A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #084).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #085).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #089).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #090).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #093).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #091).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #092).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #094).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #088).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #095).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #096).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #097).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #102).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #098).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #100).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #099).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #101).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #103).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #107).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #105).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #104).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #113).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #111).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #110).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #112).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #114).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #106).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #109).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #108).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #115).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #116).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #117).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #119).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #118).

Proteasome core particle assembly intermediate 5-alpha/4-beta/Ump1 purified from Saccharomyces cerevisiae.

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #120).

Proteasome core particle assembly intermediate 5-alpha/3-beta/Ump1 purified from Saccharomyces cerevisiae.

Atomic model of Candida albicans Fatty Acid Synthase (FAS) in complex with Palmitoyl-CoA (in vitro binding)

Proteasome core particle assembly intermediate Blm10:alpha-ring purified from Saccharomyces cerevisiae.

Cryo-EM structure of the BG505 SOSIPv2

Kappa opioid receptor:Galphai protein in complex with inverse agonist GB18, Consensus map

Kappa opioid receptor:Galphai protein in complex with inverse agonist JDTic, Consensus map

Kappa opioid receptor:Galphai protein in complex with inverse agonist norBNI, Consensus map

Seneca valley virus Altered particle at acidic condition (A-particle[C])

Seneca valley virus Empty rotated particle at acidic condition (ER-particle[C])

Seneca valley virus Altered particle at physiological condition (A-particle[P])

Subtomogram Average of in situ Lipoprotein Lipase Filament

NAC: ribosome nascent chain complex (Hsp60)

CryoET tomogram of hESC-derived retinal ganglion cell treated with potassium phosphate

CryoET tomogram of hESC-derived retinal ganglion cell treated with calcification media

Subtomogram average of Munc13-1 C1-C2B-MUN-C2C F1176N/I1215N mutant 2D crystal between lipid bilayers

Structure of Chikungunya virus infectious particles, 5f block.

FADD-DED filaments coordinate complex IIa assembly during TNF-induced apoptosis

Cryo-EM structure of human taurine transporter TauT bound with GAA in an intermediate state during the transport cycle

Cryo-EM structure of human taurine transporter TauT bound with GES in an occluded state

Nav1.5 in complex with TTX

Cryo-EM structure of human taurine transporter TauT bound with GABA in an intermediate conformation in the transport cycle

FADD-DED filaments coordinate complex IIa assembly during TNF-induced apoptosis

Cryo-EM structure of human taurine transporter bound with 5AVA in an inward-open state

Cryo-EM structure of huamn taurine transporter bound with I4AA in inward-open state

Cryo-EM structure of human taurine transporter bound with nipecotic acid in an inward open state

Nav1.7 with mutations that eliminate beta1 binding

Cryo-EM structure of human taurine transporter TauT bound with taurine in an occluded state

Cryo-EM structure of human taurine transporter TauT bound with P4S in an inward open state

Cryo-EM structural of human taurine transporter TauT in an apo state

Cryo-EM structure of human taurine transporter TauT bound with beta-alanine in an occluded state

Cryo-EM map of Nav1.7-K1671W in complex with beta1

Cryo-EM structure of human taurine transporter TauT bound with homotaurine in an inward-open state

Cryo-EM structure of a type II-D CRISPR-Cas9 in complex with single-guided RNA and double-stranded DNA

SARS-CoV-2 Replication-Transcription Complex has a dimer architecture (dRTC) in post-capping state

Structural insights into the PSI-FCPI supercomplex from the coccolithophore Emiliania huxleyi

SARS-CoV-2 Replication-Transcription Complex has a dimer architecture (local dRTC) in post-capping state

Locally-refined structure of alpha2a adrenergic receptor in complex with Go heterotrimer, scFv16, and N-(5-methylnaphthalen-1-yl)pyridin-4-amine (compound 4905)

Locally-refined structure of alpha2a adrenergic receptor in complex with Go heterotrimer, scFv16, and compound Z7149

Cryo-EM structure of CAK (CDK7 D97N mutant) in complex with THZ1

Cryo-EM structure of CDK2-cyclin A bound to a SAMHD1 peptide

Cryo-EM structure of CAK (CDK7 D97N mutant) in complex with ATPgS

Cryo-EM structure of CAK (CDK7 D97N mutant) in complex with Samuraciclib

Cryo-EM structure of CDK2-cyclin A bound to a GMNC peptide

Cryo-EM structure of CDK2-cyclin A bound to a SCAPER peptide

Cryo-EM structure of GAT3

Cryo-EM Structure of GAT3

Cryo-EM structure of GAT3

50S subunit of P. gingivalis ribosome with Lefamulin

Porphyromonas gingivalis 70S ribosome (W83 Strain)

70S P. gingivalis ribosome erm-delta-porN strain

Consensus map for A3AR-LUF7602 complex.

Human adenosine A3 receptor Gi complex (mini-Gsi chimera) bound to Piclidenoson (CF101, IB-MECA)

Focused refinement map of the human A3 adenosine receptor bound to adenosine (receptor only)

Human adenosine A3 receptor Gi1 complex bound to adenosine

Focused refinement map of the structure of a human adenosine A3 receptor complex bound to the covalent antagonist LUF7602 (receptor only)

Structure of a human adenosine A3 receptor complex bound to the covalent antagonist LUF7602

Focused refinement map of the human A3 adenosine receptor bound to Piclidenoson (receptor only)

D24.1M01 Fab bound to HPV16 L1 pentamer

Cryo-EM structure of SARS-CoV-2 spike protein in complex with human neutralizing antibody WRAIR-2008 (focused refinement of NTD and WRAIR-2008)

A7M08 Fab bound to HPV16 L1 pentamer

Cryo-EM structure of SARS-CoV-2 spike protein in complex with neutralizing human antibody WRAIR-2008

B25M05 Fab bound to HPV16 L1 pentamer

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #181).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #186).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #200).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #196).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #190).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #194).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #183).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #198).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #184).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #193).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #199).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #189).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #197).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #187).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #192).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #188).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #195).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #191).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #185).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #182).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #203).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #204).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #211).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #208).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #205).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #201).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #202).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #207).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #206).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #216).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #209).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #217).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #215).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #212).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #210).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #219).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #213).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #220).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #218).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #214).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #222).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #228).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #231).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #221).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #229).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #235).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #233).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #223).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #230).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #240).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #227).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #226).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #232).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #225).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #224).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #236).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #238).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #234).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #237).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #239).

structure of human KCNQ1-KCNE1-CaM complex

CyroEM structure of hSLC15A4+TASL+Fab235

CryoEM structure of hSLC15A4+Fab107

structure of human KCNQ1-KCNE1-CaM complex with PIP2

structure of human KCNQ1-CaM-PIP2 complex with bent conformation

structure of human KCNQ1-CaM-PIP2 complex with straight conformation

Cryo-EM structure of SARS-CoV-2 prototype spike protein in complex with nAbs 4H1, 4A5, 4C1 and 2E10

Cryo-EM structure of SARS-CoV-2 prototype spike protein in complex with triple-nAb 4H1, 4A5 and 4C1

Cryo-EM structure of SARS-CoV-2 prototype spike protein in complex with triple-nAb 3G5, 4H5 and 4C11

Cryo-EM structure of SARS-CoV-2 EG.1 spike protein in complex with triple-nAb 4A5, 4C1 and 2E10

Structure of the S.aureus MecA/ClpC/ClpP degradation system

Structure of the S.aureus MecA protein, in complex with ClpC

Focus refined 30S head map of 70S P. gingivalis ribosome erm-delta-porN strain

Focus refined 30S body map of 70S P. gingivalis ribosome erm-delta-porN strain

70S P. gingivalis ribosome erm-delta-porN strain consensus map

Focus refined 50S map of 70S P. gingivalis ribosome erm-delta-porN strain

CryoEM structure of Cad1 bound with cA4 and ATP, symmetry expanded dimer refined against a composite map

Focused map for the ADA domain of Cad1 in Apo form

CryoEM structure of Cad1 in App form, symmetry expanded dimer, refined against a composite map

Consensus map of Cad1 in App form

Focused map on CARF domain of Cad1 in Apo form

Focused map of the ADA domain of Cad1 bound with cA4 and ATP

Focused map of the CARF domain of Cad1 bound with cA4 and ATP

CryoEM structure of Cad1 bound with cA4 and ATP, hexamer with two intact dimers

Consensus map of Cad1 bound with cA4 and ATP

CryoEM structure of Cad1 bound with cA4 and ATP, hexamer with three intact dimers

CryoEM structure of Cad1 bound with cA4 and ATP, hexamer with one intact dimer

Open conformation of ArsA from L. ferriphilum in complex with MgADP determined in the presence of arsenite

Open conformation of ArsA from L. ferriphilum in presence of MgATP

Closed conformation of ArsA from L. ferriphilum in complex with MgATP and arsenite at 1.5 minute time point

Open conformation of ArsA from L. ferriphilum in complex with MgADP determined in absence of arsenite

Closed conformation of ArsA from L. ferriphilum in complex with MgATP and arsenite

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #271).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #275).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #273).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #276).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #272).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #274).

Cryo-EM Structure of DHX36 bound to the cMyc DNA G-quadruplex, Class 2

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #284).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #285).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #281).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #283).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #278).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #295).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #280).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #290).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #293).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #282).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #279).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #277).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #286).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #291).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #287).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #289).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #288).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #292).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #294).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #296).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #300).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #297).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #312).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #303).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #298).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #299).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #301).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #310).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #315).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #304).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #306).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #314).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #313).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #302).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #307).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #305).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #311).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #309).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #308).

Structure of HTTQ23-HAP40 complex bound to macrocycles HHL1, HD4 and HL2

Structure of HTTQ23-HAP40 complex bound to macrocycles HHL1, HD4 and HL2

Structure of the double bead region of bovine collagen VI microfibrils.

Bovine collagen VI local refinement of C-terminal region

Cryo-EM structure of Bat SARS-like coronavirus Khosta-2 spike protein

Collagen VI alpha 1, 2, 3 heterotrimer recombinant C terminal region. Local refinement.

Structure of the borna disease virus 1 replication core complex - reaction complex

Structure of the borna disease virus 1 replication full-length complex - reaction complex

Structure of the borna disease virus 1 replication complex

Structure of the single bead region of bovine collagen VI microfibrils.

V517F Mutation in USP7 Causes USP7 Inhibitor Resistance by Increasing Steric Hindrance of Inhibitor-Enzyme Binding

Cryo-EM structure of SARS-CoV-2 nsp10/nsp14:RNA:SMP complex (focused on ExoN)

a protein complex

The structure of PDPNaC1 at APO state

Cryo-EM structure of Bat SARS-like coronavirus Khosta-1 spike protein

Cryo-EM structure of Bat SARS-like coronavirus Khosta-2 spike protein in complex with human ACE2 (local refined)

protein structure

CryoEM structure of M. smegmatis GMP reductase in complex with GMP at pH 6.6, extended conformation.

CryoEM structure of M. smegmatis GMP reductase in complex with GMP at pH 6.6, compressed conformation.

CryoEM structure of the human INO80 core- H2A.Z nucleosome complex

CryoEM structure of M. smegmatis GMP reductase in complex with GMP and GTP at pH 6.6, extended conformation II.

CryoEM structure of M. smegmatis GMP reductase apoform at pH 7.8, tetramer.

CryoEM structure of M. smegmatis GMP reductase apoform at pH 6.6, extended conformation II.

CryoEM structure of the human INO80 core-nucleosome complex state N-6

CryoEM structure of M. smegmatis GMP reductase in complex with GMP at pH 7.8, extended conformation.

CryoEM structure of the human INO80-Hexasome complex

CryoEM structure of M. smegmatis GMP reductase apoform at pH 7.8, extended conformation I.

CryoEM structure of M. smegmatis GMP reductase in complex with GMP and GTP at pH 6.6, extended conformation I.

CryoEM structure of M. smegmatis GMP reductase in complex with GMP and ATP at pH 6.6, compressed conformation.

CryoEM structure of M. smegmatis GMP reductase apoform at pH 7.8, extended conformation II.

DNA origami clamp positioner with attachment helices for interlocking into a larger multimeric DNA origami complex

Complex I from Paracoccus denitrificans in cMSP26 nanodiscs

CryoEM structure of the human INO80-Hexasome complex

CryoEM structure of the human INO80 core-nucleosome complex state N-6

CryoEM structure of the human INO80 core-nucleosome complex state N-7

CryoEM structure of the human INO80 core-nucleosome complex state N-7

CryoEM structure of M. smegmatis GMP reductase apoform at pH 6.6, extended conformation I.

Fibril structure of human alphaA-crystallin with pathogenic mutation R116C

Cryo-EM structure of Arabidopsis thaliana MET1

Cryo-EM structure of Arabidopsis thaliana MET1 (aa:621-1534) in complex with hemimethylated DNA analog

Cryo-EM structure of urease from Ureaplasma parvum

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #326).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #325).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #324).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #332).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #330).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #319).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #320).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #316).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #318).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #317).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #334).

TMD local refined map of Gly-,Glu-,(S)-(+)-ketamine bound GluN1a-2B-2D NMDAR

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #335).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #322).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #329).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #327).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #323).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #321).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #328).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #331).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #333).

Consensus map of Gly-,Glu-,(S)-(+)-ketamine bound GluN1a-2B-2D NMDAR

ECD local refined map of nonactive state GluN1a-2B-2D NMDAR

Consensus map of Gly-,Glu-,(S)-DQP-997-74 bound GluN1a-2B-2D NMDAR

TMD local refined map of Gly-,PPDA bound GluN1a-2B-2D NMDAR

ECD local refined map of Gly-,Glu-,(S)-(+)-ketamine bound GluN1a-2B-2D NMDAR

Consensus map of nonactive state GluN1a-2B-2D NMDAR

TMD local refined map of Gly-,Glu-,(S)-DQP-997-74 bound NMDAR

ECD local refined map of Gly-,Glu-,(S)-DQP-997-74 bound NMDAR

TMD local refined map of non-active state GluN1a-2B-2D NMDAR

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #337).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #336).

Dynein motor inner dynein arm subform e (IDAe) from Porcine brain ventricles

Dyneins in pre-state from Porcine brain ventricles (part 2)

The nexin-dynein regulatory complex (N-DRC) from Pocine brain ventricles, distal part

The Outer Dynein Arm-Docking Complex (ODA-DC) from Porcine brain ventricles

Dynein motor inner dynein arm subform f (IDAf) from Porcine brain ventricles

Atomic model of Ketoacyl Reductase domain and 4 helical bundle of S. cerevisiae Fatty Acid Synthase (FAS) in complex with octanoyl-CoA (in vitro binding)

A widespread heme dechelatase in healthy and pathogenic human microbiomes.

Atomic model of Ketoacyl Reductase domain and 4 helical bundle of Candida albicans Fatty Acid Synthase (FAS) in complex with Palmitoyl-CoA (in vivo binding)

Core particle assembly intermediate Capless 13S purified from Saccharomyces cerevisiae

Kappa opioid receptor:Galphai protein in complex with inverse agonist JDTic, no scFv16, Consensus map

Kappa opioid receptor:Galphai protein in complex with inverse agonist JDTic, no scFv16, Original map G protein

Kappa opioid receptor:Galphai protein in complex with inverse agonist JDTic no scFv16, Original map receptor

Seneca valley virus Empty rotated particle at physiological condition (ER-particle[P])

NAC: Ribosome nascent chain complex(Oxa1L)

The nexin-dynein regulatory complex (N-DRC) from Porcine brain ventricles, base part

Dyneins in pre-state from Porcine brain ventricles (part 1)

Radial Spoke 1 from Pocine brain ventricles, base and stalk

Radial Spoke 1 from Pocine brain ventricles, stalk and head

The Outer Dynein Arm (ODA) complex from Porcine brain ventricles

Radial Spoke 2 from Pocine brain ventricles, base and stalk

Cryo-EM reveals molecular mechanisms underlying the inhibitory effect of netrin-4 on laminin matrix formation

Radial Spoke 2 from Pocine brain ventricles, stalk and head

Radial Spoke 3 from Pocine brain ventricles, base and stalk

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #061).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #062).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #063).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #070).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #068).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #064).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #074).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #072).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #071).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #066).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #073).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #065).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #067).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #069).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #075).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #077).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #076).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #078).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #079).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #081).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #082).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #080).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #083).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #086).

A non-averaged 3D density map of an individual particle, with a 2D lattice formed by octahedral DNA origami and ferritin, was revealed by individual particle cryo-electron tomography (Particle #087).