| Seq Identity | Jmol Display | PDB Title |
|---|
| 3J6G | 94% |  | MINIMIZED AVERAGE STRUCTURE OF MICROTUBULES STABILIZED BY TAXOL |
|---|
| 5MM7 | 94% | | USTILAGO MAYDIS KINESIN-5 MOTOR DOMAIN WITH N-TERMINAL EXTENSION IN THE AMPPNP STATE BOUND TO MICROTUBULES |
|---|
| 5MM4 | 94% | | USTILAGO MAYDIS KINESIN-5 MOTOR DOMAIN IN THE AMPPNP STATE BOUND TO MICROTUBULES |
|---|
| 5M50 | 94% | | MECHANISM OF MICROTUBULE MINUS-END RECOGNITION AND PROTECTION BY CAMSAP PROTEINS |
|---|
| 5M5C | 94% | | MECHANISM OF MICROTUBULE MINUS-END RECOGNITION AND PROTECTION BY CAMSAP PROTEINS |
|---|
| 5M54 | 94% | | MECHANISM OF MICROTUBULE MINUS-END RECOGNITION AND PROTECTION BY CAMSAP PROTEINS |
|---|
| 5HNY | 94% | | STRUCTURAL BASIS OF BACKWARDS MOTION IN KINESIN-14: PLUS-END DIRECTED NKN669 IN THE AMPPNP STATE |
|---|
| 5SYE | 94% | | NEAR-ATOMIC RESOLUTION CRYO-EM RECONSTRUCTION OF DOUBLY BOUND TAXOL- AND PELORUSIDE-STABILIZED MICROTUBULE |
|---|
| 5SYF | 94% | | HIGH-RESOLUTION CRYO-EM RECONSTRUCTION OF TAXOL-STABILIZED MICROTUBULE |
|---|
| 5ND4 | 94% | | MICROTUBULE-BOUND MKLP2 MOTOR DOMAIN IN THE PRESENCE OF ADP.ALFX |
|---|
| 4UY0 | 94% | | CONSERVED MECHANISMS OF MICROTUBULE-STIMULATED ADP RELEASE, ATP BINDING, AND FORCE GENERATION IN TRANSPORT KINESINS |
|---|
| 4UXO | 93% | | CONSERVED MECHANISMS OF MICROTUBULE-STIMULATED ADP RELEASE, ATP BINDING, AND FORCE GENERATION IN TRANSPORT KINESINS |
|---|
| 6EW0 | 93% | | CRYO-EM STRUCTURE OF GDP-MICROTUBULE CO-POLYMERISED WITH DOUBLECORTIN AND SUPPLEMENTED WITH TAXOL |
|---|
| 2P4N | 93% | | HUMAN MONOMERIC KINESIN (1BG2) AND BOVINE TUBULIN (1JFF) DOCKED INTO THE 9-ANGSTROM CRYO-EM MAP OF NUCLEOTIDE-FREE KINESIN COMPLEXED TO THE MICROTUBULE |
|---|
| 4CK5 | 93% | | PSEUDO-ATOMIC MODEL OF MICROTUBULE-BOUND HUMAN KINESIN-5 MOTOR DOMAIN IN THE ADP STATE, BASED ON CRYO-ELECTRON MICROSCOPY EXPERIMENT. |
|---|
| 4CK7 | 93% | | PSEUDO-ATOMIC MODEL OF MICROTUBULE-BOUND HUMAN KINESIN-5 MOTOR DOMAIN IN PRESENCE OF ADP.ALFX (NECK-LINKER IN ITS DISCONNECTED CONFORMATION, BASED ON CRYO-ELECTRON MICROSCOPY EXPERIMENT |
|---|
| 4CK6 | 93% | | PSEUDO-ATOMIC MODEL OF MICROTUBULE-BOUND HUMAN KINESIN-5 MOTOR DOMAIN IN THE ADP.ALFX STATE, BASED ON CRYO-ELECTRON MICROSCOPY EXPERIMENT. |
|---|
| 5M5I | 93% | | PSEUDO-ATOMIC MODEL OF MICROTUBULE-BOUND S.POMBE KINESIN-5 MOTOR DOMAIN IN THE AMPPNP STATE (BASED ON CRYO-ELECTRON MICROSCOPY EXPERIMENT): THE N-TERMINUS CONFORMATION ALLOWS FORMATION OF A COVER NECK BUNDLE. |
|---|
| 5M5N | 93% | | PSEUDO-ATOMIC MODEL OF MICROTUBULE-BOUND S.POMBE KINESIN-5 MOTOR DOMAIN IN THE AMPPNP STATE (BASED ON CRYO-ELECTRON MICROSCOPY EXPERIMENT): THE N-TERMINUS ADOPTS MULTIPLE CONFORMATIONS. |
|---|
| 5M5O | 93% | | PSEUDO-ATOMIC MODEL OF MICROTUBULE-BOUND S.POMBE KINESIN-5 MOTOR DOMAIN IN THE AMPPNP STATE (BASED ON CRYO-ELECTRON MICROSCOPY EXPERIMENT): THE N-TERMINUS ADOPTS MULTIPLE CONFORMATIONS. |
|---|
| 5M5L | 93% | | PSEUDO-ATOMIC MODEL OF MICROTUBULE-BOUND S. POMBE KINESIN-5 MOTOR DOMAIN IN THE AMPPNP STATE (BASED ON CRYO-ELECTRON MICROSCOPY EXPERIMENT): THE N-TERMINUS ADOPTS MULTIPLE CONFORMATIONS |
|---|
| 5M5M | 93% | | PSEUDO-ATOMIC MODEL OF MICROTUBULE-BOUND S.POMBE KINESIN-5 MOTOR DOMAIN IN THE AMPPNP STATE (BASED ON CRYO-ELECTRON MICROSCOPY EXPERIMENT): THE N-TERMINUS ADOPTS MULTIPLE CONFORMATIONS. |
|---|
| 2HXF | 93% | | KIF1A HEAD-MICROTUBULE COMPLEX STRUCTURE IN AMPPNP-FORM |
|---|
| 5HNZ | 93% | | STRUCTURAL BASIS OF BACKWARDS MOTION IN KINESIN-14: PLUS-END DIRECTED NKN669 IN THE NUCLEOTIDE-FREE STATE |
|---|
| 5HNX | 93% | | STRUCTURAL BASIS OF BACKWARDS MOTION IN KINESIN-14: MINUS-END DIRECTED NKN664 IN THE NUCLEOTIDE-FREE STATE |
|---|
| 4UXT | 93% | | CONSERVED MECHANISMS OF MICROTUBULE-STIMULATED ADP RELEASE, ATP BINDING, AND FORCE GENERATION IN TRANSPORT KINESINS |
|---|
| 4UXP | 93% | | CONSERVED MECHANISMS OF MICROTUBULE-STIMULATED ADP RELEASE, ATP BINDING, AND FORCE GENERATION IN TRANSPORT KINESINS |
|---|
| 4UXR | 93% | | CONSERVED MECHANISMS OF MICROTUBULE-STIMULATED ADP RELEASE, ATP BINDING, AND FORCE GENERATION IN TRANSPORT KINESINS |
|---|
| 2HXH | 93% | | KIF1A HEAD-MICROTUBULE COMPLEX STRUCTURE IN ADP-FORM |
|---|
| 5OGC | 93% | | MOLECULAR BASIS OF HUMAN KINESIN-8 FUNCTION AND INHIBITION |
|---|
| 3IZ0 | 93% | | HUMAN NDC80 BONSAI DECORATED MICROTUBULE |
|---|
| 3EDL | 93% | | KINESIN13-MICROTUBULE RING COMPLEX |
|---|
| 5ND3 | 93% | | MICROTUBULE-BOUND MKLP2 MOTOR DOMAIN IN THE WITH NO NUCLEOTIDE |
|---|
| 5ND2 | 93% | | MICROTUBULE-BOUND MKLP2 MOTOR DOMAIN IN THE PRESENCE OF ADP |
|---|
| 5ND7 | 93% | | MICROTUBULE-BOUND MKLP2 MOTOR DOMAIN IN THE PRESENCE OF AMPPNP |
|---|
| 3DCO | 93% | | DROSOPHILA NOD (3DC4) AND BOVINE TUBULIN (1JFF) DOCKED INTO THE 11-ANGSTROM CRYO-EM MAP OF NUCLEOTIDE-FREE NOD COMPLEXED TO THE MICROTUBULE |
|---|
| 4UXY | 93% | | CONSERVED MECHANISMS OF MICROTUBULE-STIMULATED ADP RELEASE, ATP BINDING, AND FORCE GENERATION IN TRANSPORT KINESINS |
|---|
| 4UXS | 93% | | CONSERVED MECHANISMS OF MICROTUBULE-STIMULATED ADP RELEASE, ATP BINDING, AND FORCE GENERATION IN TRANSPORT KINESINS |
|---|
| 2WBE | 93% | | KINESIN-5-TUBULIN COMPLEX WITH AMPPNP |
|---|
| 4AQV | 93% | | MODEL OF HUMAN KINESIN-5 MOTOR DOMAIN (3HQD) AND MAMMALIAN TUBULIN HETERODIMER (1JFF) DOCKED INTO THE 9.7-ANGSTROM CRYO-EM MAP OF MICROTUBULE-BOUND KINESIN-5 MOTOR DOMAIN IN THE AMPPPNP STATE. |
|---|
| 4AQW | 93% | | MODEL OF HUMAN KINESIN-5 MOTOR DOMAIN (1II6, 3HQD) AND MAMMALIAN TUBULIN HETERODIMER (1JFF) DOCKED INTO THE 9.5-ANGSTROM CRYO-EM MAP OF MICROTUBULE-BOUND KINESIN-5 MOTOR DOMAIN IN THE RIGOR STATE. |
|---|
| 5OCU | 93% | | MOLECULAR BASIS OF HUMAN KINESIN-8 FUNCTION AND INHIBITION |
|---|
| 5OAM | 93% | | MOLECULAR BASIS OF HUMAN KINESIN-8 FUNCTION AND INHIBITION |
|---|
| 3J6P | 93% | | PSEUDO-ATOMIC MODEL OF DYNEIN MICROTUBULE BINDING DOMAIN-TUBULIN COMPLEX BASED ON A CRYOEM MAP |
|---|
| 5HNW | 93% | | STRUCTURAL BASIS OF BACKWARDS MOTION IN KINESIN-14: MINUS-END DIRECTED NKN664 IN THE AMPPNP STATE |
|---|
| 6B0C | 92% | | KLP10A-AMPPNP IN COMPLEX WITH CURVED TUBULIN AND A MICROTUBULE |
|---|
| 6B0L | 92% | | KLP10A-AMPPNP IN COMPLEX WITH A MICROTUBULE |
|---|
| 6B0I | 92% | | APO KLP10A IN COMPLEX WITH A MICROTUBULE |
|---|
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