A connectomic resource for neural cataloguing and circuit dissection of the larval zebrafish brain

  1. Mariela D. Petkova
  2. Michał Januszewski
  3. Tim Blakely
  4. Kristian J. Herrera
  5. Gregor F.P. Schuhknecht
  6. Robert Tiller
  7. Jinhan Choi
  8. Richard L. Schalek
  9. Jonathan Boulanger-Weill
  10. Adi Peleg
  11. Yuelong Wu
  12. Shuohong Wang
  13. Jakob Troidl
  14. Sumit Kumar Vohra
  15. Donglai Wei
  16. Zudi Lin
  17. Armin Bahl
  18. Juan Carlos Tapia
  19. Nirmala Iyer
  20. Zachary T. Miller
  21. Kathryn B. Hebert
  22. Elisa C. Pavarino
  23. Milo Taylor
  24. Zixuan Deng
  25. Moritz Stingl
  26. Dana Hockling
  27. Alina Hebling
  28. Ruohong C. Wang
  29. Lauren L. Zhang
  30. Sam Dvorak
  31. Zainab Faik
  32. Kareem I. King
  33. Pallavi Goel
  34. Julian Wagner-Carena
  35. David Aley
  36. Selimzhan Chalyshkan
  37. Dominick Contreas
  38. Xiong Li
  39. Akila V. Muthukumar
  40. Marina S. Vernaglia
  41. Teodoro Tapia Carrasco
  42. Sofia Melnychuck
  43. TingTing Yan
  44. Ananya Dalal
  45. James M. DiMartino
  46. Sam Brown
  47. Nana Safo-Mensa
  48. Ethan Greenberg
  49. Michael Cook
  50. Samantha Finley-May
  51. Miriam A. Flynn
  52. Gary Patrick Hopkins
  53. Julie Kovalyak
  54. Meghan Leonard
  55. Alanna Lohff
  56. Christopher Ordish
  57. Ashley L. Scott
  58. Satoko Takemura
  59. Claire Walsh
  60. John J. Walsh
  61. Daniel R. Berger
  62. Hanspeter Pfister
  63. Stuart Berg
  64. Christopher Knecht
  65. Geoffrey W. Meissner
  66. Wyatt Korff
  67. Misha B. Ahrens
  68. Viren Jain
  69. Jeff W. Lichtman
  70. Florian Engert
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Abstract

We present a correlated light and electron microscopy (CLEM) dataset from a 7-day-old larval zebrafish, integrating confocal imaging of genetically labeled excitatory (vglut2a) and inhibitory (gad1b) neurons with nanometer-resolution serial section EM. The dataset spans the brain and anterior spinal cord, capturing >180,000 segmented soma, >40,000 molecularly annotated neurons, and 30 million synapses, most of which were classified as excitatory, inhibitory, or modulatory. To characterize the directional flow of activity across the brain, we leverage the synaptic and cell body annotations to compute region-wise input and output drive indices at single cell resolution. We illustrate the dataset’s utility by dissecting and validating circuits in three distinct systems: water flow direction encoding in the lateral line, recurrent excitation and contralateral inhibition in a hindbrain motion integrator, and functionally relevant targeted long-range projections from a tegmental excitatory nucleus, demonstrating that this resource enables rigorous hypothesis testing as well as exploratory-driven circuit analysis. The dataset is integrated into an open-access platform optimized to facilitate community reconstruction and discovery efforts throughout the larval zebrafish brain.

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