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Zachary Dorman

ORCID: 0000-0001-9933-7217
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A5081953194
Research Areas
  • Neurobiology and Insect Physiology Research
  • Viral Infectious Diseases and Gene Expression in Insects
  • Cell Image Analysis Techniques
  • Plant Molecular Biology Research
  • Insect and Arachnid Ecology and Behavior
  • Protein Degradation and Inhibitors
  • Advanced Fluorescence Microscopy Techniques
  • Greenhouse Technology and Climate Control
  • Water Quality Monitoring Technologies
  • Solar Radiation and Photovoltaics
  • Plant biochemistry and biosynthesis

Howard Hughes Medical Institute
 2022-2025

Janelia Research Campus
 2022-2025

University of Cologne
 2024-2025

The University of Queensland
 2024

University of California, Berkeley
 2024

Columbia University
 2024

 A searchable image resource of Drosophila GAL4 driver expression patterns with single neuron resolution
OPENALEX - Publications 
Geoffrey W. Meissner Aljoscha Nern Zachary Dorman Gina M DePasquale Kaitlyn Forster and 31 more Theresa Gibney Joanna H Hausenfluck Yisheng He Nirmala Iyer Jennifer Jeter Lauren Johnson Rebecca M. Johnston Kelley Lee Brian Melton Brianna Yarbrough Christopher T Zugates Jody Clements Cristian Goina Hideo Otsuna Konrad Rokicki Robert Svirskas Yoshinori Aso Gwyneth M Card Barry J. Dickson Erica Ehrhardt Jens Goldammer Masayoshi Ito Dagmar Kainmueller Wyatt Korff Lisa Mais Ryo Minegishi Shigehiro Namiki Gerald M. Rubin Gabriella R Sterne Tanya Wolff Oz Malkesman

Precise, repeatable genetic access to specific neurons via GAL4/UAS and related methods is a key advantage of

10.7554/elife.80660 article EN cc-by eLife 2023-02-23
 A split-GAL4 driver line resource forDrosophilaneuron types
OPENALEX - Publications 
Geoffrey W. Meissner Allison Vannan Jennifer Jeter Kari Close Gina M DePasquale and 78 more Zachary Dorman Kaitlyn Forster Jaye Anne Beringer Theresa Gibney Joanna H Hausenfluck Yisheng He Kristin Henderson Lauren Johnson Rebecca M. Johnston Gudrun Ihrke Nirmala Iyer Rachel Lazarus Kelley Lee Hsing-Hsi Li Hua-Peng Liaw Brian Melton Scott D. Miller Reeham Motaher Alexandra Novak Omotara Ogundeyi Alyson Petruncio Jacquelyn Price Sophia Protopapas Susana Tae Jennifer Taylor Rebecca Vorimo Brianna Yarbrough Kevin Xiankun Zeng Christopher T Zugates Heather Dionne C. N. Angstadt Kelly Ashley Amanda Cavallaro Tam Dang Guillermo A Gonzalez Karen L Hibbard Cuizhen Huang Jui‐Chun Kao Todd Laverty Monti Mercer Brenda Perez Scarlett Pitts Danielle Ruiz Viruthika Vallanadu Grace Zhiyu Zheng Cristian Goina Hideo Otsuna Konrad Rokicki Robert Svirskas Han SJ Cheong Michael-John Dolan Erica Ehrhardt Kai Feng Basel El Galfi Jens Goldammer Stephen J Huston Nan Hu Masayoshi Ito Claire McKellar Ryo Minegishi Shigehiro Namiki Aljoscha Nern Catherine E. Schretter Gabriella R Sterne Lalanti Venkatasubramanian Kaiyu Wang Tanya Wolff Ming Wu Reed George Oz Malkesman Yoshinori Aso Gwyneth M Card Barry J. Dickson Wyatt Korff Kei Ito James W. Truman Marta Zlatic Gerald M. Rubin

Abstract Techniques that enable precise manipulations of subsets neurons in the fly central nervous system have greatly facilitated our understanding neural basis behavior. Split-GAL4 driver lines allow specific targeting cell types Drosophila melanogaster and other species. We describe here a collection 3060 range adult 1373 characterized third-instar larvae. These tools functional, transcriptomic, proteomic studies based on anatomical targeting. NeuronBridge search relate light microscopy...

10.1101/2024.01.09.574419 preprint EN cc-by bioRxiv (Cold Spring Harbor Laboratory) 2024-01-10
 A split-GAL4 driver line resource for Drosophila neuron types
OPENALEX - Publications 
Geoffrey W. Meissner Allison Vannan Jennifer Jeter Kari Close Gina M DePasquale and 78 more Zachary Dorman Kaitlyn Forster Jaye Anne Beringer Theresa Gibney Joanna H Hausenfluck Yisheng He Kristin Henderson Lauren Johnson Rebecca M. Johnston Gudrun Ihrke Nirmala Iyer Rachel Lazarus Kelley Lee Hsing-Hsi Li Hua-Peng Liaw Brian Melton Scott D. Miller Reeham Motaher Alexandra Novak Omotara Ogundeyi Alyson Petruncio Jacquelyn Price Sophia Protopapas Susana Tae Jennifer Taylor Rebecca Vorimo Brianna Yarbrough Kevin Xiankun Zeng Christopher T Zugates Heather Dionne C. N. Angstadt Kelly Ashley Amanda Cavallaro Tam Dang Guillermo A Gonzalez Karen L Hibbard Cuizhen Huang Jui‐Chun Kao Todd Laverty Monti Mercer Brenda Perez Scarlett Pitts Danielle Ruiz Viruthika Vallanadu Grace Zhiyu Zheng Cristian Goina Hideo Otsuna Konrad Rokicki Robert Svirskas Han SJ Cheong Michael-John Dolan Erica Ehrhardt Kai Feng Basel El Galfi Jens Goldammer Stephen J Huston Nan Hu Masayoshi Ito Claire McKellar Ryo Minegishi Shigehiro Namiki Aljoscha Nern Catherine E. Schretter Gabriella R Sterne Lalanti Venkatasubramanian Kaiyu Wang Tanya Wolff Ming Wu Reed George Oz Malkesman Yoshinori Aso Gwyneth M Card Barry J. Dickson Wyatt Korff Kei Ito James W. Truman Marta Zlatic Gerald M. Rubin

Techniques that enable precise manipulations of subsets neurons in the fly central nervous system have greatly facilitated our understanding neural basis behavior. Split-GAL4 driver lines allow specific targeting cell types Drosophila melanogaster and other species. We describe here a collection 3060 range adult 1373 characterized third-instar larvae. These tools functional, transcriptomic, proteomic studies based on anatomical targeting. NeuronBridge search relate light microscopy images...

10.7554/elife.98405.2 preprint EN 2025-01-06
 A split-GAL4 driver line resource for Drosophila neuron types
OPENALEX - Publications 
Geoffrey W. Meissner Allison Vannan Jennifer Jeter Kari Close Gina M DePasquale and 78 more Zachary Dorman Kaitlyn Forster Jaye Anne Beringer Theresa Gibney Joanna H Hausenfluck Yisheng He Kristin Henderson Lauren Johnson Rebecca M. Johnston Gudrun Ihrke Nirmala Iyer Rachel Lazarus Kelley Lee Hsing-Hsi Li Hua-Peng Liaw Brian Melton Scott D. Miller Reeham Motaher Alexandra Novak Omotara Ogundeyi Alyson Petruncio Jacquelyn Price Sophia Protopapas Susana Tae Jennifer Taylor Rebecca Vorimo Brianna Yarbrough Kevin Xiankun Zeng Christopher T Zugates Heather Dionne C. N. Angstadt Kelly Ashley Amanda Cavallaro Tam Dang Guillermo A Gonzalez Karen L Hibbard Cuizhen Huang Jui‐Chun Kao Todd Laverty Monti Mercer Brenda Perez Scarlett Pitts Danielle Ruiz Viruthika Vallanadu Grace Zhiyu Zheng Cristian Goina Hideo Otsuna Konrad Rokicki Robert Svirskas Han SJ Cheong Michael-John Dolan Erica Ehrhardt Kai Feng Basel EI Galfi Jens Goldammer Stephen J Huston Nan Hu Masayoshi Ito Claire McKellar Ryo Minegishi Shigehiro Namiki Aljoscha Nern Catherine E. Schretter Gabriella R Sterne Lalanti Venkatasubramanian Kaiyu Wang Tanya Wolff Ming Wu Reed George Oz Malkesman Yoshinori Aso Gwyneth M Card Barry J. Dickson Wyatt Korff Kei Ito James W. Truman Marta Zlatic Gerald M. Rubin

Techniques that enable precise manipulations of subsets neurons in the fly central nervous system (CNS) have greatly facilitated our understanding neural basis behavior. Split-GAL4 driver lines allow specific targeting cell types Drosophila melanogaster and other species. We describe here a collection 3060 range adult CNS 1373 characterized third-instar larvae. These tools functional, transcriptomic, proteomic studies based on anatomical targeting. NeuronBridge search relate light microscopy...

10.7554/elife.98405.3 article EN cc-by eLife 2025-01-24
 A searchable image resource ofDrosophilaGAL4-driver expression patterns with single neuron resolution
OPENALEX - Publications 
Geoffrey W. Meissner Aljoscha Nern Zachary Dorman Gina M DePasquale Kaitlyn Forster and 31 more Theresa Gibney Joanna H Hausenfluck Yisheng He Nirmala Iyer Jennifer Jeter Lauren Johnson Rebecca M. Johnston Kelley Lee Brian Melton Brianna Yarbrough Christopher T Zugates Jody Clements Cristian Goina Hideo Otsuna Konrad Rokicki Robert Svirskas Yoshinori Aso Gwyneth M Card Barry J. Dickson Erica Ehrhardt Jens Goldammer Masayoshi Ito Dagmar Kainmueller Wyatt Korff Lisa Mais Ryo Minegishi Shigehiro Namiki Gerald M. Rubin Gabriella R Sterne Tanya Wolff Oz Malkesman

Abstract Precise, repeatable genetic access to specific neurons via GAL4/UAS and related methods is a key advantage of Drosophila neuroscience. Neuronal targeting typically documented using light microscopy full GAL4 expression patterns, which generally lack the single-cell resolution required for reliable cell type identification. Here we use stochastic labeling with MultiColor FlpOut approach generate cellular confocal images at large scale. We are releasing aligned 74,000 such adult...

10.1101/2020.05.29.080473 preprint EN cc-by bioRxiv (Cold Spring Harbor Laboratory) 2020-05-30
 A split-GAL4 driver line resource for Drosophila CNS cell types
OPENALEX - Publications 
Geoffrey W. Meissner Allison Vannan Jennifer Jeter Kari Close Gina M DePasquale and 78 more Zachary Dorman Kaitlyn Forster Jaye Anne Beringer Theresa Gibney Joanna H Hausenfluck Yisheng He Kristin Henderson Lauren Johnson Rebecca M. Johnston Gudrun Ihrke Nirmala Iyer Rachel Lazarus Kelley Lee Hsing-Hsi Li Hua-Peng Liaw Brian Melton Scott D. Miller Reeham Motaher Alexandra Novak Omotara Ogundeyi Alyson Petruncio Jacquelyn Price Sophia Protopapas Susana Tae Jennifer Taylor Rebecca Vorimo Brianna Yarbrough Kevin Xiankun Zeng Christopher T Zugates Heather Dionne C. N. Angstadt Kelly Ashley Amanda Cavallaro Tam Dang Guillermo A Gonzalez Karen L Hibbard Cuizhen Huang Jui‐Chun Kao Todd Laverty Monti Mercer Brenda Perez Scarlett Pitts Danielle Ruiz Viruthika Vallanadu Grace Zhiyu Zheng Cristian Goina Hideo Otsuna Konrad Rokicki Robert Svirskas Han SJ Cheong Michael-John Dolan Erica Ehrhardt Kai Feng Basel El Galfi Jens Goldammer Stephen J Huston Nan Hu Masayoshi Ito Claire McKellar Ryo Minegishi Shigehiro Namiki Aljoscha Nern Catherine E. Schretter Gabriella R Sterne Lalanti Venkatasubramanian Kaiyu Wang Tanya Wolff Ming Wu Reed George Oz Malkesman Yoshinori Aso Gwyneth M Card Barry J. Dickson Wyatt Korff Kei Ito James W. Truman Marta Zlatic Gerald M. Rubin

Techniques that enable precise manipulations of subsets neurons in the fly central nervous system have greatly facilitated our understanding neural basis behavior. Split-GAL4 driver lines allow specific targeting cell types Drosophila melanogaster and other species. We describe here a collection 3060 range adult 1373 characterized third-instar larvae. These tools functional, transcriptomic, proteomic studies based on anatomical targeting. NeuronBridge search relate light microscopy images...

10.7554/elife.98405.1 preprint EN 2024-07-30
 A split-GAL4 driver line resource for Drosophila CNS cell types
OPENALEX - Publications 
Geoffrey W. Meissner Allison Vannan Jennifer Jeter Kari Close Gina M DePasquale and 78 more Zachary Dorman Kaitlyn Forster Jaye Anne Beringer Theresa Gibney Joanna H Hausenfluck Yisheng He Kristin Henderson Lauren Johnson Rebecca M. Johnston Gudrun Ihrke Nirmala Iyer Rachel Lazarus Kelley Lee Hsing-Hsi Li Hua-Peng Liaw Brian Melton Scott D. Miller Reeham Motaher Alexandra Novak Omotara Ogundeyi Alyson Petruncio Jacquelyn Price Sophia Protopapas Susana Tae Jennifer Taylor Rebecca Vorimo Brianna Yarbrough Kevin Xiankun Zeng Christopher T Zugates Heather Dionne C. N. Angstadt Kelly Ashley Amanda Cavallaro Tam Dang Guillermo A Gonzalez Karen L Hibbard Cuizhen Huang Jui‐Chun Kao Todd Laverty Monti Mercer Brenda Perez Scarlett Pitts Danielle Ruiz Viruthika Vallanadu Grace Zhiyu Zheng Cristian Goina Hideo Otsuna Konrad Rokicki Robert Svirskas Han SJ Cheong Michael-John Dolan Erica Ehrhardt Kai Feng Basel EI Galfi Jens Goldammer Stephen J Huston Nan Hu Masayoshi Ito Claire McKellar Ryo Minegishi Shigehiro Namiki Aljoscha Nern Catherine E. Schretter Gabriella R Sterne Lalanti Venkatasubramanian Kaiyu Wang Tanya Wolff Ming Wu Reed George Oz Malkesman Yoshinori Aso Gwyneth M Card Barry J. Dickson Wyatt Korff Kei Ito James W. Truman Marta Zlatic Gerald M. Rubin

Techniques that enable precise manipulations of subsets neurons in the fly central nervous system (CNS) have greatly facilitated our understanding neural basis behavior. Split-GAL4 driver lines allow specific targeting cell types Drosophila melanogaster and other species. We describe here a collection 3060 range adult CNS 1373 characterized third-instar larvae. These tools functional, transcriptomic, proteomic studies based on anatomical targeting. NeuronBridge search relate light microscopy...

10.7554/elife.98405 article EN cc-by eLife 2024-07-30
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