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Showing 1 - 50 of 52 items for (author: roberts & aj)
EMDB-19132:
Structure of dynein-2 intermediate chain DYNC2I2 (WDR34) in complex with dynein-2 heavy chain DYNC2H1.
Method: single particle / : Mukhopadhyay AG, Toropova K, Daly L, Wells J, Vuolo L, Mladenov M, Seda M, Jenkins D, Stephens DJ, Roberts AJ
EMDB-19133:
Structure of dynein-2 intermediate chain DYNC2I1 (WDR60) in complex with the dynein-2 heavy chain DYNC2H1.
Method: single particle / : Mukhopadhyay AG, Toropova K, Daly L, Wells J, Vuolo L, Seda M, Jenkins D, Stephens DJ, Roberts AJ
EMDB-27264:
CryoEM structure of human METTL1-WDR4 in complex with Lys-tRNA
Method: single particle / : Ruiz-Arroyo VM, Nam Y
EMDB-27265:
CryoEM structure of human METTL1-WDR4 in complex with Lys-tRNA and SAM
Method: single particle / : Ruiz-Arroyo VM, Nam Y
EMDB-28108:
CryoEM structure of human METTL1-WDR4 in complex with Lys-tRNA and SAH
Method: single particle / : Ruiz-Arroyo VM, Nam Y
PDB-8d9k:
CryoEM structure of human METTL1-WDR4 in complex with Lys-tRNA
Method: single particle / : Ruiz-Arroyo VM, Nam Y
PDB-8d9l:
CryoEM structure of human METTL1-WDR4 in complex with Lys-tRNA and SAM
Method: single particle / : Ruiz-Arroyo VM, Nam Y
PDB-8eg0:
CryoEM structure of human METTL1-WDR4 in complex with Lys-tRNA and SAH
Method: single particle / : Ruiz-Arroyo VM, Nam Y
EMDB-15954:
Structure of the IFT-A complex; IFT-A2 module
Method: single particle / : Hesketh SJ, Mukhopadhyay AG, Nakamura D, Toropova K, Roberts AJ
EMDB-15955:
Structure of the IFT-A complex; IFT-A1 module
Method: single particle / : Hesketh SJ, Mukhopadhyay AG, Nakamura D, Toropova K, Roberts AJ
EMDB-26313:
C6-guano bound Mu Opioid Receptor-Gi Protein Complex
Method: single particle / : Wang H, Kobilka B
PDB-7u2k:
C6-guano bound Mu Opioid Receptor-Gi Protein Complex
Method: single particle / : Wang H, Kobilka B
EMDB-25612:
CryoEM structure of mu-opioid receptor - Gi protein complex bound to mitragynine pseudoindoxyl (MP)
Method: single particle / : Seven AB, Qu Q, Robertson MJ, Wang H, Kobilka BK, Skiniotis G
EMDB-25613:
CryoEM structure of mu-opioid receptor - Gi protein complex bound to lofentanil (LFT)
Method: single particle / : Seven AB, Qu Q, Huang W, Robertson MJ, Kobilka BK, Skiniotis G
PDB-7t2g:
CryoEM structure of mu-opioid receptor - Gi protein complex bound to mitragynine pseudoindoxyl (MP)
Method: single particle / : Seven AB, Qu Q, Robertson MJ, Wang H, Kobilka BK, Skiniotis G
PDB-7t2h:
CryoEM structure of mu-opioid receptor - Gi protein complex bound to lofentanil (LFT)
Method: single particle / : Seven AB, Qu Q, Huang W, Robertson MJ, Kobilka BK, Skiniotis G
EMDB-14460:
P. berghei kinesin-8B motor domain in AMPPNP state bound to tubulin dimer
Method: single particle / : Liu T, Shilliday F, Cook AD, Moores CA
EMDB-14459:
P. berghei kinesin-8B motor domain in no nucleotide state bound to tubulin dimer
Method: single particle / : Liu T, Shilliday F, Cook AD, Moores CA
EMDB-14461:
P. falciparum kinesin-8B motor domain in no nucleotide bound to tubulin dimer
Method: single particle / : Liu T, Shilliday F, Cook AD, Moores CA
EMDB-13576:
Alpha-synuclein amyloid fibres incubated with DNAJB1, Hsc70, Hsp110 and ATP
Method: electron tomography / : Monistrol J, Saibil HR
EMDB-13577:
Alpha-synuclein amyloid fibres incubated with DNAJB1, Hsc70, and ATP
Method: electron tomography / : Monistrol J, Saibil HR
EMDB-26314:
C5guano-uOR-Gi-scFv16
Method: single particle / : Wang H, Qu Q, Skiniotis G, Kobilka B
PDB-7u2l:
C5guano-uOR-Gi-scFv16
Method: single particle / : Wang H, Qu Q, Skiniotis G, Kobilka B
EMDB-25043:
Nuc147 bound to multiple BRCTs
Method: single particle / : Muthurajan UM, Rudolph J
PDB-7scz:
Nuc147 bound to multiple BRCTs
Method: single particle / : Muthurajan UM, Rudolph J
EMDB-25042:
Nuc147 bound to single BRCT
Method: single particle / : Muthurajan UM, Rudolph JR
PDB-7scy:
Nuc147 bound to single BRCT
Method: single particle / : Muthurajan UM, Rudolph JR
EMDB-12257:
Plasmodium falciparum kinesin-5 motor domain without nucleotide, complexed with 14 protofilament microtubule.
Method: helical / : Cook AD, Roberts A, Atherton J, Tewari R, Topf M, Moores CA
EMDB-12258:
Plasmodium falciparum kinesin-5 motor domain bound to AMPPNP, complexed with 14 protofilament microtubule.
Method: helical / : Cook AD, Roberts A, Atherton J, Tewari R, Topf M, Moores CA
EMDB-23652:
Asymmetric Activation of the Calcium Sensing Receptor Homodimer
Method: single particle / : Gao Y, Robertson MJ, Zhang C, Meyerowitz JG, Panova O, Skiniotis G
EMDB-23653:
Asymmetric Activation of the Calcium Sensing Receptor Homodimer
Method: single particle / : Gao Y, Robertson MJ, Zhang C, Meyerowitz JG, Panova O, Skiniotis G
EMDB-23654:
Asymmetric Activation of the Calcium Sensing Receptor Homodimer
Method: single particle / : Gao Y, Robertson MJ, Zhang C, Meyerowitz JG, Panova O, Skiniotis G
EMDB-23655:
Asymmetric Activation of the Calcium Sensing Receptor Homodimer
Method: single particle / : Gao Y, Robertson MJ, Zhang C, Meyerowitz JG, Panova O, Skiniotis G
PDB-7m3e:
Asymmetric Activation of the Calcium Sensing Receptor Homodimer
Method: single particle / : Gao Y, Robertson MJ, Zhang C, Meyerowitz JG, Panova O, Skiniotis G
PDB-7m3f:
Asymmetric Activation of the Calcium Sensing Receptor Homodimer
Method: single particle / : Gao Y, Robertson MJ, Zhang C, Meyerowitz JG, Panova O, Skiniotis G
PDB-7m3g:
Asymmetric Activation of the Calcium Sensing Receptor Homodimer
Method: single particle / : Gao Y, Robertson MJ, Zhang C, Meyerowitz JG, Panova O, Skiniotis G
PDB-7m3j:
Asymmetric Activation of the Calcium Sensing Receptor Homodimer
Method: single particle / : Gao Y, Robertson MJ, Zhang C, Meyerowitz JG, Panova O, Skiniotis G
EMDB-20864:
Structure of two nucleosomes bridged by human PARP2
Method: single particle / : Gaullier G, Morgan GP, Luger K
PDB-6usj:
Structure of two nucleosomes bridged by human PARP2
Method: single particle / : Gaullier G, Bowerman S, Luger K
EMDB-4917:
Structure of the dynein-2 complex; motor domains
Method: single particle / : Toropova K, Zalyte R, Mukhopadhyay AG, Mladenov M, Carter AP, Roberts AJ
EMDB-4918:
Structure of the dynein-2 complex; tail domain
Method: single particle / : Toropova K, Zalyte R, Mukhopadhyay AG, Mladenov M, Carter AP, Roberts AJ
EMDB-3444:
Mechanism of microtubule minus-end recognition and protection by CAMSAP proteins
Method: single particle / : Akhmanova A, Moores CA, Baldus M, Steinmetz MO, Topf M, Roberts AJ, Grant BJ, Scarabelli G, Joseph AP, van Hooff JJE, Houben K, Hua S, Luo Y, Stangier MM, Jiang K, Atherton J
EMDB-4154:
Mechanism of microtubule minus-end recognition and protection by CAMSAP proteins
Method: single particle / : Akhmanova A, Moores CA, Baldus M, Steinmetz MO, Topf M, Roberts AJ, Grant BJ, Scarabelli G, Joseph AP, van Hooff JJE, Houben K, Hua S, Luo Y, Stangier MM, Jiang K, Atherton J
EMDB-4156:
Mechanism of microtubule minus-end recognition and protection by CAMSAP proteins
Method: single particle / : Akhmanova A, Moores CA, Baldus M, Steinmetz MO, Topf M, Roberts AJ, Grant BJ, Scarabelli G, Joseph AJ, van Hooff JJE, Houben K, Hua S, Luo Y, Stangier MM, Jiang K, Atherton J
EMDB-6008:
Dynein motor domain in complex with Lis1 in the absence of nucleotide
Method: single particle / : Toropova K, Zou S, Roberts AJ, Redwine WB, Goodman BS, Reck-Peterson SL, Leschziner AE
EMDB-6013:
Dynein motor domain in the absence of nucleotide
Method: single particle / : Toropova K, Zou S, Roberts AJ, Redwine WB, Goodman BS, Reck-Peterson SL, Leschziner AE
EMDB-6014:
Dynein motor domain in the presence of ADP, with linker at position 2
Method: single particle / : Toropova K, Zou S, Roberts AJ, Redwine WB, Goodman BS, Reck-Peterson SL, Leschziner AE
EMDB-6015:
Dynein motor domain in the presence of ADP, with linker at position 1
Method: single particle / : Toropova K, Zou S, Roberts AJ, Redwine WB, Goodman BS, Reck-Peterson SL, Leschziner AE
EMDB-6016:
Dynein motor domain in complex with Lis1 in the presence of ATP and Vi
Method: single particle / : Toropova K, Zou S, Roberts AJ, Redwine WB, Goodman BS, Reck-Peterson SL, Leschziner AE
EMDB-6017:
Dynein motor domain with truncated linker in complex with Lis1 in the absence of nucleotide
Method: single particle / : Toropova K, Zou S, Roberts AJ, Redwine WB, Goodman BS, Reck-Peterson SL, Leschziner AE
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