A3M6Q4 (RS6_ACIBT) Acinetobacter baumannii (strain ATCC 17978 / DSM 105126 / CIP 5377 / LMG1025 / NCDC KC755 / 5377)
Small ribosomal subunit protein bS6 UniProtKBInterProInteractive Modelling
127 aa; Sequence (Fasta) ;
24 identical sequences
It is possible new templates exist for this target since these models were created.
Available Structures
20 Experimental Structures
| Description | PDB ID | Oligo-state | Range | Seq id (%) | Ligands | |
|---|---|---|---|---|---|---|
| A. baumannii Ribosome-TP-6076 complex: P-site tRNA 70S |
Heteromer A0A009I821; A0A1V3DIZ9; A0A4R0F9S8; A0A7U4DFF9; B7I3U0; B7I5N9; B7I693; B7I6V8; B7I6V9; B7I7A4; B7I7B6; B7I7R9; B7I7S0; B7I9B0; B7IA13; B7IA15; B7IA17; B7IA18; B7IA20; B7IA22; B7IA23; B7IA24; B7IA25; B7IA26; B7IA27; B7IA28; B7IA30; B7IA31; B7IA32; B7IA35; B7IA36; B7IA37; B7IA38; B7IA39; B7IAS9; B7IBC1; B7IBC3; N8SHC6; V5V9N0; V5VBA5; V5VBC2; V5VGC9; | 100 | 1×ZN; 3×80P; 4×MG; | |||
| A. baumannii Ribosome-TP-6076 complex: E-site tRNA 70S |
Heteromer A0A009I821; A0A1V3DIZ9; A0A4R0F9S8; A0A7U4DFF9; B7I3U0; B7I5N9; B7I693; B7I6V8; B7I6V9; B7I7A4; B7I7B6; B7I7R9; B7I7S0; B7I9B0; B7IA13; B7IA15; B7IA17; B7IA18; B7IA20; B7IA22; B7IA23; B7IA24; B7IA25; B7IA26; B7IA27; B7IA28; B7IA30; B7IA31; B7IA32; B7IA35; B7IA36; B7IA37; B7IA38; B7IA39; B7IAS9; B7IBC1; B7IBC3; N8SHC6; V5V9N0; V5VBA5; V5VBC2; V5VGC9; | 100 | 1×ZN; 3×80P; 4×MG; | |||
| A. baumannii Ribosome-TP-6076 complex: Empty 70S |
Heteromer A0A009I821; A0A1V3DIZ9; A0A4R0F9S8; A0A7U4DFF9; B7I3U0; B7I5N9; B7I693; B7I6V8; B7I6V9; B7I7A4; B7I7B6; B7I7R9; B7I7S0; B7I9B0; B7IA13; B7IA15; B7IA17; B7IA18; B7IA20; B7IA22; B7IA23; B7IA24; B7IA25; B7IA26; B7IA27; B7IA28; B7IA30; B7IA31; B7IA32; B7IA35; B7IA36; B7IA37; B7IA38; B7IA39; B7IAS9; B7IBC1; B7IBC3; N8SHC6; V5V9N0; V5VBA5; V5VBC2; V5VGC9; | 100 | 1×ZN; 3×80P; 4×MG; | |||
| A. baumannii Ribosome-Eravacycline complex: 30S |
Heteromer A0A1V3DIZ9; A0A7U3Y808; A0A7U3Y815; B7I2K7; B7I3U0; B7I5N9; B7I7R9; B7I7S0; B7IA15; B7IA16; B7IA17; B7IA22; B7IA25; B7IA26; B7IA30; B7IA33; B7IA35; B7IA40; B7IBC1; B7IBC2; | 100 | 1×YQM; 83×MG; | |||
| A. baumannii ribosome-Streptothricin-F complex: 70S with P-site tRNA |
Heteromer A0A009I821; A0A1V3DIZ9; A0A4R0F9S8; A0A7U4DFF9; B7I3U0; B7I5N9; B7I693; B7I6V8; B7I6V9; B7I7A4; B7I7B6; B7I7R9; B7I7S0; B7I9B0; B7IA13; B7IA15; B7IA17; B7IA18; B7IA20; B7IA21; B7IA22; B7IA23; B7IA24; B7IA25; B7IA26; B7IA27; B7IA28; B7IA30; B7IA31; B7IA32; B7IA35; B7IA36; B7IA37; B7IA38; B7IA39; B7IAS9; B7IBC1; B7IBC3; N8SHC6; V5V9N0; V5VBA5; V5VBC2; V5VGC9; | 100 | 1×ZN; 2×OI9; | |||
| A. baumannii Ribosome-Eravacycline complex: Empty 70S |
Heteromer A0A009I821; A0A1V3DIZ9; A0A4R0F9S8; B7I3U0; B7I5N9; B7I693; B7I6V8; B7I6V9; B7I7A4; B7I7B6; B7I7R9; B7I7S0; B7I9B0; B7IA13; B7IA15; B7IA17; B7IA20; B7IA22; B7IA23; B7IA24; B7IA25; B7IA26; B7IA27; B7IA28; B7IA30; B7IA31; B7IA32; B7IA35; B7IA36; B7IA37; B7IA38; B7IA39; B7IAS9; B7IBC1; B7IBC3; N9NZ44; V5V9N0; V5VBA5; V5VBC2; V5VGC9; | 100 | 1×ZN; 3×YQM; 191×MG; | |||
| A. baumannii ribosome: 70S with E-site tRNA |
Heteromer A0A009I821; A0A1V3DIZ9; A0A4R0F9S8; A0A7U4DFF9; B7I3U0; B7I5N9; B7I693; B7I6V8; B7I6V9; B7I7A4; B7I7B6; B7I7R9; B7I7S0; B7I9B0; B7IA13; B7IA15; B7IA17; B7IA18; B7IA20; B7IA21; B7IA22; B7IA23; B7IA24; B7IA25; B7IA26; B7IA27; B7IA28; B7IA30; B7IA31; B7IA32; B7IA35; B7IA36; B7IA37; B7IA38; B7IA39; B7IAS9; B7IBC1; B7IBC3; N8SHC6; V5V9N0; V5VBA5; V5VBC2; V5VGC9; | 100 | 1×ZN; | |||
| A. baumannii Ribosome-Eravacycline complex: P-site tRNA 70S |
Heteromer A0A009I821; A0A1V3DIZ9; B7I3U0; B7I5N9; B7I693; B7I6V8; B7I6V9; B7I7A4; B7I7B6; B7I7R9; B7I7S0; B7I9B0; B7IA13; B7IA15; B7IA17; B7IA20; B7IA22; B7IA23; B7IA24; B7IA25; B7IA26; B7IA27; B7IA28; B7IA30; B7IA31; B7IA32; B7IA35; B7IA36; B7IA37; B7IA38; B7IA39; B7IAS9; B7IBC1; B7IBC3; N9JUR3; V5V9N0; V5VBA5; V5VBC2; V5VGC9; | 100 | 1×ZN; 3×YQM; 190×MG; | |||
| A. baumannii 70S ribosome-Streptothricin-F complex |
Heteromer A0A009I821; A0A1V3DIZ9; A0A372MP10; A0A4R0F9S8; A0A7U4DFF9; B7I3U0; B7I5N9; B7I693; B7I6V8; B7I6V9; B7I7A4; B7I7B6; B7I7R9; B7I7S0; B7I9B0; B7IA13; B7IA15; B7IA17; B7IA18; B7IA20; B7IA21; B7IA22; B7IA23; B7IA24; B7IA25; B7IA26; B7IA27; B7IA28; B7IA30; B7IA31; B7IA32; B7IA35; B7IA36; B7IA37; B7IA38; B7IA39; B7IAS9; B7IBC1; B7IBC3; N8SHC6; V5V9N0; V5VBA5; V5VBC2; V5VGC9; | 100 | 1×ZN; 1×OI9; | |||
| A. baumannii Ribosome-Eravacycline complex: E-site tRNA 70S |
Heteromer A0A009I821; A0A1V3DIZ9; A0A4R0F9S8; B7I3U0; B7I5N9; B7I693; B7I6V8; B7I6V9; B7I7A4; B7I7B6; B7I7R9; B7I7S0; B7I9B0; B7IA13; B7IA15; B7IA17; B7IA20; B7IA22; B7IA23; B7IA24; B7IA25; B7IA26; B7IA27; B7IA28; B7IA30; B7IA31; B7IA32; B7IA35; B7IA36; B7IA37; B7IA38; B7IA39; B7IAS9; B7IBC1; B7IBC3; N8SHC6; V5V9N0; V5VBA5; V5VBC2; V5VGC9; | 100 | 1×ZN; 3×YQM; 196×MG; | |||
| A. baumannii ribosome-Streptothricin-D complex: 70S with P-site tRNA |
Heteromer A0A009I821; A0A1V3DIZ9; A0A372MP10; A0A4R0F9S8; A0A7U4DFF9; B7I3U0; B7I5N9; B7I693; B7I6V8; B7I6V9; B7I7A4; B7I7B6; B7I7R9; B7I7S0; B7I9B0; B7IA13; B7IA15; B7IA17; B7IA18; B7IA20; B7IA21; B7IA22; B7IA23; B7IA24; B7IA25; B7IA26; B7IA27; B7IA28; B7IA30; B7IA31; B7IA32; B7IA35; B7IA36; B7IA37; B7IA38; B7IA39; B7IAS9; B7IBC1; B7IBC3; N8SHC6; V5V9N0; V5VBA5; V5VBC2; V5VGC9; | 100 | 1×ZN; 12×OIY; 1×MG; | |||
| A. baumannii Ribosome-Eravacycline complex: hpf-bound 70S |
Heteromer A0A009I821; A0A1V3DIZ9; A0A4R0F9S8; B7I3U0; B7I5N9; B7I693; B7I6V8; B7I6V9; B7I7A4; B7I7B6; B7I7R9; B7I7S0; B7I9B0; B7IA13; B7IA15; B7IA17; B7IA20; B7IA22; B7IA23; B7IA24; B7IA25; B7IA26; B7IA27; B7IA28; B7IA30; B7IA31; B7IA32; B7IA35; B7IA36; B7IA37; B7IA38; B7IA39; B7IAS9; B7IBC1; B7IBC3; N8SHC6; V5V8V8; V5V9N0; V5VBA5; V5VBC2; V5VGC9; | 100 | 1×ZN; 2×YQM; 187×MG; | |||
| A. baumannii ribosome-Streptothricin-D complex: 70S with E-site tRNA |
Heteromer A0A009I821; A0A1V3DIZ9; A0A372MP10; A0A4R0F9S8; A0A7U4DFF9; B7I3U0; B7I5N9; B7I693; B7I6V8; B7I6V9; B7I7A4; B7I7B6; B7I7R9; B7I7S0; B7I9B0; B7IA13; B7IA15; B7IA17; B7IA18; B7IA20; B7IA21; B7IA22; B7IA23; B7IA24; B7IA25; B7IA26; B7IA27; B7IA28; B7IA30; B7IA31; B7IA32; B7IA35; B7IA36; B7IA37; B7IA38; B7IA39; B7IAS9; B7IBC1; B7IBC3; N8SHC6; V5V9N0; V5VBA5; V5VBC2; V5VGC9; | 100 | 1×ZN; 11×OIY; 1×MG; | |||
| A. baumannii 70S ribosome-Streptothricin-D complex |
Heteromer A0A009I821; A0A1V3DIZ9; A0A372MP10; A0A4R0F9S8; A0A7U4DFF9; B7I3U0; B7I5N9; B7I693; B7I6V8; B7I6V9; B7I7A4; B7I7B6; B7I7R9; B7I7S0; B7I9B0; B7IA13; B7IA15; B7IA17; B7IA18; B7IA20; B7IA21; B7IA22; B7IA23; B7IA24; B7IA25; B7IA26; B7IA27; B7IA28; B7IA30; B7IA31; B7IA32; B7IA35; B7IA36; B7IA37; B7IA38; B7IA39; B7IAS9; B7IBC1; B7IBC3; N8SHC6; V5V9N0; V5VBA5; V5VBC2; V5VGC9; | 100 | 1×ZN; 12×OIY; 1×MG; | |||
| Acinetobacter baumannii ribosome-amikacin complex - 30S subunit body |
Heteromer D0C5Q3; D0C5Y9; D0C5Z0; D0C7N1; D0C9P6; D0CAU9; D0CC74; D0CCR5; D0CD06; D0CD11; D0CD14; D0CD20; D0CD21; | 100 | 59×MG; 1×AKN; | |||
| Acinetobacter baumannii ribosome-tigecycline complex - 30S subunit body |
Heteromer D0C5Q3; D0C5Y9; D0C5Z0; D0C7N1; D0C9P6; D0CAU9; D0CC74; D0CCR5; D0CD06; D0CD11; D0CD14; D0CD20; D0CD21; | 100 | 56×MG; | |||
| Cryo-EM structure of the Acinetobacter baumannii Ribosome: 30S subunit |
Heteromer A0A062C259; A0A150HZL5; A0A1V3DIZ9; B7I3U0; B7I5N9; B7I7R9; B7I7S0; B7IA15; B7IA17; B7IA22; B7IA25; B7IA26; B7IA30; B7IA35; B7IBC1; V5V9N0; V5VBA5; V5VBC2; | 100 | ||||
| Cryo-EM structure of the Acinetobacter baumannii Ribosome: 70S with P-site tRNA |
Heteromer A0A009QSN8; A0A062C259; A0A062C3F9; A0A150HZL5; A0A1V3DIZ9; A0A1Y3CHB1; B7I3U0; B7I5N9; B7I693; B7I6V8; B7I6V9; B7I7A4; B7I7B6; B7I7R9; B7I7S0; B7I9B0; B7IA13; B7IA15; B7IA17; B7IA20; B7IA22; B7IA23; B7IA24; B7IA25; B7IA26; B7IA27; B7IA28; B7IA30; B7IA31; B7IA32; B7IA35; B7IA36; B7IA37; B7IA38; B7IA39; B7IAS9; B7IBC1; B7IBC3; N8V730; N9DYI8; N9NZ44; S3NQR5; V5V9N0; V5VBA5; V5VBC2; V5VGC9; | 100 | 1×ZN; 1×FME; 114×MG; 1×NA; | |||
| Cryo-EM structure of the Acinetobacter baumannii Ribosome: 70S with E-site tRNA |
Heteromer A0A009QSN8; A0A062C259; A0A062C3F9; A0A150HZL5; A0A1V3DIZ9; A0A1Y3CHB1; B7I3U0; B7I5N9; B7I693; B7I6V8; B7I6V9; B7I7A4; B7I7B6; B7I7R9; B7I7S0; B7I9B0; B7IA13; B7IA15; B7IA17; B7IA20; B7IA22; B7IA23; B7IA24; B7IA25; B7IA26; B7IA27; B7IA28; B7IA30; B7IA31; B7IA32; B7IA35; B7IA36; B7IA37; B7IA38; B7IA39; B7IAS9; B7IBC1; B7IBC3; N8V730; N9DYI8; N9NZ44; S3NQR5; V5V9N0; V5VBA5; V5VBC2; V5VGC9; | 100 | 1×ZN; 93×MG; 1×NA; | |||
| Cryo-EM structure of the Acinetobacter baumannii Ribosome: 70S in Empty state |
Heteromer A0A009QSN8; A0A062C259; A0A062C3F9; A0A150HZL5; A0A1V3DIZ9; A0A1Y3CHB1; B7I3U0; B7I5N9; B7I693; B7I6V8; B7I6V9; B7I7A4; B7I7B6; B7I7R9; B7I7S0; B7I9B0; B7IA13; B7IA15; B7IA17; B7IA20; B7IA22; B7IA23; B7IA24; B7IA25; B7IA26; B7IA27; B7IA28; B7IA30; B7IA31; B7IA32; B7IA35; B7IA36; B7IA37; B7IA38; B7IA39; B7IAS9; B7IBC1; B7IBC3; N8V730; N9DYI8; N9NZ44; S3NQR5; V5V9N0; V5VBA5; V5VBC2; V5VGC9; | 100 | 1×ZN; 93×MG; 1×NA; | |||
1 SWISS-MODEL model
| Template | Oligo-state | QMEAN | Range | Ligands | Trg-Tpl Seq id (%) | |
|---|---|---|---|---|---|---|
| 7uvy.1.9 | monomer | 0.79 | 100.00 | |||