P9WHC3 (RL21_MYCTU) Mycobacterium tuberculosis (strain ATCC 25618 / H37Rv)

Large ribosomal subunit protein bL21 UniProtKBInterProSTRINGInteractive Modelling

103 aa; Sequence (Fasta) ; 5 identical sequences: Mycobacterium tuberculosis: P9WHC2, A0A0H3LIL4; Mycobacterium bovis: P66118; Mycobacterium tuberculosis variant pinnipedii: A0AAX1PTZ6; Mycobacterium tuberculosis: A0A0E7ZI44

Available Structures

11 Experimental Structures

DescriptionPDB IDOligo-stateRangeSeq id (%)Ligands
Mtb 70S initiation complex Heteromer
A0A0T9D5H2; A0A0U0UFA0; P0DV54; P9WH25; P9WH27; P9WH29; P9WH31; P9WH33; P9WH35; P9WH37; P9WH41; P9WH45; P9WH49; P9WH51; P9WH53; P9WH55; P9WH57; P9WH61; P9WH63; P9WH65; P9WH67; P9WH79; P9WH81; P9WH83; P9WH85; P9WH87; P9WH89; P9WH91; P9WH93; P9WH95; P9WH99; P9WHA1; P9WHA3; P9WHA5; P9WHA7; P9WHB3; P9WHB5; P9WHB7; P9WHB9; P9WHC1; P9WHC5; P9WHC7; P9WHC9; P9WHD1; P9WHD3; P9WHD5; P9WHD7; P9WHD9;
3-102
100ZN; 443×MG;FME;
Mtb 70S with P and E site tRNAs Heteromer
A0A0T9D5H2; A0A0U0UFA0; P0DV54; P9WH25; P9WH27; P9WH29; P9WH31; P9WH33; P9WH35; P9WH37; P9WH41; P9WH45; P9WH49; P9WH51; P9WH53; P9WH55; P9WH57; P9WH61; P9WH63; P9WH65; P9WH67; P9WH79; P9WH81; P9WH83; P9WH85; P9WH87; P9WH89; P9WH91; P9WH93; P9WH95; P9WH99; P9WHA1; P9WHA3; P9WHA5; P9WHA7; P9WHB3; P9WHB5; P9WHB7; P9WHB9; P9WHC1; P9WHC5; P9WHC7; P9WHC9; P9WHD1; P9WHD3; P9WHD5; P9WHD7; P9WHD9;
3-102
100ZN; 443×MG;FME;
Mtb 70SIC in complex with MtbEttA at Pre_R0 state Heteromer
A0A0T9D5H2; A0A0U0UFA0; P0DV54; P9WH25; P9WH27; P9WH29; P9WH31; P9WH33; P9WH35; P9WH37; P9WH41; P9WH45; P9WH49; P9WH51; P9WH53; P9WH55; P9WH57; P9WH61; P9WH63; P9WH65; P9WH67; P9WH79; P9WH81; P9WH83; P9WH85; P9WH87; P9WH89; P9WH91; P9WH93; P9WH95; P9WH99; P9WHA1; P9WHA3; P9WHA5; P9WHA7; P9WHB3; P9WHB5; P9WHB7; P9WHB9; P9WHC1; P9WHC5; P9WHC7; P9WHC9; P9WHD1; P9WHD3; P9WHD5; P9WHD7; P9WHD9; P9WQK3;
3-102
100ZN; 445×MG;ANP;FME;
CryoEM structure of A2296-methylated Mycobacterium tuberculosis ribosome bound with SEQ-9 Heteromer
A0A0T9D5H2; A0A0U0UFA0; P0DV54; P9WH25; P9WH27; P9WH29; P9WH31; P9WH33; P9WH35; P9WH37; P9WH41; P9WH45; P9WH49; P9WH51; P9WH53; P9WH55; P9WH57; P9WH61; P9WH63; P9WH65; P9WH67; P9WH79; P9WH81; P9WH83; P9WH85; P9WH87; P9WH89; P9WH91; P9WH93; P9WH95; P9WH99; P9WHA1; P9WHA3; P9WHA5; P9WHA7; P9WHB3; P9WHB5; P9WHB7; P9WHB9; P9WHC1; P9WHC5; P9WHC9; P9WHD1; P9WHD3; P9WHD5; P9WHD7; P9WHD9;
3-102
100ZN;WDP; 447×MG;
Mtb 70SIC in complex with MtbEttA at Pre_R1 state Heteromer
A0A0T9D5H2; A0A0U0UFA0; P0DV54; P9WH25; P9WH27; P9WH29; P9WH31; P9WH33; P9WH35; P9WH37; P9WH41; P9WH45; P9WH49; P9WH51; P9WH53; P9WH55; P9WH57; P9WH61; P9WH63; P9WH65; P9WH67; P9WH79; P9WH81; P9WH83; P9WH85; P9WH87; P9WH89; P9WH91; P9WH93; P9WH95; P9WH99; P9WHA1; P9WHA3; P9WHA5; P9WHA7; P9WHB3; P9WHB5; P9WHB7; P9WHB9; P9WHC1; P9WHC5; P9WHC7; P9WHC9; P9WHD1; P9WHD3; P9WHD5; P9WHD7; P9WHD9; P9WQK3;
3-102
100ZN; 420×MG;ANP;
Mtb 70SIC in complex with MtbEttA at Trans_R0 state Heteromer
A0A0T9D5H2; A0A0U0UFA0; P0DV54; P9WH25; P9WH27; P9WH29; P9WH31; P9WH33; P9WH35; P9WH37; P9WH41; P9WH45; P9WH49; P9WH51; P9WH53; P9WH55; P9WH57; P9WH61; P9WH63; P9WH65; P9WH67; P9WH79; P9WH81; P9WH83; P9WH85; P9WH87; P9WH89; P9WH91; P9WH93; P9WH95; P9WH99; P9WHA1; P9WHA3; P9WHA5; P9WHA7; P9WHB3; P9WHB5; P9WHB7; P9WHB9; P9WHC1; P9WHC5; P9WHC7; P9WHC9; P9WHD1; P9WHD3; P9WHD5; P9WHD7; P9WHD9; P9WQK3;
3-102
100ZN; 445×MG;ADP;VO4;FME;
Mtb 70S with P/E tRNA Heteromer
A0A0T9D5H2; A0A0U0UFA0; P0DV54; P9WH25; P9WH27; P9WH29; P9WH31; P9WH33; P9WH35; P9WH37; P9WH41; P9WH45; P9WH49; P9WH51; P9WH53; P9WH55; P9WH57; P9WH61; P9WH63; P9WH65; P9WH67; P9WH79; P9WH81; P9WH83; P9WH85; P9WH87; P9WH89; P9WH91; P9WH93; P9WH95; P9WH99; P9WHA1; P9WHA3; P9WHA5; P9WHA7; P9WHB3; P9WHB5; P9WHB7; P9WHB9; P9WHC1; P9WHC5; P9WHC7; P9WHC9; P9WHD1; P9WHD3; P9WHD5; P9WHD7; P9WHD9;
3-102
100ZN; 435×MG;
Mtb 70SIC in complex with MtbEttA at Trans_R1 state Heteromer
A0A0T9D5H2; A0A0U0UFA0; P0DV54; P9WH25; P9WH27; P9WH29; P9WH31; P9WH33; P9WH35; P9WH37; P9WH41; P9WH45; P9WH49; P9WH51; P9WH53; P9WH55; P9WH57; P9WH61; P9WH63; P9WH65; P9WH67; P9WH79; P9WH81; P9WH83; P9WH85; P9WH87; P9WH89; P9WH91; P9WH93; P9WH95; P9WH99; P9WHA1; P9WHA3; P9WHA5; P9WHA7; P9WHB3; P9WHB5; P9WHB7; P9WHB9; P9WHC1; P9WHC5; P9WHC7; P9WHC9; P9WHD1; P9WHD3; P9WHD5; P9WHD7; P9WHD9; P9WQK3;
3-102
100ZN; 417×MG;ADP;VO4;FME;
Unmethylated Mtb Ribosome 50S with SEQ-9 Heteromer
A0A0T9D5H2; A0A0U0UFA0; P0DV54; P9WH25; P9WH27; P9WH29; P9WH31; P9WH33; P9WH35; P9WH37; P9WH41; P9WH45; P9WH49; P9WH51; P9WH53; P9WH55; P9WH57; P9WH61; P9WH63; P9WH65; P9WH67; P9WH79; P9WH81; P9WH83; P9WH85; P9WH87; P9WH89; P9WH91; P9WH93; P9WH95; P9WH99; P9WHA1; P9WHA3; P9WHA5; P9WHA7; P9WHB3; P9WHB5; P9WHB7; P9WHB9; P9WHC1; P9WHC5; P9WHC9; P9WHD1; P9WHD3; P9WHD5; P9WHD7; P9WHD9;
3-102
100ZN;WDP; 447×MG;
Cryo-EM structure of the large ribosomal subunit from Mycobacterium tuberculosis bound with a poten… Heteromer
P0DV54; P9WH79; P9WH81; P9WH83; P9WH85; P9WH87; P9WH89; P9WH91; P9WH93; P9WH95; P9WH99; P9WHA1; P9WHA3; P9WHA5; P9WHA7; P9WHB3; P9WHB5; P9WHB7; P9WHB9; P9WHC1; P9WHC5; P9WHC9; P9WHD1; P9WHD3; P9WHD5; P9WHD7; P9WHD9; P9WHE1;
4-101
100917;
Cryo-EM structure of the 70S ribosome from Mycobacterium tuberculosis bound with Capreomycin Heteromer
P0DV54; P9WH25; P9WH27; P9WH29; P9WH31; P9WH33; P9WH35; P9WH37; P9WH41; P9WH45; P9WH49; P9WH51; P9WH53; P9WH55; P9WH57; P9WH61; P9WH63; P9WH65; P9WH67; P9WH79; P9WH81; P9WH83; P9WH85; P9WH87; P9WH89; P9WH91; P9WH93; P9WH99; P9WHA1; P9WHA3; P9WHA7; P9WHB3; P9WHB5; P9WHB7; P9WHB9; P9WHC1; P9WHC5; P9WHC9; P9WHD1; P9WHD3; P9WHD5; P9WHD7; P9WHD9; P9WHE1; P9WKT5;
4-101
100

1 SWISS-MODEL model

TemplateOligo-stateQMEANDisCoRangeLigandsTrg-Tpl Seq id (%)
7msc.1.Ymonomer0.823-102
100.00