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Showing 1 - 50 of 1,383 items for (author: philip & s)
EMDB-19136:
Thinner is not always better: Optimising cryo lamellae for subtomogram averaging
Method: subtomogram averaging / : Tuijtel MW, Cruz-Leon S, Kreysing JP, Welsch S, Hummer G, Beck M, Turonova B
EMDB-19160:
Thinner is not always better: Optimising cryo lamellae for subtomogram averaging - Lamella thickness analysis
Method: subtomogram averaging / : Tuijtel MW, Cruz-Leon S, Kreysing JP, Welsch S, Hummer G, Beck M, Turonova B
EMDB-19161:
Thinner is not always better: Optimising cryo lamellae for subtomogram averaging - Ion-damage layer analysis
Method: subtomogram averaging / : Tuijtel MW, Cruz-Leon S, Kreysing JP, Welsch S, Hummer G, Beck M, Turonova B
EMDB-18639:
Locally refined SARS-CoV-2 BA-2.86 Spike receptor binding domain (RBD) complexed with angiotensin converting enzyme 2 (ACE2)
Method: single particle / : Ren J, Stuart DI, Duyvesteyn HME
EMDB-18649:
Local refinement of SARS-CoV-2 BA.2.86 Spike and XBB-7 Fab
Method: single particle / : Ren J, Duyvesteyn HME, Stuart DI
EMDB-19002:
XBB-4 Fab in complex with SARS-CoV-2 BA.2.12.1 Spike Glycoprotein
Method: single particle / : Duyvesteyn HME, Ren J, Stuart DI
PDB-8qsq:
Locally refined SARS-CoV-2 BA-2.86 Spike receptor binding domain (RBD) complexed with angiotensin converting enzyme 2 (ACE2)
Method: single particle / : Ren J, Stuart DI, Duyvesteyn HME
PDB-8qtd:
Local refinement of SARS-CoV-2 BA.2.86 Spike and XBB-7 Fab
Method: single particle / : Ren J, Duyvesteyn HME, Stuart DI
PDB-8r8k:
XBB-4 Fab in complex with SARS-CoV-2 BA.2.12.1 Spike Glycoprotein
Method: single particle / : Duyvesteyn HME, Ren J, Stuart DI
EMDB-17626:
E. coli RNA polymerase paused at ops site
Method: single particle / : Zuber PK, Said N, Hilal T, Loll B, Wahl MC, Knauer SH
EMDB-17632:
fully recruited RfaH bound to E. coli transcription complex paused at ops site (alternative state of RfaH)
Method: single particle / : Zuber PK, Said N, Hilal T, Loll B, Wahl MC, Knauer SH
EMDB-17646:
transcription complex paused at ops site and bound to autoinhibited RfaH, not fully complementary scaffold
Method: single particle / : Zuber PK, Said N, Hilal T, Loll B, Wahl MC, Knauer SH
EMDB-17647:
fully recruited RfaH bound to E. coli transcription complex paused at ops site (not fully complementary scaffold; alternative state of RfaH)
Method: single particle / : Zuber PK, Said N, Hilal T, Loll B, Wahl MC, Knauer SH
EMDB-17657:
E. coli RNA polymerase paused at ops site (non-complementary scaffold)
Method: single particle / : Zuber PK, Said N, Hilal T, Loll B, Wahl MC, Knauer SH
EMDB-17668:
E. coli transcription complex paused at ops site with fully recruited RfaH
Method: single particle / : Zuber PK, Said N, Hilal T, Loll B, Wahl MC, Knauer SH
EMDB-17679:
autoinhibited RfaH bound to E. coli transcription complex paused at ops site (encounter complex)
Method: single particle / : Zuber PK, Said N, Hilal T, Loll B, Wahl MC, Knauer SH
EMDB-17681:
backtracked E. coli transcription complex paused at ops site and bound to RfaH
Method: single particle / : Zuber PK, Said N, Hilal T, Loll B, Wahl MC, Knauer SH
EMDB-17685:
E. coli transcription complex paused at ops site and bound to RfaH and NusA
Method: single particle / : Zuber PK, Said N, Hilal T, Loll B, Wahl MC, Knauer SH
EMDB-17686:
fully recruited RfaH bound to E. coli transcription complex paused at ops site (not complementary scaffold)
Method: single particle / : Zuber PK, Said N, Hilal T, Loll B, Wahl MC, Knauer SH
PDB-8pdy:
E. coli RNA polymerase paused at ops site
Method: single particle / : Zuber PK, Said N, Hilal T, Loll B, Wahl MC, Knauer SH
PDB-8pen:
fully recruited RfaH bound to E. coli transcription complex paused at ops site (alternative state of RfaH)
Method: single particle / : Zuber PK, Said N, Hilal T, Loll B, Wahl MC, Knauer SH
PDB-8pfg:
autoinhibited RfaH bound to E. coli transcription complex paused at ops site (encounter complex), not fully complementary scaffold
Method: single particle / : Zuber PK, Said N, Hilal T, Loll B, Wahl MC, Knauer SH
PDB-8pfj:
fully recruited RfaH bound to E. coli transcription complex paused at ops site (not fully complementary scaffold; alternative state of RfaH)
Method: single particle / : Zuber PK, Said N, Hilal T, Loll B, Wahl MC, Knauer SH
PDB-8ph9:
E. coli RNA polymerase paused at ops site (non-complementary scaffold)
Method: single particle / : Zuber PK, Said N, Hilal T, Loll B, Wahl MC, Knauer SH
PDB-8phk:
fully recruited RfaH bound to E. coli transcription complex paused at ops site
Method: single particle / : Zuber PK, Said N, Hilal T, Loll B, Wahl MC, Knauer SH
PDB-8pib:
autoinhibited RfaH bound to E. coli transcription complex paused at ops site (encounter complex)
Method: single particle / : Zuber PK, Said N, Hilal T, Loll B, Wahl MC, Knauer SH
PDB-8pid:
backtracked E. coli transcription complex paused at ops site and bound to RfaH
Method: single particle / : Zuber PK, Said N, Hilal T, Loll B, Wahl MC, Knauer SH
PDB-8pil:
E. coli transcription complex paused at ops site and bound to RfaH and NusA
Method: single particle / : Zuber PK, Said N, Hilal T, Loll B, Wahl MC, Knauer SH
PDB-8pim:
fully recruited RfaH bound to E. coli transcription complex paused at ops site (not complementary scaffold)
Method: single particle / : Zuber PK, Said N, Hilal T, Loll B, Wahl MC, Knauer SH
EMDB-17766:
CryoEM structure of Nal1 protein, allele SPIKE, from Oryza sativa japonica group
Method: single particle / : Huang LY, Rety S, Xi XG
EMDB-17768:
CryoEM structure of Nal1 protein, allele IR64, from Oryza sativa indica cultivar
Method: single particle / : Huang LY, Rety S, Xi XG
PDB-8pn1:
CryoEM structure of Nal1 protein, allele SPIKE, from Oryza sativa japonica group
Method: single particle / : Huang LY, Rety S, Xi XG
PDB-8pn2:
CryoEM structure of Nal1 protein, allele IR64, from Oryza sativa indica cultivar
Method: single particle / : Huang LY, Rety S, Xi XG
EMDB-35163:
Cryo-EM structure of nanodisc (PE:PS:PC) reconstituted GLIC at pH 5.5
Method: single particle / : Bharambe N, Li Z, Basak S
EMDB-35164:
Cryo-EM structure of nanodisc (PE:PS:PC) reconstituted GLIC at pH 4 in closed state
Method: single particle / : Bharambe N, Li Z, Basak S
EMDB-36339:
Cryo-EM structure of nanodisc (PE:PS:PC) reconstituted GLIC at pH 2.5
Method: single particle / : Bharambe N, Li Z, Basak S
EMDB-37446:
Cryo-EM structure of nanodisc (PE:PS:PC) reconstituted GLIC at pH 4 in intermediate state
Method: single particle / : Bharambe N, Li Z, Basak S
EMDB-37447:
Cryo-EM structure of nanodisc (PE:PS:PC) reconstituted GLIC at pH 4 in open state
Method: single particle / : Bharambe N, Li Z, Basak S
PDB-8i47:
Cryo-EM structure of nanodisc (PE:PS:PC) reconstituted GLIC at pH 5.5
Method: single particle / : Bharambe N, Li Z, Basak S
PDB-8i48:
Cryo-EM structure of nanodisc (PE:PS:PC) reconstituted GLIC at pH 4 in closed state
Method: single particle / : Bharambe N, Li Z, Basak S
PDB-8jj3:
Cryo-EM structure of nanodisc (PE:PS:PC) reconstituted GLIC at pH 2.5
Method: single particle / : Bharambe N, Li Z, Basak S
PDB-8wcq:
Cryo-EM structure of nanodisc (PE:PS:PC) reconstituted GLIC at pH 4 in intermediate state
Method: single particle / : Bharambe N, Li Z, Basak S
PDB-8wcr:
Cryo-EM structure of nanodisc (PE:PS:PC) reconstituted GLIC at pH 4 in open state
Method: single particle / : Bharambe N, Li Z, Basak S
EMDB-35161:
Cryo-EM structure of nanodisc (asolectin) reconstituted GLIC at pH 7.5
Method: single particle / : Bharambe N, Li Z, Basak S
EMDB-35162:
Cryo-EM structure of nanodisc (PE:PS:PC) reconstituted GLIC at pH 7.5
Method: single particle / : Bharambe N, Li Z, Basak S
PDB-8i41:
Cryo-EM structure of nanodisc (asolectin) reconstituted GLIC at pH 7.5
Method: single particle / : Bharambe N, Li Z, Basak S
PDB-8i42:
Cryo-EM structure of nanodisc (PE:PS:PC) reconstituted GLIC at pH 7.5
Method: single particle / : Bharambe N, Li Z, Basak S
EMDB-41907:
Computationally Designed, Expandable O4 Octahedral Handshake Nanocage
Method: single particle / : Weidle C, Borst A
EMDB-42031:
Computational Designed Nanocage O43_129_+8
Method: single particle / : Weidle C, Kibler RD
EMDB-43318:
Twistless helix 12 repeat ring design R12B
Method: single particle / : Calise SJ, Kollman JM
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