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Showing all 42 items for (author: blau & c)
EMDB-15903: 
Automated simulation-based refinement of maltoporin into a cryo-EM density
Method: single particle / : Yvonnesdotter L, Rovsnik U, Blau C, Lycksell M, Howard RJ, Lindahl E
PDB-8b7v:
Automated simulation-based refinement of maltoporin into a cryo-EM density
Method: single particle / : Yvonnesdotter L, Rovsnik U, Blau C, Lycksell M, Howard RJ, Lindahl E
EMDB-25100:
Unmethylated Mtb Ribosome 50S with SEQ-9
Method: single particle / : Xing Z, Cui Z
PDB-7sfr:
Unmethylated Mtb Ribosome 50S with SEQ-9
Method: single particle / : Xing Z, Cui Z, Zhang J, TB Structural Genomics Consortium (TBSGC)
EMDB-25570:
Cryo-EM structure of Rifamycin bound to E. coli RNAP and rrnBP1 promoter complex
Method: single particle / : Shin Y, Murakami KS
EMDB-25571:
Cryo-EM structure of 27a bound to E. coli RNAP and rrnBP1 promoter complex
Method: single particle / : Shin Y, Murakami KS
PDB-7szj:
Cryo-EM structure of Rifamycin bound to E. coli RNAP and rrnBP1 promoter complex
Method: single particle / : Shin Y, Murakami KS
PDB-7szk:
Cryo-EM structure of 27a bound to E. coli RNAP and rrnBP1 promoter complex
Method: single particle / : Shin Y, Murakami KS
EMDB-22865:
CryoEM structure of A2296-methylated Mycobacterium tuberculosis ribosome bound with SEQ-9
Method: single particle / : Cui Z, Zhang J
PDB-7kgb:
CryoEM structure of A2296-methylated Mycobacterium tuberculosis ribosome bound with SEQ-9
Method: single particle / : Cui Z, Zhang J
EMDB-11293:
CryoEM Structure of Merkel Cell Polyomavirus
Method: single particle / : Bayer NJ, Januliene D
PDB-6zml:
CryoEM Structure of Merkel Cell Polyomavirus Virus-like Particle
Method: single particle / : Bayer NJ, Januliene D, Stehle T, Moeller A, Blaum BS
EMDB-9190:
Cell-free-expressed Pyridoxal 5'-phosphate synthase-like subunit (PDX1.2) from Arabidopsis thaliana
Method: single particle / : Novikova IV, Evans JE, Hellmann H, Sharma N
PDB-4v6y:
E. coli 70S-fMetVal-tRNAVal-tRNAfMet complex in classic pre-translocation state (pre1a)
Method: single particle / : Blau C, Bock LV, Schroder GF, Davydov I, Fischer N, Stark H, Rodnina MV, Vaiana AC, Grubmuller H
PDB-4v6z:
E. coli 70S-fMetVal-tRNAVal-tRNAfMet complex in classic pre-translocation state (pre1b)
Method: single particle / : Blau C, Bock LV, Schroder GF, Davydov I, Fischer N, Stark H, Rodnina MV, Vaiana AC, Grubmuller H
PDB-4v70:
E. coli 70S-fMetVal-tRNAVal-tRNAfMet complex in intermediate pre-translocation state (pre3)
Method: single particle / : Blau C, Bock LV, Schroder GF, Davydov I, Fischer N, Stark H, Rodnina MV, Vaiana AC, Grubmuller H
PDB-4v71:
E. coli 70S-fMetVal-tRNAVal-tRNAfMet complex in intermediate pre-translocation state (pre2)
Method: single particle / : Blau C, Bock LV, Schroder GF, Davydov I, Fischer N, Stark H, Rodnina MV, Vaiana AC, Grubmuller H
PDB-4v72:
E. coli 70S-fMetVal-tRNAVal-tRNAfMet complex in hybrid pre-translocation state (pre4)
Method: single particle / : Blau C, Bock LV, Schroder GF, Davydov I, Fischer N, Stark H, Rodnina MV, Vaiana AC, Grubmuller H
PDB-4v73:
E. coli 70S-fMetVal-tRNAVal-tRNAfMet complex in hybrid pre-translocation state (pre5a)
Method: single particle / : Blau C, Bock LV, Schroder GF, Davydov I, Fischer N, Stark H, Rodnina MV, Vaiana AC, Grubmuller H
PDB-4v74:
70S-fMetVal-tRNAVal-tRNAfMet complex in hybrid pre-translocation state (pre5b)
Method: single particle / : Blau C, Bock LV, Schroder GF, Davydov I, Fischer N, Stark H, Rodnina MV, Vaiana AC, Grubmuller H
PDB-4v75:
E. coli 70S-fMetVal-tRNAVal-tRNAfMet complex in classic post-translocation state (post1)
Method: single particle / : Blau C, Bock LV, Schroder GF, Davydov I, Fischer N, Stark H, Rodnina MV, Vaiana AC, Grubmuller H
PDB-4v76:
E. coli 70S-fMetVal-tRNAVal-tRNAfMet complex in intermediate post-translocation state (post2a)
Method: single particle / : Blau C, Bock LV, Schroder GF, Davydov I, Fischer N, Stark H, Rodnina MV, Vaiana AC, Grubmuller H
PDB-4v77:
E. coli 70S-fMetVal-tRNAVal-tRNAfMet complex in intermediate post-translocation state (post2b)
Method: single particle / : Blau C, Bock LV, Schroder GF, Davydov I, Fischer N, Stark H, Rodnina MV, Vaiana AC, Grubmuller H
PDB-4v78:
E. coli 70S-fMetVal-tRNAVal-tRNAfMet complex in intermediate post-translocation state (post3a)
Method: single particle / : Blau C, Bock LV, Schroder GF, Davydov I, Fischer N, Stark H, Rodnina MV, Vaiana AC, Grubmuller H
PDB-4v79:
E. coli 70S-fMetVal-tRNAVal-tRNAfMet complex in intermediate post-translocation state (post3b)
Method: single particle / : Blau C, Bock LV, Schroder GF, Davydov I, Fischer N, Stark H, Rodnina MV, Vaiana AC, Grubmuller H
PDB-4v7a:
E. coli 70S-fMetVal-tRNAVal post-translocation complex (post4)
Method: single particle / : Blau C, Bock LV, Schroder GF, Davydov I, Fischer N, Stark H, Rodnina MV, Vaiana AC, Grubmuller H
EMDB-2472:
Energy barriers and driving forces of tRNA translocation through the ribosome
Method: single particle / : Bock LV, Blau C, Schroeder GF, Davydov II, Fischer N, Stark H, Rodnina MV, Vaiana AC, Grubmueller H
EMDB-2473:
Energy barriers and driving forces of tRNA translocation through the ribosome
Method: single particle / : Bock LV, Blau C, Schroeder GF, Davydov II, Fischer N, Stark H, Rodnina MV, Vaiana AC, Grubmueller H
EMDB-2474:
Energy barriers and driving forces of tRNA translocation through the ribosome
Method: single particle / : Bock LV, Blau C, Schroeder GF, Davydov II, Fischer N, Stark H, Rodnina MV, Vaiana AC, Grubmueller H
EMDB-2475:
Energy barriers and driving forces of tRNA translocation through the ribosome
Method: single particle / : Bock LV, Blau C, Schroeder GF, Davydov II, Fischer N, Stark H, Rodnina MV, Vaiana AC, Grubmueller H
EMDB-1705:
Mechanism of eIF6s anti-association activity
Method: single particle / : Gartmann M, Blau M, Armache JP, Mielke T, Topf M, Beckmann R
PDB-2x7n:
Mechanism of eIF6s anti-association activity
Method: single particle / : Gartmann M, Blau M, Armache JP, Mielke T, Topf M, Beckmann R
EMDB-1264:
Following the signal sequence from ribosomal tunnel exit to signal recognition particle.
Method: single particle / : Halic M, Blau M, Becker T, Mielke T, Pool MR, Wild K, Sinning I, Beckmann R
EMDB-1262:
Following the signal sequence from ribosomal tunnel exit to signal recognition particle.
Method: single particle / : Halic M, Blau M, Becker T, Mielke T, Pool MR, Wild K, Sinning I, Beckmann R
EMDB-1263:
Following the signal sequence from ribosomal tunnel exit to signal recognition particle.
Method: single particle / : Halic M, Blau M, Becker T, Mielke T, Pool MR, Wild K, Sinning I, Beckmann R
EMDB-1261:
Following the signal sequence from ribosomal tunnel exit to signal recognition particle.
Method: single particle / : Halic M, Blau M, Becker T, Mielke T, Pool MR, Wild K, Sinning I, Beckmann R
PDB-2ix8:
MODEL FOR EEF3 BOUND TO AN 80S RIBOSOME
Method: single particle / : Andersen CBF, Becker T, Blau M, Anand M, Halic M, Balar B, Mielke T, Boesen T, Pedersen JS, Spahn CMT, Kinzy TG, Andersen GR, Beckmann R
PDB-2j28:
MODEL OF E. COLI SRP BOUND TO 70S RNCS
Method: single particle / : Halic M, Blau M, Becker T, Mielke T, Pool MR, Wild K, Sinning I, Beckmann R
PDB-2j37:
MODEL OF MAMMALIAN SRP BOUND TO 80S RNCS
Method: single particle / : Halic M, Blau M, Becker T, Mielke T, Pool MR, Wild K, Sinning I, Beckmann R
EMDB-1233:
Structure of eEF3 and the mechanism of transfer RNA release from the E-site.
Method: single particle / : Beckmann R, Andersen G
EMDB-1168:
ERj1p uses a universal ribosomal adaptor site to coordinate the 80S ribosome at the membrane.
Method: single particle / : Blau M, Mullapudi S, Becker T, Dudek J, Zimmermann R, Penczek PA, Beckmann R
EMDB-1169:
ERj1p uses a universal ribosomal adaptor site to coordinate the 80S ribosome at the membrane.
Method: single particle / : Blau M, Mullapudi S, Becker T, Dudek J, Zimmermann R, Penczek PA, Beckmann R
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