https://www.cellularimaging.org/blog daily 0.75 2022-11-21 https://www.cellularimaging.org/blog/brainj monthly 0.5 2021-10-18 https://www.cellularimaging.org/blog/clearmap2-cellmap monthly 0.5 2021-10-18 https://images.squarespace-cdn.com/content/v1/6101889ecf1b6e2e490a1876/1633634454064-2XH1NUKWTSO0W6M2IAUY/Annotation+slice.PNG Blog - ClearMap 2: Mapping activity with CellMap - Make it stand out Annotation dataset: Intensity in this dataset is used to identify the different regions of the Allen Brain Atlas. https://images.squarespace-cdn.com/content/v1/6101889ecf1b6e2e490a1876/1633638722046-E4Z0VHAJCEF3C8TYXE4R/Screen+Shot+2021-10-07+at+4.31.14+pm.png Blog - ClearMap 2: Mapping activity with CellMap - Make it stand out Whatever it is, the way you tell your story online can make all the difference. https://images.squarespace-cdn.com/content/v1/6101889ecf1b6e2e490a1876/1633641605411-D0RZOQZUXHLMA13JNQP7/Screen+Shot+2021-10-07+at+5.19.46+pm.png Blog - ClearMap 2: Mapping activity with CellMap - Make it stand out Whatever it is, the way you tell your story online can make all the difference. https://images.squarespace-cdn.com/content/v1/6101889ecf1b6e2e490a1876/1633639790366-VL7N0M9M18OGE247SS9B/Screen+Shot+2021-10-07+at+4.41.49+pm.png Blog - ClearMap 2: Mapping activity with CellMap - Make it stand out Whatever it is, the way you tell your story online can make all the difference. https://images.squarespace-cdn.com/content/v1/6101889ecf1b6e2e490a1876/1632780224700-0JN0IIPXGR1FBAMY0O40/clearmp2.PNG Blog - ClearMap 2: Mapping activity with CellMap - Make it stand out Whatever it is, the way you tell your story online can make all the difference. https://images.squarespace-cdn.com/content/v1/6101889ecf1b6e2e490a1876/1633635300936-5FF5ZSBU12YU0S2EMREB/Screen+Shot+2021-10-07+at+3.34.39+pm.png Blog - ClearMap 2: Mapping activity with CellMap - Make it stand out Whatever it is, the way you tell your story online can make all the difference. https://images.squarespace-cdn.com/content/v1/6101889ecf1b6e2e490a1876/1632780367266-TSHRZRXTP5K2YBXXTAS3/clearmap3.PNG Blog - ClearMap 2: Mapping activity with CellMap - Make it stand out Whatever it is, the way you tell your story online can make all the difference. https://images.squarespace-cdn.com/content/v1/6101889ecf1b6e2e490a1876/1633638249822-DNZPGX6SNNBMBISA6VIS/Screenshot+from+2021-10-07+16-20-18.png Blog - ClearMap 2: Mapping activity with CellMap - Make it stand out Raw data resampled to 25 x 25 x 25 µm https://images.squarespace-cdn.com/content/v1/6101889ecf1b6e2e490a1876/1633638246397-SLYYBL5S9YG919IIWHNA/Screenshot+from+2021-10-07+16-19-33.png Blog - ClearMap 2: Mapping activity with CellMap - Make it stand out Template dataset aligned to raw data. https://images.squarespace-cdn.com/content/v1/6101889ecf1b6e2e490a1876/1633634464651-VFJSJSHDJQQN3FELJZA5/Template+Slice.PNG Blog - ClearMap 2: Mapping activity with CellMap - Make it stand out Template dataset: This dataset was created by imaging tissue autofluorescence using serial two photon tomography. A total of 1,675 brains were imaged to create this population based average. https://images.squarespace-cdn.com/content/v1/6101889ecf1b6e2e490a1876/1633638251930-T5CZX4DT46T4PRB1FSUF/Screenshot+from+2021-10-07+16-21-30.png Blog - ClearMap 2: Mapping activity with CellMap - Make it stand out Merged channels. Looking for region edges and areas of contrast are useful for confirming alignment. https://images.squarespace-cdn.com/content/v1/6101889ecf1b6e2e490a1876/1633640927538-8MHNDYE5EV3KDGGAXJSB/Screen+Shot+2021-10-07+at+5.08.35+pm.png Blog - ClearMap 2: Mapping activity with CellMap - Make it stand out Whatever it is, the way you tell your story online can make all the difference. https://images.squarespace-cdn.com/content/v1/6101889ecf1b6e2e490a1876/1632779155446-0KJDNGATAKBZ54AXP9VN/CellMap1.PNG Blog - ClearMap 2: Mapping activity with CellMap - Make it stand out Whatever it is, the way you tell your story online can make all the difference. https://images.squarespace-cdn.com/content/v1/6101889ecf1b6e2e490a1876/1633638784352-0C6EMZITS6MAL8BTLMON/Screen+Shot+2021-10-07+at+4.31.33+pm.png Blog - ClearMap 2: Mapping activity with CellMap - Make it stand out Whatever it is, the way you tell your story online can make all the difference. https://images.squarespace-cdn.com/content/v1/6101889ecf1b6e2e490a1876/1633641267738-YT47ST23EZR0US34A920/Screen+Shot+2021-10-07+at+5.13.38+pm.png Blog - ClearMap 2: Mapping activity with CellMap - Make it stand out Whatever it is, the way you tell your story online can make all the difference. https://www.cellularimaging.org/blog/blog-post-title-one-28kxw monthly 0.5 2022-11-21 https://www.cellularimaging.org/blog/category/BrainJ monthly 0.5 https://www.cellularimaging.org/blog/category/Tutorial monthly 0.5 https://www.cellularimaging.org/blog/category/Light+Sheet monthly 0.5 https://www.cellularimaging.org/blog/category/Analysis monthly 0.5 https://www.cellularimaging.org/blog/category/Whole+brain+analysis monthly 0.5 https://www.cellularimaging.org/blog/tag/BrainJ monthly 0.5 https://www.cellularimaging.org/blog/tag/Tutorial monthly 0.5 https://www.cellularimaging.org/blog/tag/Light+Sheet monthly 0.5 https://www.cellularimaging.org/blog/tag/Analysis monthly 0.5 https://www.cellularimaging.org/blog/tag/ClearMap monthly 0.5 https://www.cellularimaging.org/publications2021 daily 0.75 2022-10-21 https://www.cellularimaging.org/publications2021/spinalj monthly 0.5 2021-09-16 https://images.squarespace-cdn.com/content/v1/6101889ecf1b6e2e490a1876/1631801267447-RAPX1AACN84CJMFLG7E6/analysis+header.PNG Publications - Tools for efficient analysis of neurons in a 3D reference atlas of whole mouse spinal cord - Make it stand out Whatever it is, the way you tell your story online can make all the difference. https://www.cellularimaging.org/publications2021/integrins monthly 0.5 2021-09-16 https://images.squarespace-cdn.com/content/v1/6101889ecf1b6e2e490a1876/1631820128235-8LT6GRMOVHM10XJDRKEA/analysis+header.PNG Publications - Integrins protect sensory neurons in models of paclitaxel-induced peripheral sensory neuropathy - Make it stand out Whatever it is, the way you tell your story online can make all the difference. https://www.cellularimaging.org/publications2021/sweetandbitter monthly 0.5 2021-09-16 https://images.squarespace-cdn.com/content/v1/6101889ecf1b6e2e490a1876/1631823256865-36J3LX0PLODRK9X2ZHEK/analysis+header.PNG Publications - Top-Down Control of Sweet and Bitter Taste in the Mammalian Brain - Make it stand out Whatever it is, the way you tell your story online can make all the difference. https://www.cellularimaging.org/publications2021/category/Slide+Scanner monthly 0.5 https://www.cellularimaging.org/publications2021/category/BrainJ monthly 0.5 https://www.cellularimaging.org/publications2021/category/Mason+Lab monthly 0.5 https://www.cellularimaging.org/publications2021/category/Dodd+Lab monthly 0.5 https://www.cellularimaging.org/publications2021/category/SpinalJ monthly 0.5 https://www.cellularimaging.org/publications2021/category/W1+Spinning+Disk+Confocal monthly 0.5 https://www.cellularimaging.org/publications2021/category/Collaboration monthly 0.5 https://www.cellularimaging.org/publications2021/category/W1-SoRa+Spinning+Disk+Confocal monthly 0.5 https://www.cellularimaging.org/publications2021/category/UltraMicroscopeII monthly 0.5 https://www.cellularimaging.org/publications2021/tag/Mason+Lab monthly 0.5 https://www.cellularimaging.org/publications2021/tag/Grueber+Lab monthly 0.5 https://www.cellularimaging.org/publications2021/tag/Dodd+Lab monthly 0.5 https://www.cellularimaging.org/publications2021/tag/Cellular+Imaging monthly 0.5 https://www.cellularimaging.org/publications2021/tag/Zuker+Lab monthly 0.5 https://www.cellularimaging.org/about daily 0.75 2024-10-23 https://images.squarespace-cdn.com/content/v1/6101889ecf1b6e2e490a1876/1630006982411-GI745WBFF2PC8I8NW4N2/Symposium-Agenda-Hero-03-19-19.jpg https://images.squarespace-cdn.com/content/v1/6101889ecf1b6e2e490a1876/b6d5ef87-5850-481d-84a5-dc875746e0ae/hia2.jpg https://images.squarespace-cdn.com/content/v1/6101889ecf1b6e2e490a1876/1631971933094-D9A0DE11XFUBHL4NQLQF/Darcy.jpg https://images.squarespace-cdn.com/content/v1/5ce435d6bea1ed00016ba287/1558964652247-5MWXNMFZVOPGE4TY6U2Q/MHeiderich_ReflexionenZwei-05-copy.jpg About https://www.cellularimaging.org/advice-on-sample-preparation daily 0.75 2021-12-08 https://images.squarespace-cdn.com/content/v1/6101889ecf1b6e2e490a1876/1631894459631-JAID87Z5I74F6J4OOTJ1/best+results.PNG Advice on Sample Preparation - Make it stand out Whatever it is, the way you tell your story online can make all the difference. https://www.cellularimaging.org/courses daily 0.75 2021-09-16 https://www.cellularimaging.org/home daily 1.0 2024-10-23 https://www.cellularimaging.org/online-training-and-courses daily 0.75 2021-09-16 https://www.cellularimaging.org/ci-instruments daily 0.75 2021-09-15 https://www.cellularimaging.org/software daily 0.75 2021-09-17 https://www.cellularimaging.org/ain2021 daily 0.75 2022-01-28 https://images.squarespace-cdn.com/content/v1/6101889ecf1b6e2e490a1876/1630003363713-Q7C6L8X8JB6GEAKBG1ML/2021imagecompheaderbrsh.jpg Art in Neuroscience 2021 - Make it stand out Whatever it is, the way you tell your story online can make all the difference. https://images.squarespace-cdn.com/content/v1/6101889ecf1b6e2e490a1876/27256440-14fb-456d-96e6-ee0d6d577bee/Glia.jpg Art in Neuroscience 2021 - The sticky glue of our brain Eugenie PEZE-HEIDSIECK (she/her) and Carlos DIAZ SALAZAR ALBELDA (he/him) | Polleux Lab Funding: NOMIS and Fyssen Foundation Glia comes from the Greek and means “glue”. We put all these cells, yet with very different roles and very different origins, in the same general basket of brain "glue". Microglia come from the immune system, they hunt down and “eat” damaged neurons or fight infections. They also play a crucial role in the elimination of synapses and therefore in the communication of neurons https://images.squarespace-cdn.com/content/v1/6101889ecf1b6e2e490a1876/48c3b572-33d9-4c9a-9c3d-b92a561d8bea/gradientOfInputs.jpg Art in Neuroscience 2021 - BirdBow Marissa Applegate, with help from Konstantin Gutnichenko | Aronov Lab Funding: Beckman Young Investigators Award Discovery of a possible entorhinal cortex analog in black-capped chickadees, revealed through anatomical tracing. Differently colored cells send input to different portions of the chickadee hippocampus. https://images.squarespace-cdn.com/content/v1/6101889ecf1b6e2e490a1876/1848c1c9-740a-4de5-906f-bc5a3607bdcc/CA2+perineuronal+nets_submission-2+copy.jpg Art in Neuroscience 2021 - The perineuronal net extracellular matrix of the hippocampal CA2 subfield Alex Whitebirch | Siegelbaum Lab Funding: 1F31NS113466-01 The perineuronal net is a specialized extracellular matrix that typically ensheathes parvalbumin-expressing interneurons. However, in the CA2 subfield of the hippocampus this matrix is also found surrounding excitatory pyramidal neurons, where it has an important role regulating synaptic plasticity. https://images.squarespace-cdn.com/content/v1/6101889ecf1b6e2e490a1876/01a14470-b23a-4e31-9197-1659f1ca5fa7/ECJ_Submission1_Pleuro+sensory+projections+copy.jpg Art in Neuroscience 2021 - Salamander Senses Eliza Jaeger | Tosches Lab Staining performed with help from Alonso Ortega Gurrola Funding: NSF GRFP This is an image of an entire, cleared, larval salamander (Pleurodeles waltl) head with its brain and skin shown in white and developing sensory projections along its arms, skin, and gills shown in red. https://images.squarespace-cdn.com/content/v1/6101889ecf1b6e2e490a1876/ddab3ed4-4ef7-4d30-bfba-94c1ab133063/Calb_vGlut_purp-pink_hi.jpg Art in Neuroscience 2021 - Spinal Inflorescence Anders Nelson | Costa Lab Funding: 1K99NS118053-01 Spinal interneurons expressing calbindin (purple) surrounded by excitatory synapses (pink). https://images.squarespace-cdn.com/content/v1/6101889ecf1b6e2e490a1876/211b9174-3f2b-4d6d-8fcd-cd6714af38a9/CA2+dual-labeled+projections_submission-3+copy.jpg Art in Neuroscience 2021 ab>Intrahippocampal axonal projections of dorsal CA2 pyramidal neurons Alex Whitebirch | Siegelbaum Lab Funding: 1F31NS113466-01 CA2 pyramidal neurons form extensive axonal projections, seen here projecting throughout the intermediate hippocampus and establishing synaptic connections throughout the CA1, CA2, and CA3 subfields. https://images.squarespace-cdn.com/content/v1/6101889ecf1b6e2e490a1876/1848c1c9-740a-4de5-906f-bc5a3607bdcc/CA2+perineuronal+nets_submission-2+copy.jpg Art in Neuroscience 2021 The perineuronal net extracellular matrix of the hippocampal CA2 subfield Alex Whitebirch | Siegelbaum Lab Funding: 1F31NS113466-01 The perineuronal net is a specialized extracellular matrix that typically ensheathes parvalbumin-expressing interneurons. However, in the CA2 subfield of the hippocampus this matrix is also found surrounding excitatory pyramidal neurons, where it has an important role regulating synaptic plasticity. https://images.squarespace-cdn.com/content/v1/6101889ecf1b6e2e490a1876/97faa2ad-1d21-4bb2-879e-e900f0a9e6a2/pilocarpine-induced+degeneration_submission-1+copy.jpg Art in Neuroscience 2021 Neurodegeneration in the mouse hippocampus following pilocarpine-induced seizures Alex Whitebirch | Siegelbaum Lab Funding: 1F31NS113466-01 In order to model temporal lobe epilepsy, mice are administered the drug pilocarpine hydrochloride. This muscarinic acetylcholine receptor agonist induces seizures and a characteristic pattern of hippocampal neurodegeneration, in which CA2 pyramidal neurons and dentate gyrus granule cells (labeled with a stain against PCP4 in green) typically survive. https://images.squarespace-cdn.com/content/v1/6101889ecf1b6e2e490a1876/7aa87660-fb05-4293-b5ef-d7efbe36f11e/Tristan_Geiller.tif+%28RGB%29+copy.jpg Art in Neuroscience 2021 Convergence Tristan Geiller | Losonczy Lab Neurons have the unique property of interacting with one another through synapses. This image represents neurons distributed throughout the hippocampus (dark blue) that have synapses onto the same individual target (cyan). https://images.squarespace-cdn.com/content/v1/6101889ecf1b6e2e490a1876/d748c67f-7a86-431f-9b35-cef2385b7f90/C1-A2aCre-GAD2GFP_07_TL_brainZoom_Maximum+intensity+projection.jpg Art in Neuroscience 2021 Mauve Avenger Anders Nelson | Costa Lab Funding: 1K99NS118053-01 Corticostriatal neurons labeled with rabies (purple) surrounded by GABAergic inhibitory interneurons (green). https://images.squarespace-cdn.com/content/v1/6101889ecf1b6e2e490a1876/ddab3ed4-4ef7-4d30-bfba-94c1ab133063/Calb_vGlut_purp-pink_hi.jpg Art in Neuroscience 2021 Spinal Inflorescence Anders Nelson | Costa Lab Funding: 1K99NS118053-01 Spinal interneurons expressing calbindin (purple) surrounded by excitatory synapses (pink). https://images.squarespace-cdn.com/content/v1/6101889ecf1b6e2e490a1876/9ec0edb6-4b67-41b7-b53d-16ecca76d4da/CoverSuggestion2+copy.jpg Art in Neuroscience 2021 Shadows of the Mind Anders Nelson | Costa Lab Funding: 1K99NS118053-01 Neurons in motor cortex expressing fluorescent reporters. https://images.squarespace-cdn.com/content/v1/6101889ecf1b6e2e490a1876/e69efb72-2532-41a1-a15d-a56782ca150f/CoverSuggestion3+copy.jpg Art in Neuroscience 2021 Mental Landscapes Anders Nelson | Costa Lab Funding: 1K99NS118053-01 Pyramidal neurons in a mouse motor cortex: corticospinal neurons (green); corticostriatal neurons (purple); cell nuclei are in light blue https://images.squarespace-cdn.com/content/v1/6101889ecf1b6e2e490a1876/01a14470-b23a-4e31-9197-1659f1ca5fa7/ECJ_Submission1_Pleuro+sensory+projections+copy.jpg Art in Neuroscience 2021 Salamander Senses Eliza Jaeger | Tosches Lab Staining performed with help from Alonso Ortega Gurrola Funding: NSF GRFP This is an image of an entire, cleared, larval salamander (Pleurodeles waltl) head with its brain and skin shown in white and developing sensory projections along its arms, skin, and gills shown in red. https://images.squarespace-cdn.com/content/v1/6101889ecf1b6e2e490a1876/816ba708-a7ba-4ed4-9584-18ec97eed4da/ECJ_Submission2_Pleuro+AAV+copy.jpg Art in Neuroscience 2021 Amphibians Go Viral Eliza Jaeger | Tosches Lab Funding: NSF GRFP This is a slice of an entire adult salamander (Pleurodeles waltl) brain with its brain cells shown in blue. The green cells have been injected with a virus called AAV PHP.eB expressing a fluorescent protein — a wonderful neuroscience tool that hasn’t been used in amphibian brains before! https://images.squarespace-cdn.com/content/v1/6101889ecf1b6e2e490a1876/d2acec70-31cb-4c7d-ab7e-05f2a2b8429d/Brain_clock_portal+copy.jpg Art in Neuroscience 2021 The brain clock’s protal system Yifan Yao & Alana Taub | Silver Lab Funding: NSF 1749500 & NIH 1S10OD023587-01 Blood vessels (green) from the brain clock suprachiasmatic nucleus (bottom left, magenta) reach a nearby highly vascularized region, the organum vasculosum of the lanima terminalis (right), forming a shortcut for diffusible signals between them. https://images.squarespace-cdn.com/content/v1/6101889ecf1b6e2e490a1876/48014da3-87e4-40b7-95d5-d5b58b8b8cd2/Yow-Tyng+Yeh+ArtInNeuroscience_image+copy.jpg Art in Neuroscience 2021 Symphony of the Brain Yow-Tyng (Tim) Yeh, with help from Qian Du | Woolley Lab Labeling of the midbrain dopamine-producing cell population (red) and its subpopulation (green) that projects to the posterior striatum. https://images.squarespace-cdn.com/content/v1/6101889ecf1b6e2e490a1876/285f57a9-ef27-437e-ac34-bf752e47470d/Drosophila_Hemisegment8.tif+%28RGB%29+copy.jpg Art in Neuroscience 2021 Maggot Map Raffi Cohn and Samantha Shih | Grueber Lab A Hemisegment of the Drosophila Larvae highlights the intricate and beautiful interwoven dendrites of different types of sensory neurons, including those that respond to pain (in red) and to touch (in green), with axons converging in the central nervous system on the right. https://images.squarespace-cdn.com/content/v1/6101889ecf1b6e2e490a1876/df727459-e7fa-41c2-adca-cc8bd732c641/Astrocytes.jpg Art in Neuroscience 2021 The stars within our brain Eugenie PEZE-HEIDSIECK (she/her) | Polleux Lab Funding: NOMIS and Fyssen Foundation Long despised and set aside, astrocytes fulfill important functions of repair, regulation, maintenance of tissue, glutamatergic transmission, they also contact the blood capillaries with their “endfeet” ... the list is long and we cannot deny the beauty of their stary morphology. https://images.squarespace-cdn.com/content/v1/6101889ecf1b6e2e490a1876/27256440-14fb-456d-96e6-ee0d6d577bee/Glia.jpg Art in Neuroscience 2021 The sticky glue of our brain Eugenie PEZE-HEIDSIECK (she/her) and Carlos DIAZ SALAZAR ALBELDA (he/him) | Polleux Lab Funding: NOMIS and Fyssen Foundation Glia comes from the Greek and means “glue”. We put all these cells, yet with very different roles and very different origins, in the same general basket of brain "glue". Microglia come from the immune system, they hunt down and “eat” damaged neurons or fight infections. They also play a crucial role in the elimination of synapses and therefore in the communication of neurons. https://images.squarespace-cdn.com/content/v1/6101889ecf1b6e2e490a1876/48c3b572-33d9-4c9a-9c3d-b92a561d8bea/gradientOfInputs.jpg Art in Neuroscience 2021 BirdBow Marissa Applegate, with help from Konstantin Gutnichenko | Aronov Lab Funding: Beckman Young Investigators Award Discovery of a possible entorhinal cortex analog in black-capped chickadees, revealed through anatomical tracing. Differently colored cells send input to different portions of the chickadee hippocampus. https://images.squarespace-cdn.com/content/v1/6101889ecf1b6e2e490a1876/0e1fb0ee-f6eb-4077-a700-fb594938cf7c/Cury_Terminalia+copy.jpg Art in Neuroscience 2021 This Feels Right Kevin M. Cury | Axel Lab Funding: Howard Hughes Medical Institute Here we see the terminal abdomen of a female fruit fly. Sensory neurons (green) that connect to individual hairs are key to identifying soft places to lay eggs. https://images.squarespace-cdn.com/content/v1/6101889ecf1b6e2e490a1876/082f4420-4d8e-4498-9e99-0cfb31caf975/Cury_Tract+copy.jpg Art in Neuroscience 2021 The World Within Kevin M. Cury | Axel Lab Funding: Howard Hughes Medical Institute Here we see the reproductive system of a female fruit fly. Laying an egg requires the coordination of multiple muscle groups and organs. https://images.squarespace-cdn.com/content/v1/6101889ecf1b6e2e490a1876/ec0b1708-c58e-42eb-92c3-edb8ad34fb50/Li_Bitter+neurons+in+amygdala+copy.jpg Art in Neuroscience 2021 Bitter neurons in amygdala Li Wang | Zuker Lab Funding: R01DA035025 The bitter neurons in the CEA were labeled in a Trap2-Ai9 mouse, stimulated by cycloheximide. The tSNE map shows single-cell clusters in the CEA (10x genomics). https://images.squarespace-cdn.com/content/v1/6101889ecf1b6e2e490a1876/5b5a5bdb-21d7-4019-9d97-4ccef9a3cdcb/Li_Taste+projections+in+mouse+brain+copy.jpg Art in Neuroscience 2021 Taste projections in mouse brain Li Wang | Zuker Lab Funding: R01DA035025 The view showing a CUBIC cleared mouse brain with projections from the sweet cortical field labeled with eGFP (GCsw, cyan) and the bitter cortical field labeled with tdTomato (GCbt, orange), published in Nature volume 558, pages 127–131 (2018). https://www.cellularimaging.org/2021-image-analysis-program daily 0.75 2022-05-18 https://www.cellularimaging.org/publicationlist daily 0.75 2024-10-24 https://www.cellularimaging.org/ain2023 daily 0.75 2024-06-07 https://images.squarespace-cdn.com/content/v1/6101889ecf1b6e2e490a1876/1630003363713-Q7C6L8X8JB6GEAKBG1ML/2021imagecompheaderbrsh.jpg Art in Neuroscience 2023 images - Make it stand out Whatever it is, the way you tell your story online can make all the difference. https://images.squarespace-cdn.com/content/v1/6101889ecf1b6e2e490a1876/a9b37dbe-14ab-4a8b-a81a-8fca7b882cd3/Venetian+Mask.jpg https://images.squarespace-cdn.com/content/v1/6101889ecf1b6e2e490a1876/229191d3-197f-4e95-ad52-b46b16bde0c6/Envisioning+Eye+Development+900.jpg https://images.squarespace-cdn.com/content/v1/6101889ecf1b6e2e490a1876/9654094f-a360-4ea8-adae-b1296e38cebf/Galindo_Dev_Cover3reduced.jpg https://images.squarespace-cdn.com/content/v1/6101889ecf1b6e2e490a1876/6b47e879-fef2-4e49-97cc-7008e1d40eef/whereVisionMeetsMovement.png https://images.squarespace-cdn.com/content/v1/6101889ecf1b6e2e490a1876/a9b37dbe-14ab-4a8b-a81a-8fca7b882cd3/Venetian+Mask.jpg https://images.squarespace-cdn.com/content/v1/6101889ecf1b6e2e490a1876/9bd29494-3431-4657-95a1-1a9245ade917/jackson+pollock.jpg Art in Neuroscience 2023 images Jackson Pollock’s drips and synaptic FLPS Laudan Nikoobakht & Alana Mendelsohn | Costa Lab Green cells are cells expressing Pou6f2 (gene). Red and yellow neurons were ‘flipped’ using a FLP recombinase to reveal which Pou6f2 neurons have GABAergic synapses. https://images.squarespace-cdn.com/content/v1/6101889ecf1b6e2e490a1876/b56160ef-0c19-44cc-a5c7-22f89db79185/spiderman.jpg Art in Neuroscience 2023 images Spoderman into the Neuroverse Laudan Nikoobakht & Zirong Gu | Costa Lab The brain of a mouse bit by a radioactive spider (In other words: injection site of parafascicular nucleus of the thalamus injected with a retro AAV. Retrograde tracers outline neurons from the terminals of their axons to their cell bodies.) https://images.squarespace-cdn.com/content/v1/6101889ecf1b6e2e490a1876/2253aa39-dc57-4f24-806d-b2e7788ba867/InesRodriguesVaz_1.jpg Art in Neuroscience 2023 images Dual purpose brain Ines Rodrigues-Vaz | Costa/Peterka Labs Funding: FCT Portugal PD/BD/105950/2014; Simons-Emory; International Consortium (Simons 717104); U19 NS104649 (to RC); ASAP-020551 Using genetics to see neural activity, and virus to induce neural activity. https://images.squarespace-cdn.com/content/v1/6101889ecf1b6e2e490a1876/a7276a3f-2dd3-4333-a243-d135483c8129/InesRodriguesVaz_2.jpg Art in Neuroscience 2023 images Columns and bucket of neurons Ines Rodrigues-Vaz | Costa/Peterka Labs Funding: FCT Portugal PD/BD/105950/2014; Simons-Emory; International Consortium (Simons 717104); U19 NS104649 (to RC); ASAP-020551 Active neurons in the brain – from cortical columns to messy striatum. https://images.squarespace-cdn.com/content/v1/6101889ecf1b6e2e490a1876/5d5c3ab4-e05b-4afc-a459-f3a36987051a/DL_Nerv-MCFO.lif+-+Series009-1.jpg Art in Neuroscience 2023 images Paint by Glia Davys Lopez (he/him) | Mann Lab Funding: R01NS070644 The colors highlight the wrapping glia of the immature fruit fly nervous system that facilitate neuronal communication to the muscles of the larval body. https://images.squarespace-cdn.com/content/v1/6101889ecf1b6e2e490a1876/33e1ff55-6ad2-4400-b422-37dc6b494362/keepingALevelHead.png Art in Neuroscience 2023 images Keeping a level head Stephen Huston | Huston Lab An image of the cuticle deep within a fly’s neck. When the fly rotates its head, tiny hairs (false colored red) are squashed by a flap of cuticle (false colored transparent blue). Each hair is monitored by its own sensory neuron which conveys information to the fly’s brain about its head posture. Image made in collaboration with Igor Siwanowicz, Janelia Research Campus. https://images.squarespace-cdn.com/content/v1/6101889ecf1b6e2e490a1876/940527c5-4069-42ef-bf27-de63b2474af8/FlyMuscles.png Art in Neuroscience 2023 images Fly muscles Stephen Huston | Huston Lab A micro-CT image of a fly’s head and upper thorax showing its muscles and brain. Image made in collaboration with Nirmala Iyer, Janelia Research Campus. https://images.squarespace-cdn.com/content/v1/6101889ecf1b6e2e490a1876/3a2fc77d-cc6f-4cff-b08c-e140df3b277a/whereVisionMeetsMovement.png Art in Neuroscience 2023 images Where vision meets movement Stephen Huston | Huston Lab An image of a fly brain (grey) showing brain cells that respond to visual motion (magenta) connecting to a motor neuron (green) that controls the fly’s muscles. Studying these simple neural circuits that translate sensation to movement helps us understand how the brain generates behavior. Image made in collaboration with Rebecca Johnston, Friday Harbor Laboratories.  https://images.squarespace-cdn.com/content/v1/6101889ecf1b6e2e490a1876/0bfc4241-82be-49d1-abe9-19c6ae56c3bc/Venetian+Mask.jpg Art in Neuroscience 2023 images Venetian Mask Panagiota (Julie) Apostolou | Gogos Lab A part of the brain that is mainly responsible for memory, called the hippocampus fixed at the time that some of the neurons become activated. https://images.squarespace-cdn.com/content/v1/6101889ecf1b6e2e490a1876/35696dc2-c2b1-47d4-9547-8f005f08b249/409981+pictures+of+an+HIV+envelope+protein.jpg Art in Neuroscience 2023 images 409981 pictures of an HIV envelope protein Nicholas C Morano | Shapiro Lab Funding: Vaccine Research Center, National Institution Health A 3D image reconstruction of 409981 electron microscopy pictures of an antibody (blue and red) bound to the HIV Envelope protein (gray and magenta) from a collaborative effort between the Shapiro Lab and the Vaccine Research center aimed at developing an HIV vaccine. https://images.squarespace-cdn.com/content/v1/6101889ecf1b6e2e490a1876/1929c068-cd76-4ab1-89c1-6ca099f101e6/Art+in+Neuroscience_Margarita+Dilinger+%281%29.jpg Art in Neuroscience 2023 images Envisioning Eye Development Margarita Dillinger, she/her | Mason Lab Funding: NIH R01 EY015290, an António Champalimaud Vision Award, Simons Foundation Senior Fellow Award, and the National Organization for Albinism and Hypopigmentation (NOAH) Embryonic mouse eye immunostained for DNA (blue), a regulator of cell division (CyclinD2) (red), and Zic2, transcription factor in ipsilateral retinal ganglion cells (green). https://images.squarespace-cdn.com/content/v1/6101889ecf1b6e2e490a1876/1fd2c860-2eff-4ae5-ba89-1dbb57eff453/Galindo_Dev_Cover3reduced.jpg Art in Neuroscience 2023 images A touching image of a Drosophila larva Wes Grueber, submitted on behalf of Dr. Samantha Galindo | Grueber Lab Funding: NINDS of the NIH Award Number R01NS061908 National Institutes of Health NS098765 Image of a Drosophila larva with nociceptive (noxious sensing) neurons in green and touch sensing neurons in magenta. Both groups of somatosensory neurons reside just inside a transparent body wall, which they cover completely without gaps or overlap.