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Showing all 23 items for (author: debs & g)
EMDB-16144:
Structure of the SARS-CoV-2 spike glycoprotein in complex with the macrocyclic peptide S1B3inL1
Method: single particle / : Hurdiss DL, Drulyte I
PDB-8bon:
Structure of the SARS-CoV-2 spike glycoprotein in complex with the macrocyclic peptide S1B3inL1
Method: single particle / : Hurdiss DL
EMDB-10625:
Cin8 motor domain (short loop 8) bound to microtubules
Method: helical / : Siegler N, Singh SK, Zalk R, Debs GE, Sindelar CV, Gheber L, Zarivach R
EMDB-21919:
14-protofilament, GMPCPP stabilized microtubule with nucleotide free kinesin
Method: single particle / : Debs GE, Cha M, Sindelar CV
EMDB-21922:
Low curvature lateral interaction within a 13-protofilament, Taxol stabilized microtubule
Method: single particle / : Debs GE, Cha M
EMDB-21923:
High curvature lateral interaction within a 13-protofilament, Taxol stabilized microtubule
Method: single particle / : Debs GE, Cha M
EMDB-21924:
Protofilament from a 13-protofilament, Taxol stabilized microtubule
Method: single particle / : Debs GE, Cha M
PDB-6wvl:
Low curvature lateral interaction within a 13-protofilament, Taxol stabilized microtubule
Method: single particle / : Debs GE, Cha M, Huehn AR, Sindelar CV
PDB-6wvm:
High curvature lateral interaction within a 13-protofilament, Taxol stabilized microtubule
Method: single particle / : Debs GE, Cha M, Huehn AR, Sindelar CV
PDB-6wvr:
Tubulin dimers from a 13-protofilament, Taxol stabilized microtubule
Method: single particle / : Debs GE, Cha M, Huehn AR, Sindelar CV
EMDB-20092:
Monomeric kinesin-1 motor domain in no-nucleotide state bound to GMPCPP-stabilized microtubule
Method: single particle / : Cha HK, Debs G
EMDB-20093:
Cryo-EM reconstruction of the 'x1x' binding pattern in the low ADP condition for dimeric kinesin-1 with a central bound site and flanking sites with either bound or empty occupancy
Method: single particle / : Cha HK, Debs G
EMDB-20094:
Cryo-EM reconstruction of the '010' binding pattern in the low ADP condition for dimeric kinesin-1 with a central bound site and empty flanking sites
Method: single particle / : Cha HK, Debs G
EMDB-20095:
Cryo-EM reconstruction of the '0110' binding pattern in the low ADP condition for dimeric kinesin-1 with two central bound sites and empty flanking sites
Method: single particle / : Cha HK, Debs G
EMDB-20096:
Cryo-EM reconstruction of the '010' binding pattern in the ADP-AlFx condition for dimeric kinesin-1 with a central bound site and empty flanking sites
Method: single particle / : Cha HK, Debs G
EMDB-20097:
Cryo-EM reconstruction of the 'x11x' binding pattern in the ADP-AlFx condition for dimeric kinesin-1 with two central bound sites and flanking sites with either empty or bound occupancy
Method: single particle / : Cha HK, Debs G
EMDB-20098:
Cryo-EM reconstruction of the '0110' binding pattern in the ADP-Pi condition for dimeric kinesin-1 with two central bound sites and empty flanking sites
Method: single particle / : Cha HK, Debs G
PDB-6ojq:
Monomeric kinesin-1 motor domain in no-nucleotide state bound to GMPCPP-stabilized microtubule
Method: single particle / : Cha HK, Debs G
EMDB-21314:
Cryo-EM structure of microtubule-bound KLP61F motor domain in the AMPPNP state
Method: helical / : Bodrug T, Wilson-Kubalek EM
EMDB-21315:
Cryo-EM structure of microtubule-bound KLP61F motor with tail domain in the nucleotide-free state
Method: helical / : Bodrug T, Wilson-Kubalek EM
PDB-6vpo:
Cryo-EM structure of microtubule-bound KLP61F motor domain in the AMPPNP state
Method: helical / : Bodrug T, Wilson-Kubalek EM, Nithianantham S, Debs G, Sindelar CV, Milligan R, Al-Bassam J
PDB-6vpp:
Cryo-EM structure of microtubule-bound KLP61F motor with tail domain in the nucleotide-free state
Method: helical / : Bodrug T, Wilson-Kubalek EM, Nithianantham S, Debs G, Sindelar CV, Milligan R, Al-Bassam J
EMDB-20667:
Biochemical and structural analysis of the Neurofibromin (NF1) protein reveals high-affinity dimer formation
Method: single particle / : Juneja P, Sherekar M, Esposito D, Han SW, Ghirlando R, Messing S, Drew M, Niel OH, Stanley C, Bhowmik D, Ramanathan A, Subramaniam S, Nissley D, Gillette W, McCormick F