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Displaying Records: ( 651-660 / 670 ) [ 10 Records ]

9N9I

Cryo-em structure of the xenopus laevis mitotic centromere-associated kinesin (mcak) bound to the paclitaxel-stabilized microtubule
Deposition Author(s): Funabiki, H. , Niu, Y.

Date: 2025-02-10
Method: ELECTRON MICROSCOPY
Resolution: 3.3 Å
Organism(s): Sus Scrofa , Xenopus Laevis
Sequences Data: 9N9I_1 , 9N9I_4 , 9N9I_A , 9N9I_3 , 9N9I_B , 9N9I_C , 9N9I_M

9NH8

Chd1-nucleosome complex (anchored state)
Deposition Author(s): Farnung, L. , James, A.M.

Date: 2025-02-24
Method: ELECTRON MICROSCOPY
Resolution: 3.2 Å
Organism(s): Homo Sapiens , Synthetic Construct , Xenopus Laevis
Sequences Data: 9NH8_A , 9NH8_E , 9NH8_V , 9NH8_B , 9NH8_F , 9NH8_C , 9NH8_G , 9NH8_D , 9NH8_H , 9NH8_I , 9NH8_J , 9NH8_W

9NY4

Usp21 bound to h2ak119ub nucleosome
Deposition Author(s): Rahman, S. , Wolberger, C.

Date: 2025-03-26
Method: ELECTRON MICROSCOPY
Resolution: 2.98 Å
Organism(s): Homo Sapiens , Synthetic Construct , Xenopus Laevis
Sequences Data: 9NY4_A , 9NY4_E , 9NY4_B , 9NY4_F , 9NY4_C , 9NY4_G , 9NY4_D , 9NY4_H , 9NY4_I , 9NY4_J , 9NY4_K , 9NY4_U

9OLH

Symmetry-expanded reconstruction of augmin t-ii bonsai on the gtpgammas microtubule
Deposition Author(s): Travis, S.M. , Zhang, R.

Date: 2025-05-12
Method: ELECTRON MICROSCOPY
Resolution: 3.83 Å
Organism(s): Bos Taurus , Xenopus Laevis
Sequences Data: 9OLH_A , 9OLH_C , 9OLH_B , 9OLH_F , 9OLH_G , 9OLH_H

9QAJ

Structure of the nucleosome-bound human bcl7a
Deposition Author(s): Bergamin, E. , Martin, F.

Date: 2025-02-28
Method: ELECTRON MICROSCOPY
Resolution: 2.95 Å
Organism(s): Homo Sapiens , Xenopus Laevis
Sequences Data: 9QAJ_A , 9QAJ_E , 9QAJ_B , 9QAJ_F , 9QAJ_C , 9QAJ_G , 9QAJ_D , 9QAJ_H , 9QAJ_I , 9QAJ_J , 9QAJ_K , 9QAJ_M , 9QAJ_L , 9QAJ_N

9QEJ

Cryo-em structure of the importin beta:importin7:histone h1.0 complex
Deposition Author(s): Neumann, P.

Date: 2025-03-10
Method: ELECTRON MICROSCOPY
Resolution: 6.2 Å
Organism(s): Homo Sapiens , Xenopus Laevis
Sequences Data: 9QEJ_A , 9QEJ_B , 9QEJ_C

9QF0

Cryo-em structure of the mportin7:histone h1.0 complex
Deposition Author(s): Dickmanns, A. , Neumann, P.

Date: 2025-03-11
Method: ELECTRON MICROSCOPY
Resolution: 7.5 Å
Organism(s): Homo Sapiens , Xenopus Laevis
Sequences Data: 9QF0_A , 9QF0_C

9QIK

M2 nucleosome
Deposition Author(s): Hopfner, K.-P. , Kunert, F. , Lammens, K.

Date: 2025-03-17
Method: ELECTRON MICROSCOPY
Resolution: 3.03 Å
Organism(s): Xenopus Laevis , Xenopus Laevis Laevis
Sequences Data: 9QIK_A , 9QIK_B , 9QIK_C , 9QIK_D , 9QIK_E , 9QIK_F , 9QIK_G , 9QIK_H , 9QIK_I , 9QIK_J

9R5K

Structural characterisation of chromatin remodelling intermediates supports linker dna dependent product inhibition as a mechanism for nucleosome spacing.
Deposition Author(s): Hughes, A. , Owen-Hughes, T.A. , Sundaramoorthy, R.

Date: 2025-05-09
Method: ELECTRON MICROSCOPY
Resolution: 4.2 Å
Organism(s): Xenopus Laevis , Synthetic Construct
Sequences Data: 9R5K_I , 9R5K_J , 9R5K_A , 9R5K_E , 9R5K_B , 9R5K_F , 9R5K_C , 9R5K_G , 9R5K_D , 9R5K_H

9R5S

Structural characterisation of chromatin remodelling intermediates supports linker dna dependent product inhibition as a mechanism for nucleosome spacing.
Deposition Author(s): Hughes, A. , Owen-Hughes, T.A. , Sundaramoorthy, R.

Date: 2025-05-09
Method: ELECTRON MICROSCOPY
Resolution: 3.8 Å
Organism(s): Saccharomyces Cerevisiae , Xenopus Laevis , Synthetic Construct
Sequences Data: 9R5S_I , 9R5S_J , 9R5S_A , 9R5S_E , 9R5S_B , 9R5S_F , 9R5S_C , 9R5S_G , 9R5S_D , 9R5S_H , 9R5S_W