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Showing 1 - 50 of 227 items for (author: stark & h)
EMDB-18225:
cryo-EM structure of the human spliceosomal B complex protomer (tri-snRNP core region)
Method: single particle / : Zhang Z, Kumar V, Dybkov O, Will CL, Urlaub H, Stark H, Luehrmann R
EMDB-18529:
Cryo-EM structure of a human spliceosomal B complex protomer
Method: single particle / : Zhang Z, Kumar V, Dybkov O, Will CL, Urlaub H, Stark H, Luehrmann R
EMDB-19062:
BRR2 part of the human spliceosomal B complex
Method: single particle / : Zhang Z, Kumar V, Dybkov O, Will CL, Urlaub H, Stark H, Luehrmann R
EMDB-19063:
cryo-EM structure of a dimerized human spliceosomal B complex
Method: single particle / : Zhang Z, Kumar V, Dybkov O, Will CL, Urlaub H, Stark H, Luehrmann R
PDB-8q7n:
cryo-EM structure of the human spliceosomal B complex protomer (tri-snRNP core region)
Method: single particle / : Zhang Z, Kumar V, Dybkov O, Will CL, Urlaub H, Stark H, Luehrmann R
PDB-8qo9:
Cryo-EM structure of a human spliceosomal B complex protomer
Method: single particle / : Zhang Z, Kumar V, Dybkov O, Will CL, Urlaub H, Stark H, Luehrmann R
EMDB-17839:
Asymmetric unit of the yeast fatty acid synthase in the non-rotated state with ACP at the ketosreductase domain (FASamn sample)
Method: single particle / : Singh K, Bunzel G, Graf B, Yip KM, Stark H, Chari A
EMDB-17840:
Cryo-EM structure of the yeast fatty acid synthase at 1.9 angstrom resolution
Method: single particle / : Singh K, Bunzel G, Graf B, Yip KM, Stark H, Chari A
EMDB-17842:
Asymmetric unit of the yeast fatty acid synthase in the non-rotated state with ACP at the ketosynthase domain (FASamn sample)
Method: single particle / : Singh K, Bunzel G, Graf B, Yip KM, Stark H, Chari A
EMDB-17843:
Asymmetric unit of the yeast fatty acid synthase with ACP at the enoyl reductase domain (FASam sample)
Method: single particle / : Singh K, Bunzel G, Graf B, Yip KM, Stark H, Chari A
EMDB-17846:
Asymmetric unit of the yeast fatty acid synthase in the semi non-rotated state with ACP at the enoyl reductase domain (FASam sample)
Method: single particle / : Singh K, Bunzel G, Graf B, Yip KM, Stark H, Chari A
EMDB-17847:
Asymmetric unit of the yeast fatty acid synthase in the non-rotated state with ACP at the ketosynthase domain (FASam sample)
Method: single particle / : Singh K, Bunzel G, Graf B, Yip KM, Stark H, Chari A
EMDB-17848:
Asymmetric unit of the yeast fatty acid synthase in the semi non-rotated state with ACP at the ketosynthase domain (FASam sample)
Method: single particle / : Singh K, Bunzel G, Graf B, Yip KM, Stark H, Chari A
EMDB-17851:
Asymmetric unit of the yeast fatty acid synthase in non-rotated state with ACP at the acetyl transferase domain (FASx sample)
Method: single particle / : Singh K, Bunzel G, Graf B, Yip KM, Stark H, Chari A
EMDB-17852:
Asymmetric unit of the yeast fatty acid synthase in the semi non-rotated state with ACP at the acetyl transferase domain (FASx sample)
Method: single particle / : Singh K, Bunzel G, Graf B, Yip KM, Stark H, Chari A
EMDB-17853:
Asymmetric unit of the yeast fatty acid synthase in the semi rotated state with ACP at the acetyl transferase domain (FASx sample)
Method: single particle / : Singh K, Bunzel G, Graf B, Yip KM, Stark H, Chari A
EMDB-17854:
Asymmetric unit of the yeast fatty acid synthase in the non-rotated state with ACP at the ketosynthase domain (FASx sample)
Method: single particle / : Singh K, Bunzel G, Graf B, Yip KM, Stark H, Chari A
EMDB-17855:
Asymmetric unit of the yeast fatty acid synthase in the semi non-rotated state with ACP at the ketosynthase domain (FASx sample)
Method: single particle / : Singh K, Bunzel G, Graf B, Yip KM, Stark H, Chari A
EMDB-17856:
Asymmetric unit of the yeast fatty acid synthase in the non-rotated state with ACP at the malonyl/palmitoyl transferase domain (FASx sample)
Method: single particle / : Singh K, Bunzel G, Graf B, Yip KM, Stark H, Chari A
EMDB-17859:
Asymmetric unit of the yeast fatty acid synthase in rotated state with ACP at the acetyl transferase domain (FASx sample)
Method: single particle / : Singh K, Bunzel G, Graf B, Yip KM, Stark H, Chari A
PDB-8prv:
Asymmetric unit of the yeast fatty acid synthase in the non-rotated state with ACP at the ketosreductase domain (FASamn sample)
Method: single particle / : Singh K, Bunzel G, Graf B, Yip KM, Stark H, Chari A
PDB-8prw:
Cryo-EM structure of the yeast fatty acid synthase at 1.9 angstrom resolution
Method: single particle / : Singh K, Bunzel G, Graf B, Yip KM, Stark H, Chari A
PDB-8ps1:
Asymmetric unit of the yeast fatty acid synthase in the non-rotated state with ACP at the ketosynthase domain (FASamn sample)
Method: single particle / : Singh K, Bunzel G, Graf B, Yip KM, Stark H, Chari A
PDB-8ps2:
Asymmetric unit of the yeast fatty acid synthase with ACP at the enoyl reductase domain (FASam sample)
Method: single particle / : Singh K, Bunzel G, Graf B, Yip KM, Stark H, Chari A
PDB-8ps8:
Asymmetric unit of the yeast fatty acid synthase in the semi non-rotated state with ACP at the enoyl reductase domain (FASam sample)
Method: single particle / : Singh K, Bunzel G, Graf B, Yip KM, Stark H, Chari A
PDB-8ps9:
Asymmetric unit of the yeast fatty acid synthase in the non-rotated state with ACP at the ketosynthase domain (FASam sample)
Method: single particle / : Singh K, Bunzel G, Graf B, Yip KM, Stark H, Chari A
PDB-8psa:
Asymmetric unit of the yeast fatty acid synthase in the semi non-rotated state with ACP at the ketosynthase domain (FASam sample)
Method: single particle / : Singh K, Bunzel G, Graf B, Yip KM, Stark H, Chari A
PDB-8psf:
Asymmetric unit of the yeast fatty acid synthase in non-rotated state with ACP at the acetyl transferase domain (FASx sample)
Method: single particle / : Singh K, Bunzel G, Graf B, Yip KM, Stark H, Chari A
PDB-8psg:
Asymmetric unit of the yeast fatty acid synthase in the semi non-rotated state with ACP at the acetyl transferase domain (FASx sample)
Method: single particle / : Singh K, Bunzel G, Graf B, Yip KM, Stark H, Chari A
PDB-8psj:
Asymmetric unit of the yeast fatty acid synthase in the semi rotated state with ACP at the acetyl transferase domain (FASx sample)
Method: single particle / : Singh K, Bunzel G, Graf B, Yip KM, Stark H, Chari A
PDB-8psk:
Asymmetric unit of the yeast fatty acid synthase in the non-rotated state with ACP at the ketosynthase domain (FASx sample)
Method: single particle / : Singh K, Bunzel G, Graf B, Yip KM, Stark H, Chari A
PDB-8psl:
Asymmetric unit of the yeast fatty acid synthase in the semi non-rotated state with ACP at the ketosynthase domain (FASx sample)
Method: single particle / : Singh K, Bunzel G, Graf B, Yip KM, Stark H, Chari A
PDB-8psm:
Asymmetric unit of the yeast fatty acid synthase in the non-rotated state with ACP at the malonyl/palmitoyl transferase domain (FASx sample)
Method: single particle / : Singh K, Bunzel G, Graf B, Yip KM, Stark H, Chari A
PDB-8psp:
Asymmetric unit of the yeast fatty acid synthase in rotated state with ACP at the acetyl transferase domain (FASx sample)
Method: single particle / : Singh K, Bunzel G, Graf B, Yip KM, Stark H, Chari A
EMDB-15853:
Tetrameric structure of 47 N-terminally truncated human tryptophan hydroxylase 2 with dimerized regulatory domains
Method: single particle / : Zhang Z, Vedel IM, Skawinska NT, Harris P, Stark H, Peters GHJ
EMDB-16223:
Cryo-EM structure of the catalytic domain tetramer of N-terminally truncated human tryptophan hydroxylase 2
Method: single particle / : Zhang Z, Vedel IM, Skawinska NT, Harris P, Stark H, Peters GHJ
EMDB-14113:
Structure of the human 48S initiation complex in open state (h48S AUG open)
Method: single particle / : Yi SH, Petrychenko V, Schliep JE, Goyal A, Linden A, Chari A, Urlaub H, Stark H, Rodnina MV, Adio S, Fischer N
EMDB-14114:
Structure of the human 48S initiation complex in closed state (h48S AUG closed)
Method: single particle / : Yi SH, Petrychenko V, Schliep JE, Goyal A, Linden A, Chari A, Urlaub H, Stark H, Rodnina MV, Adio S, Fischer N
PDB-7qp6:
Structure of the human 48S initiation complex in open state (h48S AUG open)
Method: single particle / : Yi SH, Petrychenko V, Schliep JE, Goyal A, Linden A, Chari A, Urlaub H, Stark H, Rodnina MV, Adio S, Fischer N
PDB-7qp7:
Structure of the human 48S initiation complex in closed state (h48S AUG closed)
Method: single particle / : Yi SH, Petrychenko V, Schliep JE, Goyal A, Linden A, Chari A, Urlaub H, Stark H, Rodnina MV, Adio S, Fischer N
EMDB-13028:
The U2 part of Saccharomyces cerevisiae spliceosomal pre-A complex (delta BS-A ACT1)
Method: single particle / : Zhang Z, Rigo N, Dybkov O, Fourmann J, Will CL, Kumar V, Urlaub H, Stark H, Luehrmann R
EMDB-13029:
The U1 part of Saccharomyces cerevisiae spliceosomal pre-A complex (delta BS-A ACT1)
Method: single particle / : Zhang Z, Rigo N, Dybkov O, Fourmann J, Will CL, Kumar V, Urlaub H, Stark H, Luehrmann R
EMDB-13030:
Saccharomyces cerevisiae spliceosomal pre-A complex (U257A ACT1)
Method: single particle / : Zhang Z, Rigo N, Dybkov O, Stark H, Luehrmann R
EMDB-13031:
The U1 part of Saccharomyces cerevisiae spliceosomal pre-A complex (U257A)
Method: single particle / : Zhang Z, Rigo N, Dybkov O, Stark H, Luehrmann R
EMDB-13032:
The U2 part of Saccharomyces cerevisiae spliceosomal pre-A complex (U257A)
Method: single particle / : Zhang Z, Rigo N, Dybkov O, Stark H, Luehrmann R
EMDB-13033:
Saccharomyces cerevisiae spliceosomal pre-A complex (delta BS-A ACT1)
Method: single particle / : Zhang Z, Rigo N, Dybkov O, Fourmann J, Will CL, Kumar V, Urlaub H, Stark H, Luehrmann R
PDB-7oqb:
The U2 part of Saccharomyces cerevisiae spliceosomal pre-A complex (delta BS-A ACT1)
Method: single particle / : Zhang Z, Rigo N, Dybkov O, Fourmann J, Will CL, Kumar V, Urlaub H, Stark H, Luehrmann R
PDB-7oqc:
The U1 part of Saccharomyces cerevisiae spliceosomal pre-A complex (delta BS-A ACT1)
Method: single particle / : Zhang Z, Rigo N, Dybkov O, Fourmann J, Will CL, Kumar V, Urlaub H, Stark H, Luehrmann R
PDB-7oqe:
Saccharomyces cerevisiae spliceosomal pre-A complex (delta BS-A ACT1)
Method: single particle / : Zhang Z, Rigo N, Dybkov O, Fourmann J, Will CL, Kumar V, Urlaub H, Stark H, Luehrmann R
EMDB-11697:
Human pre-Bact-2 spliceosome
Method: single particle / : Townsend C, Kastner B, Leelaram MN, Bertram K, Stark H, Luehrmann R
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