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1. An evolving perspective on the dynamic brain: Notes from the Brain Conference on Dynamics of the brain: Temporal aspects of computation

   https://doi.org/10.1111/ejn.14963  

   Langdon, Angela J.; Chaudhuri, Rishidev (June 2021, European Journal of Neuroscience)

   null (Ed.)
2. Early Brain Growth Cessation in Wild Virunga Mountain Gorillas ( Gorilla beringei beringei ): Brain Growth in Mountain Gorillas

   https://doi.org/10.1002/ajp.22100  

   MCFARLIN, SHANNON C.; BARKS, SARAH K.; TOCHERI, MATTHEW W.; MASSEY, JASON S.; ERIKSEN, AMANDINE B.; FAWCETT, KATIE A.; STOINSKI, TARA S.; HOF, PATRICK R.; BROMAGE, TIMOTHY G.; MUDAKIKWA, ANTOINE; et al (May 2013, American Journal of Primatology)
3. Application of Recombinant Rabies Virus to Xenopus Tadpole Brain

   https://doi.org/10.1523/ENEURO.0477-20.2021  

   Faulkner, Regina L.; Wall, Nicholas R.; Callaway, Edward M.; Cline, Hollis T. (July 2021, eneuro)
4. BIFROST: a method for registering diverse imaging datasets of the Drosophila brain

   https://doi.org/10.1101/2023.06.09.544408  

   Brezovec, Bella E; Berger, Andrew B; Hao, Yukun A; Lin, Albert; Ahmed, Osama M; Pacheco, Diego A; Thiberge, Stephan Y; Murthy, Mala; Clandinin, Thomas R (June 2023, bioRxiv)

   Abstract The heterogeneity of brain imaging methods in neuroscience provides rich data that cannot be captured by a single technique, and our interpretations benefit from approaches that enable easy comparison both within and across different data types. For example, comparing brain-wide neural dynamics across experiments and aligning such data to anatomical resources, such as gene expression patterns or connectomes, requires precise alignment to a common set of anatomical coordinates. However, this is challenging because registeringin vivofunctional imaging data toex vivoreference atlases requires accommodating differences in imaging modality, microscope specification, and sample preparation. We overcome these challenges inDrosophilaby building anin vivoreference atlas from multiphoton-imaged brains, called the Functional Drosophila Atlas (FDA). We then develop a two-step pipeline, BrIdge For Registering Over Statistical Templates (BIFROST), for transforming neural imaging data into this common space and for importingex vivoresources such as connectomes. Using genetically labeled cell types as ground truth, we demonstrate registration with a precision of less than 10 microns. Overall, BIFROST provides a pipeline for registering functional imaging datasets in the fly, both within and across experiments. SignificanceLarge-scale functional imaging experiments inDrosophilahave given us new insights into neural activity in various sensory and behavioral contexts. However, precisely registering volumetric images from different studies has proven challenging, limiting quantitative comparisons of data across experiments. Here, we address this limitation by developing BIFROST, a registration pipeline robust to differences across experimental setups and datasets. We benchmark this pipeline by genetically labeling cell types in the fly brain and demonstrate sub-10 micron registration precision, both across specimens and across laboratories. We further demonstrate accurate registration betweenin-vivobrain volumes and ultrastructural connectomes, enabling direct structure-function comparisons in future experiments. 

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5. The Drosophila dopamine 2‐like receptor D2R ( Dop2R ) is required in the blood brain barrier for male courtship

   https://doi.org/10.1111/gbb.12836  

   Love, Cameron R.; Gautam, Sumit; Lama, Chamala; Le, Nhu Hoa; Dauwalder, Brigitte (January 2023, Genes, Brain and Behavior)

   Abstract The blood brain barrier (BBB) has the essential function to protect the brain from potentially hazardous molecules while also enabling controlled selective uptake. How these processes and signaling inside BBB cells control neuronal function is an intense area of interest. Signaling in the adultDrosophilaBBB is required for normal male courtship behavior and relies on male‐specific molecules in the BBB. Here we show that the dopamine receptorD2Ris expressed in the BBB and is required in mature males for normal mating behavior. Conditional adult male knockdown ofD2Rin BBB cells causes courtship defects. The courtship defects observed in geneticD2Rmutants can be rescued by expression of normalD2Rspecifically in the BBB of adult males.DrosophilaBBB cells are glial cells. Our findings thus identify a specific glial function for theDR2receptor and dopamine signaling in the regulation of a complex behavior. 

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