The NeuroNex Technology Hub and NeuroNex Bioluminescent Constructs Database are supported by the National Science Foundation (NSF) and its Division of Biological Infrastructure under Award …
BioLuminescent-OptoGenetic molecules for driving and imaging neural activity have a number of advantages in vivo. In this approach, genetically expressed luciferases bind with injected luciferins …
We developed a bioluminescent Ca2+ indicator, Lumicampsin (LMC) that employs a split, mutated Gaussia luciferase (sbGluc) with a CaM-M13 calcium sensing moiety introduced between the …
In BioLuminescent driven OptoGenetics (BL-OG) a genetically encoded light source, a luciferase, activates a light-sensing optogenetic element, a channelrhodopsin or a pump. When light emitter …
In BioLuminescent driven OptoGenetics (BL-OG) a genetically encoded light source, a luciferase, activates a light-sensing optogenetic element, a channelrhodopsin or a pump. When light emitter …
The Bioluminescence Hub, a National Science Foundation NeuroNex Technology Hub, is dedicated both to the development of novel bioluminescent and optogenetic tools and to the …
Fluorescence-based optogenetic tools are powerful methods for dissecting cell-type specific circuit dynamics in the nervous system. These tools, however, rely on external, generic modification of …
Chemogenetic modulation of neuronal populations allows for precise control over cells engineered to express an exogenous receptor that responds exclusively to specific molecules. Chemogenetic approaches …
Using optogenetics, we can manipulate neuronal activity using light. Due to the young age of the animals used in this study, a non-invasive light source …
The malformation of neuronal circuitry in the developing neocortex leads to a variety of psychiatric disorders later in the organism’s life. By investigating alterations in …
This digital poster created for the 2021 BRAIN Initiative Investigators Meeting provides an overview of the advantages of bioluminescence for neuroscience research. Our BioLuminescent-OptoGenetics (BL-OG) …
Patterns of neuronal activity during early development are believed to guide the assembly of neural circuits. Thus, alterations of neuronal activity in this time window …
Despite ever improving treatment methods, there still is no way to effectively restore function after spinal cord injury. A promising approach is to re-engage spinal …
In BioLuminescent OptoGenetics, a genetically encoded light source, a luciferase, activates a light-sensing optogenetic element, a channelrhodopsin or a pump. Here, we leveraged this coupling …
This recorded interview is the fifth in our Interviews with Experts series and features Peter Hegemann, PhD, Professor and Head of the Department for Biophysics …
This recorded interview is the third in our Interviews with Experts series and features Stefan Herlitze, PhD, Neuroscientist and Faculty of Biology and Biotechnology at …
Bioluminescent optogenetics (BL-OG) uses light emitted from a luciferase in the presence of its luciferin to activate light sensing molecules, including channelrhodopsins and light-sensitive transcription …
Despite ever improving treatment methods, there still is no way to effectively restore function after spinal cord injury. A promising approach is to re-engage spinal …