{"EMPIAR-10059":{"imagesets":[{"segmentations":[],"name":"Motion corrected, dose-weighted sum of micrographs of TRPV1-DkTx/RTX embedded in lipid nanodisc","directory":"data/micrographs","category":"micrographs - single frame","header_format":"MRC","data_format":"MRC","num_images_or_tilt_series":1200,"frames_per_image":1,"frame_range_min":null,"frame_range_max":null,"voxel_type":"UNSIGNED BYTE","pixel_width":1.2156,"pixel_height":1.2156,"micrographs_file_pattern":null,"picked_particles_file_pattern":null,"picked_particles_directory":null,"details":"All image stacks (accumulating 41 electrons per squared Angstrom exposure in 30 frames / 6 second exposure) were drift-corrected using software UcsfDfCorr. '5 X 5' patch option was used. Dose rate was set to 1.4 electrons to perform the exposure filtering procedure implemented in  the program. Deposited data is the sum of all corrected frames.  ","image_width":"3838","image_height":"3710"},{"segmentations":[],"name":"Raw particle image stack of TRPV1-DkTx/RTX embedded in lipid nanodisc","directory":"data/particles","category":"picked particles - multiframe - unprocessed","header_format":"MRC","data_format":"MRC","num_images_or_tilt_series":218805,"frames_per_image":1,"frame_range_min":null,"frame_range_max":null,"voxel_type":"UNSIGNED BYTE","pixel_width":1.2156,"pixel_height":1.2156,"micrographs_file_pattern":null,"picked_particles_file_pattern":null,"picked_particles_directory":null,"details":"Particle image stacks extracted from individual micrographs, without further processing. \n'particles.star' list all relevant information for every particle in all image stacks (coordinate, defocus etc.)","image_width":"192","image_height":"192"}],"workflow_file":null,"grant_references":[],"version_history":[],"title":"Structure of TRPV1 in complex with DkTx and RTX, determined in lipid nanodisc","principal_investigator":[{"author_orcid":"0000-0001-9535-0369","middle_name":null,"organization":"Department of Biochemistry and Biophysics, University of California, San Francisco","street":"600 16th Street","town_or_city":"San Francisco","state_or_province":"California","post_or_zip":"94158","telephone":"+1 415 514 9707","fax":"+1 415 514 4145","first_name":"Yifan","last_name":"Cheng","email":"ycheng [at] ucsf.edu","country":"United States","entry":"EMPIAR-10059"},{"author_orcid":"0000-0002-6365-4867","middle_name":null,"organization":"Department of Physiology, University of California, San Francisco","street":"600 16th Street","town_or_city":"San Francisco","state_or_province":"California","post_or_zip":"94158","telephone":"+1 415 476 0431","fax":"+1 415 502 8644","first_name":"David","last_name":"Julius","email":"David.Julius [at] ucsf.edu","country":"United States","entry":"EMPIAR-10059"}],"status":"REL","deposition_date":"2016-06-07","release_date":"2016-06-07","obsolete_date":null,"update_date":"2016-06-07","corresponding_author":{"author":{"author_orcid":"0000-0003-1248-1828","middle_name":null,"organization":"Department of Biochemistry and Biophysics, University of California, San Francisco","street":"600 16th Street","town_or_city":"San Francisco","state_or_province":"California","post_or_zip":"94158","first_name":"Yuan","last_name":"Gao","country":"United States"}},"authors":[{"author":{"name":"Gao Y","author_orcid":"0000-0003-1248-1828"}}],"cross_references":["EMD-8117"],"biostudies_references":[],"idr_references":[],"empiar_references":[],"citation":[{"authors":[{"name":"Gao Y","author_orcid":null},{"name":"Cao E","author_orcid":null},{"name":"Julius D","author_orcid":null},{"name":"Cheng Y","author_orcid":null}],"editors":[],"published":true,"j_or_nj_citation":true,"title":"TRPV1 structures in nanodiscs reveal mechanisms of ligand and lipid action","volume":"534","country":"","first_page":"347","last_page":"351","year":"2016","language":"English","doi":"10.1038/nature17964","pubmedid":"27281200","details":null,"book_chapter_title":null,"publisher":null,"publication_location":null,"journal":"Nature","journal_abbreviation":"Nature","issue":"7607","preprint":false}],"dataset_size":"93.8 GB","experiment_type":"EMDB","scale":null,"related_pdb_entries":["5irx"],"entry_doi":"10.6019/EMPIAR-10059"}}