 10mg 货号:RH1691 品牌:cal dye signal from a small population of neurons and an intracellular recording.
Two traces showing simultaneous intracellular and optical recording for 6 seconds, performed in deeply anesthetized cat: a condition in which spontaneous changes in membrane potential are highly synchronized in a large population of neurons. The intracellular recording is depicted by the green traces. The action potentials were truncated. The optical signal from the population next to the electrode is depicted by the red traces. Modified from Sterkin et al., 1998

Low biological noise probe for high-speed neural imaging of electrical signals

 

OI announces its new “blue” line of high-speed voltage sensitive dyes for cortical imaging, originally synthesized by Rina Hildesheim, and available exclusively from OI (patent pending; blue dye series includes RH-1691, and RH-1692). Voltage sensitive dyes (VSDs) are optical transducers of membrane potential changes. Applied to the brain, they bind to the external surface of the membranes of living cells without interrupting their normal function. Once introduced into a preparation, VSDs rapidly (within a microsecond) alter the intensity and/or wavelengths of fluorescent light they emit as a function of changes in neuronal membrane potential.