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Showing all 30 items for (author: gaubitz & c)
EMDB-26280:
RFC bound to PCNA and two primer/template DNA molecules
Method: single particle / : Gaubitz C, Liu X, Pajak J, Kelch B
EMDB-26297:
RFC:PCNA bound to nicked DNA
Method: single particle / : Liu X, Gaubitz C
EMDB-26298:
RFC:PCNA bound to dsDNA with a ssDNA gap of six nucleotides
Method: single particle / : Liu X, Gaubitz C
EMDB-26302:
RFC:PCNA bound to DNA with a ssDNA gap of five nucleotides
Method: single particle / : Liu X, Gaubitz C
PDB-7u19:
RFC:PCNA bound to nicked DNA
Method: single particle / : Liu X, Gaubitz C, Pajak J, Kelch BA
PDB-7u1a:
RFC:PCNA bound to dsDNA with a ssDNA gap of six nucleotides
Method: single particle / : Liu X, Gaubitz C, Pajak J, Kelch BA
PDB-7u1p:
RFC:PCNA bound to DNA with a ssDNA gap of five nucleotides
Method: single particle / : Liu X, Gaubitz C, Pajak J, Kelch BA
EMDB-25568:
Structure of the yeast clamp loader (Replication Factor C RFC) bound to the sliding clamp (Proliferating Cell Nuclear Antigen PCNA) in an autoinhibited conformation
Method: single particle / : Gaubitz C, Demo G, Stone NP, Hayes JA, Liu X, Pajak J, Kelch BA
EMDB-25569:
Structure of the yeast clamp loader (Replication Factor C RFC) bound to the sliding clamp (Proliferating Cell Nuclear Antigen PCNA) in an autoinhibited conformation
Method: single particle / : Gaubitz C, Demo G, Stone NP, Hayes JA, Liu X, Pajak J, Kelch BA
EMDB-25614:
Structure of the yeast clamp loader (Replication Factor C RFC) bound to the sliding clamp (Proliferating Cell Nuclear Antigen PCNA) in an autoinhibited conformation
Method: single particle / : Gaubitz C, Demo G, Stone NP, Hayes JA, Liu X, Pajak J, Kelch BA
EMDB-25615:
Structure of the yeast clamp loader (Replication Factor C RFC) bound to the open sliding clamp (Proliferating Cell Nuclear Antigen PCNA)
Method: single particle / : Gaubitz C, Demo G, Stone NP, Hayes JA, Liu X, Pajak J, Kelch BA
EMDB-25616:
Structure of the yeast clamp loader (Replication Factor C RFC) bound to the open sliding clamp (Proliferating Cell Nuclear Antigen PCNA) and primer-template DNA
Method: single particle / : Gaubitz C, Demo G, Stone NP, Hayes JA, Liu X, Pajak J, Kelch BA
EMDB-25617:
Structure of the yeast clamp loader (Replication Factor C RFC) bound to the sliding clamp (Proliferating Cell Nuclear Antigen PCNA) and primer-template DNA
Method: single particle / : Gaubitz C, Demo G, Stone NP, Hayes JA, Liu X, Pajak J, Kelch BA
EMDB-25753:
Structure of the yeast clamp loader (Replication Factor C RFC) bound to the open sliding clamp (Proliferating Cell Nuclear Antigen PCNA)
Method: single particle / : Gaubitz C, Demo G, Stone NP, Hayes JA, Liu X, Pajak J, Kelch BA
PDB-7thj:
Structure of the yeast clamp loader (Replication Factor C RFC) bound to the sliding clamp (Proliferating Cell Nuclear Antigen PCNA) in an autoinhibited conformation
Method: single particle / : Gaubitz C, Liu X, Pajak J, Stone N, Hayes J, Demo G, Kelch BA
PDB-7thv:
Structure of the yeast clamp loader (Replication Factor C RFC) bound to the sliding clamp (Proliferating Cell Nuclear Antigen PCNA) in an autoinhibited conformation
Method: single particle / : Gaubitz C, Liu X, Pajak J, Stone N, Hayes J, Demo G, Kelch BA
PDB-7ti8:
Structure of the yeast clamp loader (Replication Factor C RFC) bound to the open sliding clamp (Proliferating Cell Nuclear Antigen PCNA)
Method: single particle / : Gaubitz C, Liu X, Pajak J, Stone N, Hayes J, Demo G, Kelch BA
PDB-7tib:
Structure of the yeast clamp loader (Replication Factor C RFC) bound to the open sliding clamp (Proliferating Cell Nuclear Antigen PCNA) and primer-template DNA
Method: single particle / : Gaubitz C, Liu X, Pajak J, Stone N, Hayes J, Demo G, Kelch BA
PDB-7tic:
Structure of the yeast clamp loader (Replication Factor C RFC) bound to the sliding clamp (Proliferating Cell Nuclear Antigen PCNA) in an autoinhibited conformation
Method: single particle / : Gaubitz C, Liu X, Pajak J, Stone N, Hayes J, Demo G, Kelch BA
PDB-7tid:
Structure of the yeast clamp loader (Replication Factor C RFC) bound to the sliding clamp (Proliferating Cell Nuclear Antigen PCNA) and primer-template DNA
Method: single particle / : Gaubitz C, Liu X, Pajak J, Stone N, Hayes J, Demo G, Kelch BA
PDB-7tku:
Structure of the yeast clamp loader (Replication Factor C RFC) bound to the open sliding clamp (Proliferating Cell Nuclear Antigen PCNA)
Method: single particle / : Gaubitz C, Liu X, Pajak J, Stone N, Hayes J, Demo G, Kelch BA
EMDB-21405:
Structure of the human clamp loader (Replication Factor C, RFC) bound to the sliding clamp (Proliferating Cell Nuclear Antigen, PCNA)
Method: single particle / : Gaubitz C, Liu X, Stone NP, Kelch BA
PDB-6vvo:
Structure of the human clamp loader (Replication Factor C, RFC) bound to the sliding clamp (Proliferating Cell Nuclear Antigen, PCNA)
Method: single particle / : Gaubitz C, Liu X, Stone NP, Kelch BA
EMDB-21012:
A small terminase protein from a thermophilic phage with a fixed helix-turn-helix geometry, symmetric
Method: single particle / : Hayes JA, Hilbert BJ
PDB-6v1i:
Cryo-EM reconstruction of the thermophilic bacteriophage P74-26 small terminase- symmetric
Method: single particle / : Hayes JA, Hilbert BJ, Gaubitz C, Stone NP, Kelch BA
EMDB-21013:
Cryo-EM reconstruction of the thermophilic bacteriophage P74-26 small terminase, asymmetric I
Method: single particle / : Hayes JA, Hilbert BJ, Gaubitz C, Stone NP, Kelch BA
EMDB-21014:
Cryo-EM reconstruction of the thermophilic bacteriophage P74-26 small terminase- asymmetric II
Method: single particle / : Hayes JA, Brendan BJ, Gaubitz C, Stone NP, Kelch BA
EMDB-3896:
Cryo-EM Structure of Saccharomyces cerevisiae Target of Rapamycin Complex 2
Method: single particle / : Karuppasamy M, Kusmider B
PDB-6emk:
Cryo-EM Structure of Saccharomyces cerevisiae Target of Rapamycin Complex 2
Method: single particle / : Karuppasamy M, Kusmider B, Oliveira TM, Gaubitz C, Prouteau M, Loewith R, Schaffitzel C
EMDB-2990:
Structure of Target Of Rapapmycin Complex 2 (TORC2) from Saccharomyces cerevisiae
Method: single particle / : Gaubitz C, Oliveira TM, Prouteau M, Leitner A, Karuppasamy M, Konstantinidou G, Rispal D, Eltschinger S, Robinson GC, Thore S, Aebersold R, Schaffitzel C, Loewith R