A0QSG2 (RS14Z_MYCS2) Mycolicibacterium smegmatis (strain ATCC 700084 / mc(2)155) (Mycobacteriumsmegmatis)

30S ribosomal protein S14 type Z UniProtKBInterProSTRINGInteractive Modelling

61 aa; Sequence (Fasta) Identical sequences: Mycolicibacterium mageritense: A0A5C7YRN5; Mycolicibacterium peregrinum: A0A1A0W2E0; Mycolicibacterium setense: A0A0B2YU44; Mycolicibacterium smegmatis: A0A0D6H8K3; Mycobacterium sp. SWH-M3: A0A1Q4T470; Mycolicibacterium smegmatis: A0A2U9PL40; Mycolicibacterium mageritense DSM 44476 = CIP 104973: X5KRM4

Sequence Features

 24Zinc
 27Zinc
 40Zinc
 43Zinc
 9-60Ribosomal protein S14
IPR001209PF00253

Sequence Alignments

Experimental structures

DescriptionOligo-stateLigandsStructureRangeDownloadAssess
Small subunit of Mycobacterium smegmatis ribosome Heteromer
A0QR10; A0QS96; A0QS97; A0QSD0; A0QSD5; A0QSD7; A0QSE0; A0QSG3; A0QSG6; A0QSL5; A0QSL6; A0QSL7; A0QSP9; A0QV37; A0QVQ3; A0R102; A0R7F7; A0R7F9; 		48×MG;5xyu2-61
The complete structure of the Mycobacterium smegmatis 70S ribosome Heteromer
A0A0D6J3X3; A0QR10; A0QS39; A0QS45; A0QS62; A0QS96; A0QS97; A0QSD0; A0QSD1; A0QSD2; A0QSD3; A0QSD4; A0QSD5; A0QSD6; A0QSD7; A0QSD8; A0QSD9; A0QSE0; A0QSF9; A0QSG0; A0QSG1; A0QSG3; A0QSG4; A0QSG5; A0QSG6; A0QSG7; A0QSG8; A0QSL4; A0QSL5; A0QSL6; A0QSL7; A0QSL9; A0QSP8; A0QSP9; A0QTP4; A0QV03; A0QV37; A0QV42; A0QVB8; A0QVQ3; A0QYU6; A0QYU7; A0R102; A0R150; A0R151; A0R215; A0R3D2; A0R3I9; A0R7F6; A0R7F7; A0R7K0; 		625×MG;ZN;PHE;5o612-61
M. smegmatis hibernating state 70S ribosome structure Heteromer
A0A0D6J3X3; A0QR10; A0QS39; A0QS45; A0QS62; A0QS96; A0QS97; A0QSD0; A0QSD1; A0QSD2; A0QSD3; A0QSD4; A0QSD5; A0QSD6; A0QSD7; A0QSD8; A0QSD9; A0QSE0; A0QSF9; A0QSG0; A0QSG1; A0QSG3; A0QSG4; A0QSG5; A0QSG6; A0QSG7; A0QSG8; A0QSL4; A0QSL5; A0QSL6; A0QSL7; A0QSL9; A0QSP8; A0QSP9; A0QTK6; A0QTP4; A0QV03; A0QV37; A0QV42; A0QVB8; A0QVQ3; A0QYU6; A0QYU7; A0R102; A0R150; A0R151; A0R215; A0R3D2; A0R3I9; A0R7F6; A0R7F7; A0R7K0; 		5zep2-61
M. Smegmatis P/P state 70S ribosome structure Heteromer
A0A0D6J3X3; A0QR10; A0QS39; A0QS45; A0QS62; A0QS96; A0QS97; A0QSD0; A0QSD1; A0QSD2; A0QSD3; A0QSD4; A0QSD5; A0QSD6; A0QSD7; A0QSD8; A0QSD9; A0QSE0; A0QSF9; A0QSG0; A0QSG1; A0QSG3; A0QSG4; A0QSG5; A0QSG6; A0QSG7; A0QSG8; A0QSL4; A0QSL5; A0QSL6; A0QSL7; A0QSL9; A0QSP8; A0QSP9; A0QTP4; A0QV03; A0QV37; A0QV42; A0QVB8; A0QVQ3; A0QYU6; A0QYU7; A0R102; A0R150; A0R151; A0R215; A0R3D2; A0R3I9; A0R7F6; A0R7F7; A0R7K0; 		5zeb2-61
Structure of the 30S small ribosomal subunit from Mycobacterium smegmatis Heteromer
A0A0D6J3X3; A0QR10; A0QS96; A0QS97; A0QSD0; A0QSD5; A0QSD7; A0QSE0; A0QSG3; A0QSG6; A0QSL5; A0QSL6; A0QSL7; A0QSP9; A0QV37; A0QVB8; A0QVQ3; A0R102; A0R215; A0R7F7; 		217×MG;ZN;5o5j2-61
M. smegmatis P/P state 30S ribosomal subunit Heteromer
A0A0D6J3X3; A0QR10; A0QS96; A0QS97; A0QSD0; A0QSD5; A0QSD7; A0QSE0; A0QSG3; A0QSG6; A0QSL5; A0QSL6; A0QSL7; A0QSP9; A0QV37; A0QVB8; A0QVQ3; A0R102; A0R7F7; 		5zeu2-61