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1. Polydimethylsiloxane as a more biocompatible alternative to glass in optogenetics

   Optogenetics is highly useful to stimulate or inhibit defined neuronal populations and is often used together with electrophysiological recordings....

   Michael Aagaard Andersen, Jens Schouenborg in Scientific Reports

   Article Open access 26 September 2023
   

2. Cardiac optogenetics: regulating brain states via the heart

   Silvia Rodriguez-Rozada, Stefan Frantz, Philip Tovote in Signal Transduction and Targeted Therapy

   Article Open access 30 August 2023
   

3. Bioluminescence-Optogenetics

   In this chapter, we introduce a relatively new, emerging method for molecular neuromodulation—bioluminescence-optogenetics....

   Ken Berglund, Matthew A. Stern, Robert E. Gross in Optogenetics

   Chapter 2021
   

4. Vision: Optogenetics Addressing AMD Diseases

   Optogenetic approach for vision restoration involves conferring light sensitivity to surviving inner retinal cells by injecting a viral vector...

   Leila Montazeri, Chuanqing Wang, Mohamad Sawan in Handbook of Neuroengineering

   Reference work entry 2023
   

5. Optogenetics

   in Nature Biotechnology

   Article 07 October 2022

6. Vectorology for Optogenetics and Chemogenetics

   This volume provides an overview of the viral vectors and how they are applied to chemogenetic and optogenetic tools to the study of neural circuits....

   Mark A.G. Eldridge, Adriana Galvan in Neuromethods

   Book 2023
   

7. Bioluminescence-Optogenetics: A Practical Guide

   Manipulation of neural activity in genetically predefined populations of neurons through genetic techniques is an essential tool in the field of...

   Matthew A. Stern, Henry Skelton, ... Robert E. Gross in Bioluminescence

   Protocol 2022
   

8. Probing neural codes with two-photon holographic optogenetics

   Optogenetics ushered in a revolution in how neuroscientists interrogate brain function. Because of technical limitations, the majority of optogenetic...

   Hillel Adesnik, Lamiae Abdeladim in Nature Neuroscience

   Article 16 August 2021
   

9. Osteogenic Differentiation of Menstrual Blood-Derived Stem Cells by Optogenetics

   Purpose

   Menstrual blood-derived stem cells (MenSCs), a novel source of mesenchymal stem cells (MSC)s which can be extracted from the menstrual fluid...

   Hoda Keshmiri Neghab, Gholamreza Esmaeeli Djavid, ... Mohammad Hasan Soheilifar in Journal of Medical and Biological Engineering

   Article 10 August 2022
   

10. Dissecting the Neural Circuitry for Pain Modulation and Chronic Pain: Insights from Optogenetics

    Pain is an unpleasant sensory and emotional experience associated with, or resembling that associated with, actual or potential tissue damage. The...

    Fang Guo, Yu Du, ... Shi-Hong Zhang in Neuroscience Bulletin

    Article Open access 05 March 2022
    

11. Fiberless Optogenetics

    Optogenetics, which relies on the use of photons to manipulate cellular and subcellular processes, has emerged as an important tool that has...

    Srikanta Chowdhury, Akihiro Yamanaka in Optogenetics

    Chapter 2021
    

12. Single-Cell Resolution Optogenetics Via Expression of Soma-Targeted Rhodopsins

    Optogenetics allows control of neural activity in genetically targeted neuron populations by light. Optogenetic control of individual neurons in...

    Changyang Linghu, I-Wen Chen, ... Or A. Shemesh in Rhodopsin

    Protocol 2022
    

13. Optogenetics at the presynapse

    Optogenetic actuators enable highly precise spatiotemporal interrogation of biological processes at levels ranging from the subcellular to cells,...

    Benjamin R. Rost, Jonas Wietek, ... Dietmar Schmitz in Nature Neuroscience

    Article 14 July 2022
    

14. Pyroptosis Induction and Visualization at the Single-Cell Level Using Optogenetics

    Pyroptosis has been identified as a pro-inflammatory form of programmed cell death. It can be triggered by different stimuli including pathogen...

    Bernhard F. Röck, Raed Shalaby, Ana J. García-Sáez in NLR Proteins

    Protocol 2023
    

15. Sha** light for optogenetics

    Giampaolo Pitruzzello in Nature Photonics

    Article 16 May 2022
    

16. Applications of Bioluminescence-Optogenetics in Rodent Models

    In the preceding chapter, we introduced bioluminescence-optogenetics (BL-OG) and luminopsin fusion proteins (LMOs), an emerging method of molecular...

    Matthew A. Stern, Henry Skelton, ... Ken Berglund in Bioluminescence

    Protocol 2022
    

17. Optogenetics in Drosophila

    The fruit fly Drosophila melanogaster, an insect 4 mm long, has served as the experimental subject in a wide range of biological research, including...

    Hiroshi Kohsaka, Akinao Nose in Optogenetics

    Chapter 2021
    

18. OLED-on-CMOS probes for single-neuron optogenetics

    Yiyuan Yang, Mingzheng Wu in Nature Electronics

    Article 14 September 2023
    

19. Fibreless neural probes for optogenetics

    Matthew Parker in Nature Electronics

    Article 02 December 2022
    

20. Potent optogenetics

    Nina Vogt in Nature Methods

    Article 11 March 2022