A connectome and analysis of the adult Drosophila central brain

Louis K Scheffer

C Shan Xu

Michal Januszewski

Zhiyuan Lu

Shin-ya Takemura

Kenneth J Hayworth

Gary B Huang

Kazunori Shinomiya

Jeremy Maitlin-Shepard

Stuart Berg

Jody Clements

Philip M Hubbard

William T Katz

Lowell Umayam

Ting Zhao

David Ackerman

Tim Blakely

John Bogovic

Tom Dolafi

Dagmar Kainmueller

Takashi Kawase

Khaled A Khairy

Laramie Leavitt

Peter H Li

Larry Lindsey

Nicole Neubarth

Donald J Olbris

Hideo Otsuna

Eric T Trautman

Masayoshi Ito

Alexander S Bates

Jens Goldammer

Tanya Wolff

Robert Svirskas

Philipp Schlegel

Erika Neace

Christopher J Knecht

Chelsea X Alvarado

Dennis A Bailey

Samantha Ballinger

Jolanta A Borycz

Brandon S Canino

Natasha Cheatham

Michael Cook

Marisa Dreher

Octave Duclos

Bryon Eubanks

Kelli Fairbanks

Samantha Finley

Nora Forknall

Audrey Francis

Gary Patrick Hopkins

Emily M Joyce

SungJin Kim

Nicole A Kirk

Julie Kovalyak

Shirley Lauchie

Alanna Lohff

Charli Maldonado

Emily A Manley

Sari McLin

Caroline Mooney

Miatta Ndama

Omotara Ogundeyi

Nneoma Okeoma

Christopher Ordish

Nicholas Padilla

Christopher M Patrick

Tyler Paterson

Elliott E Phillips

Emily M Phillips

Neha Rampally

Caitlin Ribeiro

Madelaine K Robertson

Jon Thomson Rymer

Sean M Ryan

Megan Sammons

Anne K Scott

Ashley L Scott

Aya Shinomiya

Claire Smith

Kelsey Smith

Natalie L Smith

Margaret A Sobeski

Alia Suleiman

Jackie Swift

Satoko Takemura

Iris Talebi

Dorota Tarnogorska

Emily Tenshaw

Temour Tokhi

John J Walsh

Tansy Yang

Jane Anne Horne

Feng Li

Ruchi Parekh

Patricia K Rivlin

Vivek Jayaraman

Marta Costa

Gregory SXE Jefferis

Kei Ito

Stephan Saalfeld

Reed George

Ian Meinertzhagen

Gerald M Rubin

Harald F Hess

Viren Jain

Stephen M Plaza

eLife, vol. 9 (2020)

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Abstract

The neural circuits responsible for animal behavior remain largely unknown. We summarize new methods and present the circuitry of a large fraction of the brain of the fruit fly Drosophila melanogaster. Improved methods include new procedures to prepare, image, align, segment, find synapses in, and proofread such large data sets. We define cell types, refine computational compartments, and provide an exhaustive atlas of cell examples and types, many of them novel. We provide detailed circuits consisting of neurons and their chemical synapses for most of the central brain. We make the data public and simplify access, reducing the effort needed to answer circuit questions, and provide procedures linking the neurons defined by our analysis with genetic reagents. Biologically, we examine distributions of connection strengths, neural motifs on different scales, electrical consequences of compartmentalization, and evidence that maximizing packing density is an important criterion in the evolution of the fly's brain.

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A connectome and analysis of the adult Drosophila central brain

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Research Areas

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Defining the technology of today and tomorrow.

Philosophy

People

Teams

AI/ML Foundations & Capabilities

Algorithms & Optimization

Computing Paradigms

Responsible Human-Centric Technology

Science & Societal Impact

Projects

Publications

Resources

Shaping the future, together.

Student programs

Faculty programs

Conferences & events

A connectome and analysis of the adult Drosophila central brain

Abstract

Research Areas

Meet the teams driving innovation

AI/ML Foundations  & Capabilities