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Jason Palmer

ORCID: 0000-0003-0717-1008
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About
Contact & Profiles
A5101406847
Research Areas
  • Cell Image Analysis Techniques
  • Single-cell and spatial transcriptomics
  • Neural dynamics and brain function
  • Advanced Fluorescence Microscopy Techniques
  • Brain Tumor Detection and Classification
  • Neural Networks and Applications

Cold Spring Harbor Laboratory
 2020-2023

 Cellular anatomy of the mouse primary motor cortex
OPENALEX - Publications 
Rodrigo Muñoz-Castañeda Brian Zingg Katherine S. Matho Xiaoyin Chen Quanxin Wang and 78 more Nicholas N. Foster Anan Li Arun Narasimhan Karla E. Hirokawa Bing‐Xing Huo Samik Bannerjee Laura Korobkova Chris Sin Park Young-Gyun Park Michael S. Bienkowski Uree Chon Diek W. Wheeler Xiangning Li Yun Wang Maitham Naeemi Peng Xie Lijuan Liu Kathleen Kelly Xu An Sarojini M. Attili Ian Bowman Anastasiia Bludova Ali Çetin Liya Ding Rhonda Drewes Florence D. D’Orazi Corey Elowsky Stephan Fischer William Galbavy Lei Gao Jesse Gillis Peter A. Groblewski Lin Gou Joel D. Hahn Joshua Hatfield Houri Hintiryan Junxiang Huang Hideki Kondo Xiuli Kuang Philip Lesnar Xu Li Yaoyao Li Meng-Kuan Lin D.C.W. Lo Judith Mizrachi Stephanie Mok Philip R. Nicovich Ramesh Palaniswamy Jason Palmer Xiaoli Qi Elise Shen Yu-Chi Sun Huizhong W. Tao Wayne Wakemen Yimin Wang Shenqin Yao Jing Yuan Huiqing Zhan Muye Zhu Lydia Ng Li I. Zhang Byung Kook Lim Michael Hawrylycz Hui Gong James C. Gee Yongsoo Kim Kwanghun Chung X. William Yang Hanchuan Peng Qingming Luo Partha P. Mitra Anthony M. Zador Hongkui Zeng Giorgio A. Ascoli Z. Josh Huang Pavel Osten Julie A. Harris Hong‐Wei Dong

An essential step toward understanding brain function is to establish a structural framework with cellular resolution on which multi-scale datasets spanning molecules, cells, circuits and systems can be integrated interpreted

10.1038/s41586-021-03970-w article EN cc-by Nature 2021-10-06
 Cellular Anatomy of the Mouse Primary Motor Cortex
OPENALEX - Publications 
Rodrigo Muñoz-Castañeda Brian Zingg Katherine S. Matho Quanxin Wang Xiaoyin Chen and 77 more Nicholas N. Foster Arun Narasimhan Anan Li Karla E. Hirokawa Bing‐Xing Huo Samik Bannerjee Laura Korobkova Chris Sin Park Young-Gyun Park Michael S. Bienkowski Uree Chon Diek W. Wheeler Xiangning Li Yun Wang Kathleen Kelly Xu An Sarojini M. Attili Ian Bowman Anastasiia Bludova Ali Çetin Liya Ding Rhonda Drewes Florence D. D’Orazi Corey Elowsky Stephan Fischer William Galbavy Lei Gao Jesse Gillis Peter A. Groblewski Lin Gou Joel D. Hahn Joshua Hatfield Houri Hintiryan Jason H. Huang Hideki Kondo Xiuli Kuang Philip Lesnar Xu Li Yaoyao Li Meng-Kuan Lin Lijuan Liu D.C.W. Lo Judith Mizrachi Stephanie Mok Maitham Naeemi Philip R. Nicovich Ramesh Palaniswamy Jason Palmer Xiaoli Qi Elise Shen Yu-Chi Sun Huizhong W. Tao Wayne Wakemen Yimin Wang Peng Xie Shenqin Yao Jin Yuan Muye Zhu Lydia Ng Li I. Zhang Byung Kook Lim Michael Hawrylycz Hui Gong James C. Gee Yongsoo Kim Hanchuan Peng Kwanghun Chuang X. William Yang Qingming Luo Partha P. Mitra Anthony M. Zador Hongkui Zeng Giorgio A. Ascoli Z. Josh Huang Pavel Osten Julie A. Harris Hong‐Wei Dong

Abstract An essential step toward understanding brain function is to establish a cellular-resolution structural framework upon which multi-scale and multi-modal information spanning molecules, cells, circuits systems can be integrated interpreted. Here, through collaborative effort from the Brain Initiative Cell Census Network (BICCN), we derive comprehensive cell type-based description of one structure - primary motor cortex upper limb area (MOp-ul) mouse. Applying state-of-the-art...

10.1101/2020.10.02.323154 preprint EN bioRxiv (Cold Spring Harbor Laboratory) 2020-10-02
 High-throughput confocal airy beam oblique light-sheet tomography of brain-wide imaging at single-cell resolution
OPENALEX - Publications 
Xiaoli Qi Rodrigo Muñoz-Castañeda Arun Narasimhan Liya Ding Xin Chen and 8 more Corey Elowsky Jason Palmer Rhonda Drewes Jianjun Sun Judith Mizrachi Hanchuan Peng Zhuhao Wu Pavel Osten

Abstract Brain research is an area of characterized by its cutting-edge nature, with brain mapping constituting a crucial aspect this field. As sequencing tools have played role in gene sequencing, largely depends on automated, high-throughput and high-resolution imaging techniques. Over the years, demand for has scaled exponentially rapid development microscopic mapping. In paper, we introduce novel concept confocal Airy beam into oblique light-sheet tomography named CAB-OLST. We...

10.1101/2023.06.04.543586 preprint EN bioRxiv (Cold Spring Harbor Laboratory) 2023-06-06
 Brain Structural Organization Revealed by Unbiased Cell-Type Distribution Clustering
OPENALEX - Publications 
Rodrigo Muñoz-Castañeda Ramesh Palaniswamy Jason Palmer Rhonda Drewes Corey Elowsky and 5 more Karla E. Hirokawa Nicholas Cain Kannan Umadevi Venkataraju Julie A. Harris Pavel Osten

Cell-type composition across brain regions is a critical structural factor shaping both local and long-range circuits. Here, we employed single-cell resolution imaging of the mouse brain, combined with computational analyses, to map distribution 30 cell classes types defined by gene marker expression in Cre recombinase-based genetic models. This approach generated comprehensive atlas type-specific densities male female revealing (1) surprisingly broad sex differences cells tagged...

10.1101/2024.10.02.615922 preprint EN cc-by bioRxiv (Cold Spring Harbor Laboratory) 2024-10-03
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