{"EMPIAR-13239":{"imagesets":[{"segmentations":[],"name":"Reconstructed tomograms of axons of human cortical neurons derived from iPSCs","directory":"data","category":"reconstructed volumes","header_format":"MRC","data_format":"MRC","num_images_or_tilt_series":5,"frames_per_image":1200,"frame_range_min":1,"frame_range_max":1200,"voxel_type":"32 BIT FLOAT","pixel_width":2.656,"pixel_height":2.656,"micrographs_file_pattern":"","picked_particles_file_pattern":"","picked_particles_directory":"","details":"Reconstructed tomograms containing microtubules in axons of human cortical neurons derived from iPSCs. The tomograms were reconstructed using AreTomo2 and binned 2 times. Microtubule lattice spacing analysis was subsequently performed.","image_width":"4092","image_height":"5760"}],"workflow_file":null,"grant_references":[{"funding_body":"National Institutes of Health (NIH)","code":"1ZIANS003164","country":"United States"}],"version_history":[],"title":"Cryo-electron tomography of microtubules in axons from human cortical neurons derived from induced pluripotent stem cells (iPSCs).","principal_investigator":[{"author_orcid":"0000-0003-2621-7307","middle_name":null,"organization":"National Institutes of Health","street":"Cell Biology and Biophysics Unit, NINDS Porter Neuroscience Research Center Building 35, Room 3B-205 35 Convent Drive","town_or_city":"Bethesda","state_or_province":"Maryland","post_or_zip":"20814","telephone":"301-402-7353","fax":"301-435-5666","first_name":"Antonina","last_name":"Roll-Mecak","email":"Antonina [at] mail.nih.gov","country":"United States","entry":"EMPIAR-13239"}],"status":"REL","deposition_date":"2025-12-08","release_date":"2026-03-13","obsolete_date":null,"update_date":"2026-04-15","corresponding_author":{"author":{"author_orcid":"0000-0003-2621-7307","middle_name":null,"organization":"National Institutes of Health","street":"Cell Biology and Biophysics Unit, NINDS Porter Neuroscience Research Center Building 35, Room 3B-205 35 Convent Drive","town_or_city":"Bethesda","state_or_province":"Maryland","post_or_zip":"20814","first_name":"Antonina","last_name":"Roll-Mecak","country":"United States"}},"authors":[{"author":{"name":"Zehr EA","author_orcid":"0000-0002-9768-5792"}},{"author":{"name":"Roll-Mecak A","author_orcid":"0000-0003-2621-7307"}}],"cross_references":["EMD-70956"],"biostudies_references":[],"idr_references":[],"empiar_references":[],"citation":[{"authors":[{"name":"Zehr EA","author_orcid":"0000-0002-9768-5792"},{"name":"Sun S","author_orcid":"0000-0002-2545-5795"},{"name":"Sarbanes SL","author_orcid":"0000-0003-0051-8523"},{"name":"Roll-Mecak A","author_orcid":"0000-0003-2621-7307"}],"editors":[],"published":false,"j_or_nj_citation":true,"title":"Microtubules in the axon are GDP-bound but adopt a stable GTP-like expanded state.","volume":null,"country":"United States","first_page":null,"last_page":null,"year":"2026","language":"English","doi":"10.1038/s41594-026-01787-7","pubmedid":"N/A","details":null,"book_chapter_title":null,"publisher":null,"publication_location":null,"journal":"Nature Structural & Molecular Biology","journal_abbreviation":"NSMB","issue":null,"preprint":false}],"dataset_size":"544.4 GB","experiment_type":"EMDB","scale":"cell","related_pdb_entries":["9ox7"],"entry_doi":"10.6019/EMPIAR-13239"}}