1D3I

CRYO-EM STRUCTURE OF HUMAN RHINOVIRUS 14 (HRV14) COMPLEXED WITH A TWO-DOMAIN FRAGMENT OF ITS CELLULAR RECEPTOR, INTERCELLULAR ADHESION MOLECULE-1 (D1D2-ICAM-1). IMPLICATIONS FOR VIRUS-RECEPTOR INTERACTIONS. ALPHA CARBONS ONLY


ELECTRON MICROSCOPY
Sample
HUMAN RHINOVIRUS 14 COMPLEXED WITH INTERCELLULAR ADHESION MOLECULE-1
Specimen Preparation
Sample Aggregation StatePARTICLE
Vitrification Instrument
Cryogen Name
Sample Vitrification DetailsHRV14 WAS INCUBATED WITH D1D2-ICAM-1 FOR 30 MINUTES AT 4 DEGREES CELSIUS (277 KELVIN) USING AN EIGHT-FOLD EXCESS OF D1D2-ICAM-1 FOR EACH OF THE SIXTY ...HRV14 WAS INCUBATED WITH D1D2-ICAM-1 FOR 30 MINUTES AT 4 DEGREES CELSIUS (277 KELVIN) USING AN EIGHT-FOLD EXCESS OF D1D2-ICAM-1 FOR EACH OF THE SIXTY POSSIBLE BINDING SITES PER VIRION. AFTER INCUBATION, SAMPLES WERE PREPARED AS THIN LAYERS OF VITREOUS ICE AND MAINTAINED AT NEAR LIQUID NITROGEN TEMPERATURE IN THE ELECTRON MICROSCOPE WITH A GATAN 626 CRYOTRANSFER HOLDER.
3D Reconstruction
Reconstruction MethodSINGLE PARTICLE
Number of Particles36
Reported Resolution (Å)26
Resolution MethodOTHER
Other DetailsTHE RESOLUTION OF THE FINAL RECONSTRUCTED DENSITY WAS DETERMINED TO BE AT LEAST 26 ANGSTROMS, AS MEASURED BY RANDOMLY SPLITTING THE PARTICLES INTO ...THE RESOLUTION OF THE FINAL RECONSTRUCTED DENSITY WAS DETERMINED TO BE AT LEAST 26 ANGSTROMS, AS MEASURED BY RANDOMLY SPLITTING THE PARTICLES INTO TWO SETS AND COMPARING STRUCTURE FACTORS OBTAINED FROM SEPARATE RECONSTRUCTIONS (BAKER ET AL. 1991, BIOPHYS.J. 60, 1445-1456). THE EIGENVALUE SPECTRUM GAVE AN INDICATION OF THE RANDOMNESS OF THE DATA THAT WAS INCLUDED IN THE RECONSTRUCTION. THE COMPLETENESS OF THE DATA WAS VERIFIED IN THAT ALL EIGENVALUES EXCEEDED 1.0.
Refinement Type
Symmetry TypePOINT
Point SymmetryI
Map-Model Fitting and Refinement
Id1
Refinement SpaceRECIPROCAL
Refinement ProtocolRIGID BODY FIT
Refinement TargetVECTOR R-FACTOR
Overall B Value
Fitting Procedure
DetailsREFINEMENT PROTOCOL--RIGID BODY REFINEMENT DETAILS--THE CRYSTAL STRUCTURE OF HRV14 WAS PLACED INTO THE CALIBRATED CRYO-EM DENSITY MAP BY ALIGNING THE ...REFINEMENT PROTOCOL--RIGID BODY REFINEMENT DETAILS--THE CRYSTAL STRUCTURE OF HRV14 WAS PLACED INTO THE CALIBRATED CRYO-EM DENSITY MAP BY ALIGNING THE ICOSAHEDRAL SYMMETRY AXES. APPROPRIATELY GLYCOSYLATED MODELS OF D1D2-ICAM-1 WITH VARIOUS INTERDOMAIN ANGLES (AS SEEN IN DIFFERENT CRYSTAL STRUCTURES OF D1D2-ICAM-1), WERE FIRST MANUALLY FITTED INTO THE CRYO-EM DENSITY CORRESPONDING TO THE ICAM-1 FRAGMENT, AND SUBSEQUENTLY REFINED AS RIGID BODIES IN RECIPROCAL SPACE. OBSERVED STRUCTURE FACTORS WERE OBTAINED BY INVERSE FOURIER TRANSFORM OF CRYO-EM DIFFERENCE MAPS CALCULATED BY 1) SUBSTRACTION OF THE HRV14 AND RNA CONTRIBUTION FROM THE CRYO-EM RECONSTRUCTED DENSITY OF THE COMPLEXES; 2) REDUCTION OF THE DIFFERENCE MAPS TO AN ICOSAHEDRAL ASYMMETRIC UNIT. THE COORDINATES ARE IN THE P, Q, R FRAME IN ANGSTROM UNITS AND CORRESPOND TO ICOSAHEDRAL SYMMETRY AXES. THE ORIGIN IS CHOSEN AT THE CENTER OF THE VIRUS WITH P, Q AND R ALONG MUTUALLY PERPENDICULAR TWO-FOLD AXES OF THE ICOSAHEDRON. THEY SHOULD REMAIN IN THAT FRAME FOR THE EASE OF THE USER IN CREATING THE BIOLOGICALLY SIGNIFICANT VIRAL COMPLEX PARTICLE USING THE 60 ICOSAHEDRAL SYMMETRY OPERATORS. RESIDUES NOT VISIBLE IN THE ORIGINAL CRYSTAL STRUCTURES ARE NOT INCLUDED IN THE CRYO-EM STRUCTURE MODEL. FOR EXAMPLE, HRV14 RESIDUES 1001-1016, 2001-2007 AND 4001-4028 ARE NOT VISIBLE IN THE CRYSTAL STRUCTURE (PDB ENTRY 4RHV) AND THEREFORE ARE NOT INCLUDED IN THE COORDINATES BELOW.
Data Acquisition
Detector TypeKODAK SO-163 FILM
Electron Dose (electrons/Å**2)20
Imaging Experiment1
Date of Experiment1993-06-01
Temperature (Kelvin)120
Microscope ModelFEI/PHILIPS EM420
Minimum Defocus (nm)
Maximum Defocus (nm)1250
Minimum Tilt Angle (degrees)
Maximum Tilt Angle (degrees)
Nominal CS
Imaging ModeBRIGHT FIELD
Specimen Holder Model
Nominal Magnification49000
Calibrated Magnification
Source
Acceleration Voltage (kV)80
Imaging Details
EM Software
TaskSoftware PackageVersion
MODEL FITTINGPURDUE PROGRAMS
RECONSTRUCTIONPURDUE PROGRAMS