Edit here your query command:
* AND software_ft:"CRYOSPARC"
Filter By
Current Database
Current status
Sample type
Organism
- Homo sapiens [3330]
- Severe acute respiratory syndrome coronavirus [711]
- Escherichia coli [583]
- Synthetic construct [533]
- Mus musculus [476]
- Saccharomyces cerevisiae [315]
- Escherichia coli [284]
- Human immunodeficiency virus 1 [215]
- Oryctolagus cuniculus [174]
- Bos taurus [169]
- Rattus norvegicus [148]
- Xenopus laevis [113]
- Saccharomyces cerevisiae [95]
- Lama glama [93]
- Bacillus sp. (strain ps3) [75]
- Influenza a virus [61]
- Arabidopsis thaliana [51]
- Macaca mulatta [50]
- Mycolicibacterium smegmatis [49]
- Vicugna pacos [45]
- Staphylococcus aureus [41]
- Sus scrofa [40]
- Plasmodium falciparum [37]
- Escherichia coli [36]
- Meiothermus taiwanensis [35]
- Schizosaccharomyces pombe [34]
- Gallus gallus [34]
- Bacillus subtilis [33]
- Simian virus 40 [32]
- Chaetomium thermophilum [32]
- Enterobacteria phage t4 [31]
- Enterobacteria phage t4 [31]
- Thermus thermophilus [31]
- Drosophila melanogaster [31]
- Potato virus y [28]
- Thermotoga maritima [28]
- Euglena gracilis [27]
- Salmonella enterica [27]
- Mycobacterium tuberculosis [25]
- Listeria innocua [24]
- Pseudomonas aeruginosa [24]
- Pseudomonas aeruginosa [23]
- Tetrahymena thermophila [23]
- Influenza a virus [23]
- Salmonella enterica [23]
- Mycobacterium tuberculosis [21]
- Human herpesvirus 1 [20]
- Synechocystis sp. pcc 6803 [19]
- Chaetomium thermophilum [19]
- Porcine epidemic diarrhea virus [19]
- Caenorhabditis elegans [19]
- Danio rerio [19]
- Lake sinai virus 2 [18]
- Geobacillus stearothermophilus [18]
- Camelidae mixed library [17]
- Mycolicibacterium smegmatis [17]
- Clostridioides difficile [16]
- Vigna radiata [16]
- Dna molecule [16]
- Severe acute respiratory syndrome coronavirus [16]
- Escherichia phage ms2 [16]
- Serratia entomophila [16]
- Streptomyces lasalocidi [15]
- Spinacia oleracea [15]
- Ovis aries [15]
- Adeno-associated dependoparvovirus a [14]
- Synechocystis sp. pcc 6803 [14]
- Hantaan orthohantavirus [14]
- Acetivibrio thermocellus [14]
- Myxococcus xanthus [14]
- Neovison vison [14]
- Acinetobacter baumannii [14]
- Komagataella phaffii [14]
- (no species) [13]
- Lassa mammarenavirus [13]
- Saccharomyces cerevisiae [13]
- Streptococcus pyogenes [13]
- Acetivibrio thermocellus [13]
- Tilapinevirus tilapiae [13]
- Helicobacter pylori [13]
- Chlamydomonas reinhardtii [13]
- Scytonema hofmannii [13]
- Acinetobacter baumannii [13]
- Severe acute respiratory syndrome coronavirus [13]
- Equus caballus [13]
- Influenza b virus [12]
- Geobacter sulfurreducens [12]
- Thermotoga maritima [12]
- Mycoplasma pneumoniae [12]
- Vibrio cholerae [12]
- Human cytomegalovirus [11]
- Influenza a virus [11]
- Pyrobaculum calidifontis [11]
- Maribacter polysiphoniae [11]
- Trypanosoma brucei [11]
- Aequorea victoria [11]
- Monkeypox virus [10]
- Unidentified influenza virus [10]
- Cowpea chlorotic mottle virus [10]
- Caulobacter vibrioides [10]
Resolution
Model molecular weight
Release Date
Author by name
- Gao Y [251]
- Liu Y [197]
- Ward AB [194]
- Lyumkis D [193]
- Zhang Y [186]
- Sheng K [179]
- Williamson JR [179]
- Skiniotis G [173]
- Kobilka BK [168]
- Panova O [167]
- Seven AB [165]
- Papasergi-scott MM [164]
- Hilger D [160]
- Gmeiner P [159]
- He F [159]
- Hildebrand PW [159]
- Batebi H [157]
- Casiraghi M [157]
- Eskici G [157]
- Maul L [157]
- Perez-hernandez G [157]
- Kwong PD [154]
- Rubinstein JL [154]
- Li S [150]
- Dong X [149]
- Marks AR [143]
- Zhang K [143]
- Miotto MC [140]
- Vanden Broeck A [134]
- Zhang B [125]
- Zhang X [125]
- Klinge S [124]
- Wang Y [124]
- Kishikawa J [120]
- Wang L [116]
- Veesler D [114]
- Zhang Z [108]
- Acharya P [102]
- Shapiro L [101]
- Spahn CMT [101]
- Lee J [100]
- Mitsuoka K [100]
- Aiyer S [97]
- Kishikawa JI [97]
- Yokoyama K [96]
- Guo H [92]
- Li Y [91]
- Li Z [91]
- Park YJ [91]
- Hsu STD [90]
- Nakano A [89]
- Wang B [88]
- Torres JL [87]
- Baker D [85]
- Clarke OB [84]
- Dridi H [84]
- Reiken S [84]
- Wronska A [84]
- Yuan Q [84]
- Li H [83]
- Montefiori DC [83]
- Tchagou C [83]
- Weninger G [83]
- Bjorkman PJ [82]
- Burger J [82]
- Chen J [82]
- Yang TJ [82]
- Zhang R [82]
- Haynes BF [81]
- Mielke T [81]
- Wang S [81]
- Yang Y [79]
- Mascola JR [78]
- Rabuck-gibbons JN [78]
- Zhou T [77]
- Borgnia MJ [76]
- Chang YC [76]
- Saunders KO [76]
- Tsybovsky Y [75]
- Wilson IA [75]
- Carrique L [74]
- Janowska K [74]
- Liu J [74]
- Zhang J [74]
- Edwards RJ [73]
- Gorman J [73]
- Rawi R [72]
- Huang X [71]
- Li N [71]
- Sun C [71]
- Liu Z [70]
- Wang J [70]
- Kato T [69]
- Bhabha G [68]
- Henderson R [68]
- Hite RK [68]
- Hu Y [68]
- Ozorowski G [68]
- King NP [67]
- Steyaert J [67]
Author by ORCID
- Lyumkis D [191]
- Skiniotis G [171]
- Kobilka BK [165]
- Papasergi-scott MM [162]
- Gao Y [160]
- He F [159]
- Hilger D [158]
- Batebi H [157]
- Gmeiner P [157]
- Panova O [157]
- Perez-hernandez G [157]
- Hildebrand PW [157]
- Miotto MC [140]
- Vanden Broeck A [134]
- Klinge S [124]
- Rubinstein JL [122]
- Kishikawa JI [95]
- Ward AB [88]
- Spahn CMT [88]
- Wronska A [83]
- Weninger G [83]
- Torres JL [82]
- Mielke T [73]
- Park YJ [73]
- Aiyer S [71]
- Guo H [69]
- Gorman J [69]
- Baker D [67]
- Steyaert J [67]
- Yokoyama K [67]
- Hite RK [67]
- Rabuck-gibbons JN [65]
- Hallberg BM [65]
- Williamson JR [65]
- Li N [65]
- Dridi H [64]
- Cheng Y [64]
- Marks AR [64]
- Veesler D [64]
- Zhang K [64]
- Yang TJ [64]
- Pardon E [61]
- Chang YC [60]
- Arragain B [60]
- Huang W [60]
- Park E [60]
- Sun C [59]
- Lee SY [59]
- Bagde SR [58]
- Brown A [58]
- Barnes CO [58]
- Borgnia MJ [56]
- Zhang R [56]
- Hsu STD [54]
- Fromme JC [53]
- Gagnon MG [53]
- Im W [52]
- Zeev-ben-mordehai T [52]
- Zeng J [52]
- Noteborn WEM [52]
- Tan YZ [51]
- Kato T [51]
- Hilal T [50]
- Kwong PD [49]
- Nakanishi A [48]
- Nikolay R [48]
- Kotecha A [47]
- Sheng K [46]
- Kollman JM [46]
- Dong X [46]
- Wiliamson JR [46]
- Chiu W [46]
- Cusack S [46]
- Lee J [46]
- Carrique L [45]
- Stahlberg H [45]
- Wahl MC [45]
- Li S [45]
- Lauer SM [44]
- Zhou L [43]
- Zhou T [43]
- Keown JR [43]
- Wang CH [43]
- Sobolevsky AI [42]
- Diebolder CA [42]
- Greber BJ [42]
- Walls AC [42]
- Venugopal H [41]
- Hummer G [41]
- Li H [41]
- Noble AJ [41]
- Guillen Schlippe Yv [41]
- Yu PY [41]
- Ozorowski G [41]
- Hendrickson WA [41]
- Dabrowski M [41]
- Flugel T [41]
- Paknejad N [40]
- Burger J [40]
- Clarke OB [40]
Journal
- NAT COMMUN [1788]
- NATURE [867]
- TO BE PUBLISHED [858]
- NAT STRUCT MOL BIOL [512]
- BIORXIV [453]
- SCIENCE [447]
- MOL CELL [328]
- SCI ADV [315]
- PNAS [293]
- ELIFE [244]
- CELL [238]
- CELL REP [212]
- STRUCTURE [177]
- NUCLEIC ACIDS RES [173]
- NAT CHEM BIOL [103]
- EMBO J [91]
- J BIOL CHEM [68]
- CELL HOST MICROBE [59]
- COMMUN BIOL [59]
- IMMUNITY [55]
- J MOL BIOL [43]
- ACTA CRYSTALLOGR D STRUCT BIOL [41]
- PLOS PATHOG [41]
- J STRUCT BIOL [40]
- CELL RES [39]
- NAT PLANTS [35]
- NAT METHODS [34]
- PNAS NEXUS [34]
- SCI REP [34]
- INT J MOL SCI [33]
- SCI TRANSL MED [33]
- COMMUN CHEM [32]
- MBIO [30]
- NAT MICROBIOL [29]
- J STRUCT BIOL X [28]
- J VIROL [28]
- PROTEIN SCI [27]
- CELL DISCOV [24]
- ISCIENCE [20]
- J CELL BIOL [20]
- NAT NANOTECHNOL [18]
- COMMUN MATER [16]
- FUNDAM RES [15]
- J GEN VIROL [14]
- BLOOD [13]
- LIFE SCI ALLIANCE [13]
- NPJ VACCINES [13]
- PLOS BIOL [13]
- EMBO REP [12]
- RES SQ [12]
- BIOCHEMISTRY [11]
- ACS NANO [10]
- BIOCHEM BIOPHYS RES COMMUN [10]
- CURR BIOL [10]
- PLOS ONE [10]
- J MED CHEM [9]
- RES COMPUT MOL BIOL [9]
- SCI IMMUNOL [9]
- VIROLOGY [9]
- CELL REP MED [8]
- INT J BIOL MACROMOL [8]
- J.THROMB.HAEMOST. [8]
- SIGNAL TRANSDUCT TARGET THER [8]
- BIOMOLECULES [7]
- IUCRJ [7]
- RNA [7]
- ACTA CRYSTALLOGR F STRUCT BIOL COMMUN [6]
- FASEB J [6]
- FRONT MOL BIOSCI [6]
- MACROMOL RAPID COMMUN [6]
- NAT MED [6]
- NAT METAB [6]
- NEURON [6]
- ACS CATAL [5]
- ACS CENT SCI [5]
- BIOMACROMOLECULES [5]
- CURR RES STRUCT BIOL [5]
- J AM CHEM SOC [5]
- J EXP MED [5]
- MICROBIOL IMMUNOL [5]
- VIRUSES [5]
- BIOCHIM BIOPHYS ACTA BIOENERG [4]
- EBIOMEDICINE [4]
- ELECTROCHIM ACTA [4]
- FEBS J [4]
- FRONT PLANT SCI [4]
- J MED VIROL [4]
- MOL PLANT [4]
- MOL THER [4]
- NAT BIOTECHNOL [4]
- PLANT PHYSIOL [4]
- ACS CHEM BIOL [3]
- ADV SCI [3]
- AUTOPHAGY [3]
- BIOCHEM J [3]
- EMERG MICROBES INFECT [3]
- ENVIRON SCI TECHNOL. [3]
- FRONT IMMUNOL [3]
- J INFECT [3]
- ACS INFECT DIS. [2]
Software
Microscope
- FEI TITAN KRIOS [5693]
- TFS KRIOS [1015]
- FEI TALOS ARCTICA [553]
- TFS GLACIOS [432]
- JEOL CRYO ARM 300 [95]
- FEI POLARA 300 [48]
- FEI TECNAI ARCTICA [46]
- FEI TECNAI F20 [42]
- TFS TALOS L120C [40]
- FEI TECNAI SPIRIT [36]
- TFS TALOS [34]
- FEI TITAN [26]
- FEI TECNAI 20 [15]
- FEI TECNAI 12 [10]
- JEOL 3200FSC [7]
- FEI/PHILIPS CM300FEG/T [6]
- FEI TECNAI F30 [5]
- JEOL 3200FS [3]
- JEOL 2100 [2]
- TFS TALOS F200C [2]
- JEOL 2010 [1]
- JEOL 2010F [1]
- JEOL 2100F [1]
- JEOL CRYO ARM 200 [1]
Electron Source
Film or detector model
- GATAN K3 (6K X 4K) [2551]
- GATAN K3 BIOQUANTUM (6K X 4K) [2344]
- GATAN K2 SUMMIT (4K X 4K) [1482]
- FEI FALCON IV (4K X 4K) [757]
- FEI FALCON III (4K X 4K) [516]
- GATAN K2 QUANTUM (4K X 4K) [163]
- TFS FALCON 4I (4K X 4K) [86]
- FEI CETA (4K X 4K) [47]
- GATAN ULTRASCAN 4000 (4K X 4K) [39]
- FEI FALCON II (4K X 4K) [36]
- TVIPS TEMCAM-F416 (4K X 4K) [31]
- GATAN K3 BIOCONTINUUM (6K X 4K) [21]
- OTHER [20]
- DIRECT ELECTRON DE-10 (5K X 4K) [7]
- GATAN K2 BASE (4K X 4K) [5]
- DIRECT ELECTRON DE-20 (5K X 3K) [4]
- FEI EAGLE (4K X 4K) [4]
- DECTRIS ELA (1K X 0.5K) [2]
- DIRECT ELECTRON DE-64 (8K X 8K) [2]
- GATAN ALPINE (2.3K X 3.2K) [2]
- TVIPS TEMCAM-F816 (8K X 8K) [2]
- DIRECT ELECTRON DE-16 (4K X 4K) [1]
- GATAN K2 IS (4K X 4K) [1]
- GATAN MULTISCAN [1]
- GATAN ULTRASCAN 1000 (2K X 2K) [1]
Released entries by year
Line chart with 2 lines.
From the search results
The chart has 1 X axis displaying values. Range: since 2006
The chart has 1 Y axis displaying Number of released entries. Range: 0 to 3000.
End of interactive chart.
Distribution of resolution values in EMDB
Bar chart with 32 bars.
From the search results
The chart has 1 X axis displaying Resolution (Å).
The chart has 1 Y axis displaying Number of released entries. Range: 0 to 5000.
End of interactive chart.
Distribution of EM Methods in EMDB
Pie chart with 3 slices.
From the search results
End of interactive chart.
Distribution of molecular weight in EMDB
Pie chart with 9 slices.
From the search results
End of interactive chart.
Distribution of Sample type in EMDB
Pie chart with 10 slices.
From the search results
End of interactive chart.
Taxonomic distribution
Lineage
Move your mouse over the main tree to show the lineage of a particular node.
You can move this pane by dragging it.
0 sequences
0
0
Filter By
Current Database
Current status
Sample type
Organism
- Homo sapiens [3330]
- Severe acute respiratory syndrome coronavirus [711]
- Escherichia coli [583]
- Synthetic construct [533]
- Mus musculus [476]
- Saccharomyces cerevisiae [315]
- Escherichia coli [284]
- Human immunodeficiency virus 1 [215]
- Oryctolagus cuniculus [174]
- Bos taurus [169]
- Rattus norvegicus [148]
- Xenopus laevis [113]
- Saccharomyces cerevisiae [95]
- Lama glama [93]
- Bacillus sp. (strain ps3) [75]
- Influenza a virus [61]
- Arabidopsis thaliana [51]
- Macaca mulatta [50]
- Mycolicibacterium smegmatis [49]
- Vicugna pacos [45]
- Staphylococcus aureus [41]
- Sus scrofa [40]
- Plasmodium falciparum [37]
- Escherichia coli [36]
- Meiothermus taiwanensis [35]
- Schizosaccharomyces pombe [34]
- Gallus gallus [34]
- Bacillus subtilis [33]
- Simian virus 40 [32]
- Chaetomium thermophilum [32]
- Enterobacteria phage t4 [31]
- Enterobacteria phage t4 [31]
- Thermus thermophilus [31]
- Drosophila melanogaster [31]
- Potato virus y [28]
- Thermotoga maritima [28]
- Euglena gracilis [27]
- Salmonella enterica [27]
- Mycobacterium tuberculosis [25]
- Listeria innocua [24]
- Pseudomonas aeruginosa [24]
- Pseudomonas aeruginosa [23]
- Tetrahymena thermophila [23]
- Influenza a virus [23]
- Salmonella enterica [23]
- Mycobacterium tuberculosis [21]
- Human herpesvirus 1 [20]
- Synechocystis sp. pcc 6803 [19]
- Chaetomium thermophilum [19]
- Porcine epidemic diarrhea virus [19]
- Caenorhabditis elegans [19]
- Danio rerio [19]
- Lake sinai virus 2 [18]
- Geobacillus stearothermophilus [18]
- Camelidae mixed library [17]
- Mycolicibacterium smegmatis [17]
- Clostridioides difficile [16]
- Vigna radiata [16]
- Dna molecule [16]
- Severe acute respiratory syndrome coronavirus [16]
- Escherichia phage ms2 [16]
- Serratia entomophila [16]
- Streptomyces lasalocidi [15]
- Spinacia oleracea [15]
- Ovis aries [15]
- Adeno-associated dependoparvovirus a [14]
- Synechocystis sp. pcc 6803 [14]
- Hantaan orthohantavirus [14]
- Acetivibrio thermocellus [14]
- Myxococcus xanthus [14]
- Neovison vison [14]
- Acinetobacter baumannii [14]
- Komagataella phaffii [14]
- (no species) [13]
- Lassa mammarenavirus [13]
- Saccharomyces cerevisiae [13]
- Streptococcus pyogenes [13]
- Acetivibrio thermocellus [13]
- Tilapinevirus tilapiae [13]
- Helicobacter pylori [13]
- Chlamydomonas reinhardtii [13]
- Scytonema hofmannii [13]
- Acinetobacter baumannii [13]
- Severe acute respiratory syndrome coronavirus [13]
- Equus caballus [13]
- Influenza b virus [12]
- Geobacter sulfurreducens [12]
- Thermotoga maritima [12]
- Mycoplasma pneumoniae [12]
- Vibrio cholerae [12]
- Human cytomegalovirus [11]
- Influenza a virus [11]
- Pyrobaculum calidifontis [11]
- Maribacter polysiphoniae [11]
- Trypanosoma brucei [11]
- Aequorea victoria [11]
- Monkeypox virus [10]
- Unidentified influenza virus [10]
- Cowpea chlorotic mottle virus [10]
- Caulobacter vibrioides [10]
Resolution
Model molecular weight
Release Date
Author by name
- Gao Y [251]
- Liu Y [197]
- Ward AB [194]
- Lyumkis D [193]
- Zhang Y [186]
- Sheng K [179]
- Williamson JR [179]
- Skiniotis G [173]
- Kobilka BK [168]
- Panova O [167]
- Seven AB [165]
- Papasergi-scott MM [164]
- Hilger D [160]
- Gmeiner P [159]
- He F [159]
- Hildebrand PW [159]
- Batebi H [157]
- Casiraghi M [157]
- Eskici G [157]
- Maul L [157]
- Perez-hernandez G [157]
- Kwong PD [154]
- Rubinstein JL [154]
- Li S [150]
- Dong X [149]
- Marks AR [143]
- Zhang K [143]
- Miotto MC [140]
- Vanden Broeck A [134]
- Zhang B [125]
- Zhang X [125]
- Klinge S [124]
- Wang Y [124]
- Kishikawa J [120]
- Wang L [116]
- Veesler D [114]
- Zhang Z [108]
- Acharya P [102]
- Shapiro L [101]
- Spahn CMT [101]
- Lee J [100]
- Mitsuoka K [100]
- Aiyer S [97]
- Kishikawa JI [97]
- Yokoyama K [96]
- Guo H [92]
- Li Y [91]
- Li Z [91]
- Park YJ [91]
- Hsu STD [90]
- Nakano A [89]
- Wang B [88]
- Torres JL [87]
- Baker D [85]
- Clarke OB [84]
- Dridi H [84]
- Reiken S [84]
- Wronska A [84]
- Yuan Q [84]
- Li H [83]
- Montefiori DC [83]
- Tchagou C [83]
- Weninger G [83]
- Bjorkman PJ [82]
- Burger J [82]
- Chen J [82]
- Yang TJ [82]
- Zhang R [82]
- Haynes BF [81]
- Mielke T [81]
- Wang S [81]
- Yang Y [79]
- Mascola JR [78]
- Rabuck-gibbons JN [78]
- Zhou T [77]
- Borgnia MJ [76]
- Chang YC [76]
- Saunders KO [76]
- Tsybovsky Y [75]
- Wilson IA [75]
- Carrique L [74]
- Janowska K [74]
- Liu J [74]
- Zhang J [74]
- Edwards RJ [73]
- Gorman J [73]
- Rawi R [72]
- Huang X [71]
- Li N [71]
- Sun C [71]
- Liu Z [70]
- Wang J [70]
- Kato T [69]
- Bhabha G [68]
- Henderson R [68]
- Hite RK [68]
- Hu Y [68]
- Ozorowski G [68]
- King NP [67]
- Steyaert J [67]
Author by ORCID
- Lyumkis D [191]
- Skiniotis G [171]
- Kobilka BK [165]
- Papasergi-scott MM [162]
- Gao Y [160]
- He F [159]
- Hilger D [158]
- Batebi H [157]
- Gmeiner P [157]
- Panova O [157]
- Perez-hernandez G [157]
- Hildebrand PW [157]
- Miotto MC [140]
- Vanden Broeck A [134]
- Klinge S [124]
- Rubinstein JL [122]
- Kishikawa JI [95]
- Ward AB [88]
- Spahn CMT [88]
- Wronska A [83]
- Weninger G [83]
- Torres JL [82]
- Mielke T [73]
- Park YJ [73]
- Aiyer S [71]
- Guo H [69]
- Gorman J [69]
- Baker D [67]
- Steyaert J [67]
- Yokoyama K [67]
- Hite RK [67]
- Rabuck-gibbons JN [65]
- Hallberg BM [65]
- Williamson JR [65]
- Li N [65]
- Dridi H [64]
- Cheng Y [64]
- Marks AR [64]
- Veesler D [64]
- Zhang K [64]
- Yang TJ [64]
- Pardon E [61]
- Chang YC [60]
- Arragain B [60]
- Huang W [60]
- Park E [60]
- Sun C [59]
- Lee SY [59]
- Bagde SR [58]
- Brown A [58]
- Barnes CO [58]
- Borgnia MJ [56]
- Zhang R [56]
- Hsu STD [54]
- Fromme JC [53]
- Gagnon MG [53]
- Im W [52]
- Zeev-ben-mordehai T [52]
- Zeng J [52]
- Noteborn WEM [52]
- Tan YZ [51]
- Kato T [51]
- Hilal T [50]
- Kwong PD [49]
- Nakanishi A [48]
- Nikolay R [48]
- Kotecha A [47]
- Sheng K [46]
- Kollman JM [46]
- Dong X [46]
- Wiliamson JR [46]
- Chiu W [46]
- Cusack S [46]
- Lee J [46]
- Carrique L [45]
- Stahlberg H [45]
- Wahl MC [45]
- Li S [45]
- Lauer SM [44]
- Zhou L [43]
- Zhou T [43]
- Keown JR [43]
- Wang CH [43]
- Sobolevsky AI [42]
- Diebolder CA [42]
- Greber BJ [42]
- Walls AC [42]
- Venugopal H [41]
- Hummer G [41]
- Li H [41]
- Noble AJ [41]
- Guillen Schlippe Yv [41]
- Yu PY [41]
- Ozorowski G [41]
- Hendrickson WA [41]
- Dabrowski M [41]
- Flugel T [41]
- Paknejad N [40]
- Burger J [40]
- Clarke OB [40]
Journal
- NAT COMMUN [1788]
- NATURE [867]
- TO BE PUBLISHED [858]
- NAT STRUCT MOL BIOL [512]
- BIORXIV [453]
- SCIENCE [447]
- MOL CELL [328]
- SCI ADV [315]
- PNAS [293]
- ELIFE [244]
- CELL [238]
- CELL REP [212]
- STRUCTURE [177]
- NUCLEIC ACIDS RES [173]
- NAT CHEM BIOL [103]
- EMBO J [91]
- J BIOL CHEM [68]
- CELL HOST MICROBE [59]
- COMMUN BIOL [59]
- IMMUNITY [55]
- J MOL BIOL [43]
- ACTA CRYSTALLOGR D STRUCT BIOL [41]
- PLOS PATHOG [41]
- J STRUCT BIOL [40]
- CELL RES [39]
- NAT PLANTS [35]
- NAT METHODS [34]
- PNAS NEXUS [34]
- SCI REP [34]
- INT J MOL SCI [33]
- SCI TRANSL MED [33]
- COMMUN CHEM [32]
- MBIO [30]
- NAT MICROBIOL [29]
- J STRUCT BIOL X [28]
- J VIROL [28]
- PROTEIN SCI [27]
- CELL DISCOV [24]
- ISCIENCE [20]
- J CELL BIOL [20]
- NAT NANOTECHNOL [18]
- COMMUN MATER [16]
- FUNDAM RES [15]
- J GEN VIROL [14]
- BLOOD [13]
- LIFE SCI ALLIANCE [13]
- NPJ VACCINES [13]
- PLOS BIOL [13]
- EMBO REP [12]
- RES SQ [12]
- BIOCHEMISTRY [11]
- ACS NANO [10]
- BIOCHEM BIOPHYS RES COMMUN [10]
- CURR BIOL [10]
- PLOS ONE [10]
- J MED CHEM [9]
- RES COMPUT MOL BIOL [9]
- SCI IMMUNOL [9]
- VIROLOGY [9]
- CELL REP MED [8]
- INT J BIOL MACROMOL [8]
- J.THROMB.HAEMOST. [8]
- SIGNAL TRANSDUCT TARGET THER [8]
- BIOMOLECULES [7]
- IUCRJ [7]
- RNA [7]
- ACTA CRYSTALLOGR F STRUCT BIOL COMMUN [6]
- FASEB J [6]
- FRONT MOL BIOSCI [6]
- MACROMOL RAPID COMMUN [6]
- NAT MED [6]
- NAT METAB [6]
- NEURON [6]
- ACS CATAL [5]
- ACS CENT SCI [5]
- BIOMACROMOLECULES [5]
- CURR RES STRUCT BIOL [5]
- J AM CHEM SOC [5]
- J EXP MED [5]
- MICROBIOL IMMUNOL [5]
- VIRUSES [5]
- BIOCHIM BIOPHYS ACTA BIOENERG [4]
- EBIOMEDICINE [4]
- ELECTROCHIM ACTA [4]
- FEBS J [4]
- FRONT PLANT SCI [4]
- J MED VIROL [4]
- MOL PLANT [4]
- MOL THER [4]
- NAT BIOTECHNOL [4]
- PLANT PHYSIOL [4]
- ACS CHEM BIOL [3]
- ADV SCI [3]
- AUTOPHAGY [3]
- BIOCHEM J [3]
- EMERG MICROBES INFECT [3]
- ENVIRON SCI TECHNOL. [3]
- FRONT IMMUNOL [3]
- J INFECT [3]
- ACS INFECT DIS. [2]
Software
Microscope
- FEI TITAN KRIOS [5693]
- TFS KRIOS [1015]
- FEI TALOS ARCTICA [553]
- TFS GLACIOS [432]
- JEOL CRYO ARM 300 [95]
- FEI POLARA 300 [48]
- FEI TECNAI ARCTICA [46]
- FEI TECNAI F20 [42]
- TFS TALOS L120C [40]
- FEI TECNAI SPIRIT [36]
- TFS TALOS [34]
- FEI TITAN [26]
- FEI TECNAI 20 [15]
- FEI TECNAI 12 [10]
- JEOL 3200FSC [7]
- FEI/PHILIPS CM300FEG/T [6]
- FEI TECNAI F30 [5]
- JEOL 3200FS [3]
- JEOL 2100 [2]
- TFS TALOS F200C [2]
- JEOL 2010 [1]
- JEOL 2010F [1]
- JEOL 2100F [1]
- JEOL CRYO ARM 200 [1]
Electron Source
Film or detector model
- GATAN K3 (6K X 4K) [2551]
- GATAN K3 BIOQUANTUM (6K X 4K) [2344]
- GATAN K2 SUMMIT (4K X 4K) [1482]
- FEI FALCON IV (4K X 4K) [757]
- FEI FALCON III (4K X 4K) [516]
- GATAN K2 QUANTUM (4K X 4K) [163]
- TFS FALCON 4I (4K X 4K) [86]
- FEI CETA (4K X 4K) [47]
- GATAN ULTRASCAN 4000 (4K X 4K) [39]
- FEI FALCON II (4K X 4K) [36]
- TVIPS TEMCAM-F416 (4K X 4K) [31]
- GATAN K3 BIOCONTINUUM (6K X 4K) [21]
- OTHER [20]
- DIRECT ELECTRON DE-10 (5K X 4K) [7]
- GATAN K2 BASE (4K X 4K) [5]
- DIRECT ELECTRON DE-20 (5K X 3K) [4]
- FEI EAGLE (4K X 4K) [4]
- DECTRIS ELA (1K X 0.5K) [2]
- DIRECT ELECTRON DE-64 (8K X 8K) [2]
- GATAN ALPINE (2.3K X 3.2K) [2]
- TVIPS TEMCAM-F816 (8K X 8K) [2]
- DIRECT ELECTRON DE-16 (4K X 4K) [1]
- GATAN K2 IS (4K X 4K) [1]
- GATAN MULTISCAN [1]
- GATAN ULTRASCAN 1000 (2K X 2K) [1]