Scientifica SliceScope Pro 2000 Electrophysiology Rig Technical Data
Scientifica SliceScope Pro 2000

Scientifica SliceScope Pro 2000

标准系统

We can customise this system to suit your unique experimental needs. Please contact us to discuss your requirements.

1 x Scientifica SliceScope

Slimline fully motorised microscope

2 x Scientifica Micromanipulators

Choose from Scientifica PatchStars or MicroStars

1 x Scientifica Motorised XY Stage

50mm of travel

1 x Scientifica SlicePlatform

Large mounting stage for sample & manipulators

2 x Scientifica Control Devices

Choose from the Scientifica PatchPad or Control Cube

1 x Scientifica Slice Recording Chamber Kit

Accessories

Scientifica Filter Cube Module

Collect higher quality data across the entire field of view with the Scientifica Filter Cube Module (FCM).

Scientifica SciCam Pro Camera

High resolution CCD camera specifically designed for use with electrophysiology setups. It is ideal for fluorescence imaging, live cell imaging, calcium imaging and electrophysiology.

Scientifica Motorised Objective Changer

The Scientifica Motorised Objective Changer can change smoothly between two objectives and display within LinLab which objective is in position. The user has full control over the speed of objective exchange.

调查报告

  • Histone Methylation by the Kleefstra Syndrome Protein EHMT1 Mediates Homeostatic Synaptic Scaling

    Benevento, M., Iacono, G., Selten, M., Ba, W., Oudakker, A., & Frega, M. et al. (2016). Histone Methylation by the Kleefstra Syndrome Protein EHMT1 Mediates Homeostatic Synaptic Scaling. Neuron, 91(2), 341-355. http://dx.doi.org/10.1016/j.ne...

  • Divergent Routing of Positive and Negative Information from the Amygdala during Memory Retrieval

    Beyeler, A., Namburi, P., Glober, G., Simonnet, C., Calhoon, G., & Conyers, G. et al. (2016). Divergent Routing of Positive and Negative Information from the Amygdala during Memory Retrieval. Neuron, 90(2), 348-361. http://dx.doi.org/10.1016/j.ne...

  • Amygdala inputs to prefrontal cortex guide behavior amid conflicting cues of reward and punishment

    Burgos-Robles, A., Kimchi, E., Izadmehr, E., Porzenheim, M., Ramos-Guasp, W., & Nieh, E. et al. (2017). Amygdala inputs to prefrontal cortex guide behavior amid conflicting cues of reward and punishment. Nature Neuroscience. http://dx.doi.org/10.1038/nn.4...

  • Tuning of fast-spiking interneuron properties by an activity-dependent transcriptional switch

    Dehorter, N., Ciceri, G., Bartolini, G., Lim, L., del Pino, I., & Marin, O. (2015). Tuning of fast-spiking interneuron properties by an activity-dependent transcriptional switch. Science, 349(6253), 1216-1220. http://dx.doi.org/10.1126/scie...

  • Marking cells with infrared fluorescent proteins to preserve photoresponsiveness in the retina

    Fyk-Kolodziej, B., Hellmer, C., & Ichinose, T. (2014). Marking cells with infrared fluorescent proteins to preserve photoresponsiveness in the retina. Biotechniques, 57(5). http://dx.doi.org/10.2144/0001...

  • A group I metabotropic glutamate receptor controls synaptic gain between rods and rod bipolar cells in the mouse retina

    Hellmer, C., Clemons, M., Nawy, S., & Ichinose, T. (2018). A group I metabotropic glutamate receptor controls synaptic gain between rods and rod bipolar cells in the mouse retina. Physiological Reports. https://physoc.onlinelibrary.w...

  • Morphological and physiological analysis of type-5 and other bipolar cells in the Mouse Retina

    Hellmer, C., Zhou, Y., Fyk-Kolodziej, B., Hu, Z., & Ichinose, T. (2016). Morphological and physiological analysis of type-5 and other bipolar cells in the Mouse Retina. Neuroscience, 315, 246-258. http://dx.doi.org/10.1016/j.ne...

  • Dopaminergic Modulation of Signal Processing in a Subset of Retinal Bipolar Cells

    Hellmer, C., Bohl, J., Hall, L., Koehler, C., & Ichinoise, T. (2020). Dopaminergic Modulation of Signal Processing in a Subset of Retinal Bipolar Cells. Frontiers in Cellular Neuroscience. https://doi.org/10.3389/fncel.2020.00253

  • Differential signalling and glutamate receptor compositions in the OFF bipolar cell types in the mouse retina

    Ichinose, T., & Hellmer, C. (2015). Differential signalling and glutamate receptor compositions in the OFF bipolar cell types in the mouse retina. The Journal Of Physiology, 594(4), 883-894. http://dx.doi.org/10.1113/jp27...

  • Dopamine D1 receptor expression is bipolar cell type-specific in the mouse retina

    Ichinose, T., Farshi, P., Fyk-Kolodziej, B., Krolewski, D., & Walker, P. (2015). Dopamine D1 receptor expression is bipolar cell type-specific in the mouse retina. The Journal Of Comparative Neurology, 524(10). Retrieved from http://onlinelibrary.wiley.com...

  • Roles of ON Cone Bipolar Cell Subtypes in Temporal Coding in the Mouse Retina

    Ichinose, T., Fyk-Kolodziej, B., & Cohn, J. (2014). Roles of ON Cone Bipolar Cell Subtypes in Temporal Coding in the Mouse Retina. Journal Of Neuroscience, 34(26), 8761-8771. http://dx.doi.org/10.1523/jneu...

  • ATP P2X Receptors Downregulate AMPA Receptor Trafficking and Postsynaptic Efficacy in Hippocampal Neurons

    Pougnet, J., Toulme, E., Martinez, A., Choquet, D., Hosy, E., & Boué-Grabot, E. (2014). ATP P2X Receptors Downregulate AMPA Receptor Trafficking and Postsynaptic Efficacy in Hippocampal Neurons. Neuron, 83(2), 417-430. http://dx.doi.org/10.1016/j.ne...

  • Age-dependent changes of photosynthetic responses induced by electrical signals in wheat seedlings

    Vodeneev, V., Sherstneva, O., Surova, L., Semina, M., Katicheva, L., & Sukhov, V. (2016). Age-dependent changes of photosynthetic responses induced by electrical signals in wheat seedlings. Russian Journal Of Plant Physiology, 63(6), 861-868. http://dx.doi.org/10.1134/s102...

  • Glucose concentrations modulate brain‐derived neurotrophic factor responsiveness of neurones in the paraventricular nucleus of the hypothalamus

    McIsaac, W., Ferguson, A V. (2017). Glucose concentrations modulate brain‐derived neurotrophic factor responsiveness of neurones in the paraventricular nucleus of the hypothalamus. Journal of Neuroendocrinology, 29(4). https://onlinelibrary.wiley.com/doi/full/10.1111/jne.12464

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