RegulonDB RegulonDB 10.9: Gene Form
   

rpsK gene in Escherichia coli K-12 genome


Gene local context to scale (view description)

rpsD rpsK rpsM Cis-reg TSS_3668 TSS_3668 TSS_3667 (cluster) TSS_3667 (cluster) TSS_3666 TSS_3666 TSS_3665 (cluster) TSS_3665 (cluster) TSS_3664 TSS_3664 TSS_3663 (cluster) TSS_3663 (cluster) TSS_3662 (cluster) TSS_3662 (cluster) TSS_3661 (cluster) TSS_3661 (cluster) TSS_3660 TSS_3660 TSS_3659 TSS_3659 TSS_3658 TSS_3658 TSS_3657 TSS_3657 TSS_3656 TSS_3656 TSS_3655 TSS_3655 TSS_3654 TSS_3654 TSS_3653 TSS_3653 TSS_3652 TSS_3652 TSS_3651 TSS_3651 TSS_3650 TSS_3650 TSS_3649 TSS_3649 TSS_3648 TSS_3648 TSS_3647 TSS_3647 TSS_3646 TSS_3646 TSS_3645 TSS_3645 TSS_3644 TSS_3644 TSS_3643 TSS_3643 TSS_3642 TSS_3642 TSS_3641 TSS_3641 TSS_3640 TSS_3640 TSS_3639 (cluster) TSS_3639 (cluster) TSS_3638 TSS_3638 TSS_3637 (cluster) TSS_3637 (cluster) TSS_3636 (cluster) TSS_3636 (cluster) TSS_3635 TSS_3635 TSS_3634 TSS_3634 TSS_3633 (cluster) TSS_3633 (cluster) TSS_3632 TSS_3632 TSS_3631 TSS_3631 TSS_3630 TSS_3630 TSS_3629 (cluster) TSS_3629 (cluster)

Gene      
Name: rpsK    Texpresso search in the literature
Synonym(s): ECK3284, EG10910, b3297
Genome position(nucleotides): 3441709 <-- 3442098 Genome Browser
Strand: reverse
Sequence: Get nucleotide sequence FastaFormat
GC content %:  
51.54
External database links:  
ASAP:
ABE-0010807
CGSC:
221
ECHOBASE:
EB0903
ECOLIHUB:
rpsK
OU-MICROARRAY:
b3297
STRING:
511145.b3297
COLOMBOS: rpsK


Product      
Name: 30S ribosomal subunit protein S11
Synonym(s): RpsK
Sequence: Get amino acid sequence Fasta Format
Cellular location: ribosome,cytosol
Molecular weight: 13.845
Isoelectric point: 11.886
Motif(s):
 
Type Positions Sequence
2 -> 129 AKAPIRARKRVRKQVSDGVAHIHASFNNTIVTITDRQGNALGWATAGGSGFRGSRKSTPFAAQVAAERCADAVKEYGIKNLEVMVKGPGPGRESTIRALNAAGFRITNITDVTPIPHNGCRPPKKRRV
19 -> 128 GVAHIHASFNNTIVTITDRQGNALGWATAGGSGFRGSRKSTPFAAQVAAERCADAVKEYGIKNLEVMVKGPGPGRESTIRALNAAGFRITNITDVTPIPHNGCRPPKKRR

 

Classification:
Multifun Terms (GenProtEC)  
  2 - information transfer --> 2.3 - protein related --> 2.3.2 - translation
  2 - information transfer --> 2.3 - protein related --> 2.3.8 - ribosomal proteins
  6 - cell structure --> 6.6 - ribosomes
Gene Ontology Terms (GO)  
cellular_component GO:0005829 - cytosol
GO:0005840 - ribosome
GO:0022627 - cytosolic small ribosomal subunit
molecular_function GO:0003735 - structural constituent of ribosome
GO:0005515 - protein binding
GO:0003723 - RNA binding
GO:0019843 - rRNA binding
GO:0048027 - mRNA 5'-UTR binding
GO:0070181 - small ribosomal subunit rRNA binding
biological_process GO:0006412 - translation
GO:0000028 - ribosomal small subunit assembly
GO:0000462 - maturation of SSU-rRNA from tricistronic rRNA transcript (SSU-rRNA, 5.8S rRNA, LSU-rRNA)
Note(s): Note(s): ...[more].
Reference(s): [1] Abdurashidova GG., et al., 1985
[2] Babkina GT., et al., 1984
[3] Babkina GT., et al., 1984
[4] Babkina GT., et al., 1988
[5] Bausk EV., et al., 1985
[6] Bedwell D., et al., 1985
[7] Brewer LA., et al., 1983
[8] Broude NE., et al., 1985
[9] Budowsky EI., et al., 1986
[10] Cantrell M., et al., 1977
[11] Culver GM., et al., 1999
[12] Dean D., et al., 1980
[13] Doring T., et al., 1994
[14] Ewald R., et al., 1976
[15] Fanning TG., et al., 1978
[16] Gimautdinova OI., et al., 1981
[17] Gimautdinova OI., et al., 1981
[18] Gimautdinova OI., et al., 1982
[19] Gimautdinova OI., et al., 1984
[20] Gorelic L. 1976
[21] Hardy SJ., et al., 1969
[22] Held WA., et al., 1973
[23] Held WA., et al., 1975
[24] Highland JH., et al., 1974
[25] Hochkeppel HK., et al., 1976
[26] Hochkeppel HK., et al., 1976
[27] Iusupov MM., et al., 1986
[28] Jaskunas SR., et al., 1975
[29] Jaskunas SR., et al., 1977
[30] Jinks-Robertson S., et al., 1982
[31] Kamp RM., et al., 1983
[32] Lake JA., et al., 1975
[33] Lelong JC., et al., 1974
[34] Melancon P., et al., 1984
[35] Michalski CJ., et al., 1975
[36] Morosyuk SV., et al., 2001
[37] Mueller F., et al., 1997
[38] Mulder AM., et al., 2010
[39] Post LE., et al., 1980
[40] Potapov AP. 1988
[41] Powers T., et al., 1995
[42] Ramakrishnan V., et al., 1984
[43] Ramakrishnan VR., et al., 1981
[44] Schindler DG., et al., 1979
[45] Singer P., et al., 1985
[46] Spirin AS., et al., 1996
[47] Stoffler-Meilicke M., et al., 1987
[48] Ulmer E., et al., 1978
[49] Vladimirov SN., et al., 1985
[50] Yates JL., et al., 1980
[51] Yusupov MM., et al., 1986
External database links:  
DIP:
DIP-47838N
ECOCYC:
EG10910-MONOMER
ECOLIWIKI:
b3297
INTERPRO:
IPR036967
INTERPRO:
IPR019981
INTERPRO:
IPR001971
INTERPRO:
IPR018102
PANTHER:
PTHR11759
PDB:
1M5G
PDB:
2YKR
PDB:
3J9Y
PDB:
3J9Z
PDB:
3JA1
PDB:
3JBU
PDB:
3JBV
PDB:
3JCD
PDB:
3JCE
PDB:
3JCJ
PDB:
3JCN
PDB:
4A2I
PDB:
4ADV
PDB:
4U1U
PDB:
4U1V
PDB:
4U20
PDB:
4U24
PDB:
4U25
PDB:
4U26
PDB:
4U27
PDB:
4V47
PDB:
4V48
PDB:
4V4H
PDB:
4V4Q
PDB:
4V4V
PDB:
4V4W
PDB:
4V50
PDB:
4V52
PDB:
4V53
PDB:
4V54
PDB:
4V55
PDB:
4V56
PDB:
4V57
PDB:
4V5B
PDB:
4V5H
PDB:
4V5Y
PDB:
4V64
PDB:
4V65
PDB:
4V66
PDB:
4V69
PDB:
4V6C
PDB:
4V6D
PDB:
4V6E
PDB:
4V6K
PDB:
4V6L
PDB:
4V6M
PDB:
4V6N
PDB:
4V6O
PDB:
4V6P
PDB:
4V6Q
PDB:
4V6R
PDB:
4V6S
PDB:
4V6T
PDB:
4V6V
PDB:
4V6Y
PDB:
4V6Z
PDB:
4V70
PDB:
4V71
PDB:
4V72
PDB:
4V73
PDB:
4V74
PDB:
4V75
PDB:
4V76
PDB:
4V77
PDB:
4V78
PDB:
4V79
PDB:
4V7A
PDB:
4V7B
PDB:
4V7C
PDB:
4V7D
PDB:
4V7I
PDB:
4V7S
PDB:
4V7T
PDB:
4V7U
PDB:
4V7V
PDB:
4V85
PDB:
4V89
PDB:
4V9C
PDB:
4V9D
PDB:
4V9O
PDB:
4V9P
PDB:
4WF1
PDB:
4WOI
PDB:
4WWW
PDB:
4YBB
PDB:
5AFI
PDB:
5H5U
PDB:
5IQR
PDB:
5IT8
PDB:
5J5B
PDB:
5J7L
PDB:
5J88
PDB:
5J8A
PDB:
5J91
PDB:
5JC9
PDB:
5JTE
PDB:
5JU8
PDB:
5KCR
PDB:
5KCS
PDB:
5KPS
PDB:
5KPV
PDB:
5KPW
PDB:
5KPX
PDB:
5L3P
PDB:
5LZA
PDB:
5LZB
PDB:
5LZC
PDB:
5LZD
PDB:
5LZE
PDB:
5LZF
PDB:
5MDV
PDB:
5MDW
PDB:
5MDY
PDB:
5MDZ
PDB:
5ME0
PDB:
5ME1
PDB:
5MGP
PDB:
5MY1
PDB:
5NO2
PDB:
5NO3
PDB:
5NO4
PDB:
5NP6
PDB:
5NWY
PDB:
5O2R
PDB:
5U4I
PDB:
5U9F
PDB:
5U9G
PDB:
5UYK
PDB:
5UYL
PDB:
5UYM
PDB:
5UYN
PDB:
5UYP
PDB:
5UYQ
PDB:
5WDT
PDB:
5WE4
PDB:
5WE6
PDB:
5WFK
PDB:
6BU8
PDB:
6BY1
PDB:
6C4I
PDB:
6ENF
PDB:
6ENJ
PDB:
6ENU
PDB:
6GWT
PDB:
6GXM
PDB:
6GXN
PDB:
6GXO
PDB:
6GXP
PDB:
6H4N
PDB:
6H58
PDB:
6HRM
PDB:
6I7V
PDB:
6O7K
PDB:
6O9J
PDB:
6O9K
PDB:
6OFX
PDB:
6OG7
PDB:
6ORE
PDB:
6ORL
PDB:
6OSK
PDB:
6OSQ
PDB:
6OST
PDB:
6OT3
PDB:
6OUO
PDB:
6Q97
PDB:
6Q98
PDB:
6Q9A
PDB:
6SZS
PDB:
6TBV
PDB:
6TC3
PFAM:
PF00411
PRIDE:
P0A7R9
PRODB:
PRO_000023864
PROSITE:
PS00054
REFSEQ:
NP_417756
SMR:
P0A7R9
UNIPROT:
P0A7R9


Operon      
Name: rpsMKD-rpoA-rplQ         
Operon arrangement:
Transcription unit        Promoter
rpsMKD-rpoA-rplQ
rpsMKD-rpoA-rplQ


Elements in the selected gene context region unrelated to any object in RegulonDB      

  Type Name Post Left Post Right Strand Notes Evidence (Confirmed, Strong, Weak) References
  promoter TSS_3629 (cluster) 3441078 reverse For this promoter, there
Read more >
[RS-EPT-CBR] [52]
  promoter TSS_3630 3441080 forward nd [RS-EPT-CBR] [52]
  promoter TSS_3631 3441085 reverse nd [RS-EPT-CBR] [52]
  promoter TSS_3632 3441141 reverse nd [RS-EPT-CBR] [52]
  promoter TSS_3633 (cluster) 3441144 reverse For this promoter, there
Read more >
[RS-EPT-CBR] [52]
  promoter TSS_3634 3441149 reverse nd [RS-EPT-CBR] [52]
  promoter TSS_3635 3441154 reverse nd [RS-EPT-CBR] [52]
  promoter TSS_3636 (cluster) 3441158 reverse For this promoter, there
Read more >
[RS-EPT-CBR] [52]
  promoter TSS_3637 (cluster) 3441166 reverse For this promoter, there
Read more >
[RS-EPT-CBR] [52]
  promoter TSS_3638 3441370 reverse nd [RS-EPT-CBR] [52]
  promoter TSS_3639 (cluster) 3441375 reverse For this promoter, there
Read more >
[RS-EPT-CBR] [52]
  promoter TSS_3640 3441422 reverse nd [RS-EPT-CBR] [52]
  promoter TSS_3641 3441432 reverse nd [RS-EPT-CBR] [52]
  promoter TSS_3642 3441447 reverse nd [RS-EPT-CBR] [52]
  promoter TSS_3643 3441449 reverse nd [RS-EPT-CBR] [52]
  promoter TSS_3644 3441486 reverse nd [RS-EPT-CBR] [52]
  promoter TSS_3645 3441492 reverse nd [RS-EPT-CBR] [52]
  promoter TSS_3646 3441494 reverse nd [RS-EPT-CBR] [52]
  promoter TSS_3647 3441505 reverse nd [RS-EPT-CBR] [52]
  promoter TSS_3648 3441526 reverse nd [RS-EPT-CBR] [52]
  promoter TSS_3649 3441571 reverse nd [RS-EPT-CBR] [52]
  promoter TSS_3650 3441576 reverse nd [RS-EPT-CBR] [52]
  promoter TSS_3651 3441665 reverse nd [RS-EPT-CBR] [52]
  promoter TSS_3652 3441693 reverse nd [RS-EPT-CBR] [52]
  promoter TSS_3653 3441735 reverse nd [RS-EPT-CBR] [52]
  promoter TSS_3654 3441857 reverse nd [RS-EPT-CBR] [52]
  promoter TSS_3655 3441871 reverse nd [RS-EPT-CBR] [52]
  promoter TSS_3656 3441875 reverse nd [RS-EPT-CBR] [52]
  promoter TSS_3657 3441883 reverse nd [RS-EPT-CBR] [52]
  promoter TSS_3658 3442063 reverse nd [RS-EPT-CBR] [52]
  promoter TSS_3659 3442068 reverse nd [RS-EPT-CBR] [52]
  promoter TSS_3660 3442101 reverse nd [RS-EPT-CBR] [52]
  promoter TSS_3661 (cluster) 3442116 reverse For this promoter, there
Read more >
[RS-EPT-CBR] [52]
  promoter TSS_3662 (cluster) 3442120 reverse For this promoter, there
Read more >
[RS-EPT-CBR] [52]
  promoter TSS_3663 (cluster) 3442126 reverse For this promoter, there
Read more >
[RS-EPT-CBR] [52]
  promoter TSS_3664 3442245 reverse nd [RS-EPT-CBR] [52]
  promoter TSS_3665 (cluster) 3442346 reverse For this promoter, there
Read more >
[RS-EPT-CBR] [52]
  promoter TSS_3666 3442433 reverse nd [RS-EPT-CBR] [52]
  promoter TSS_3667 (cluster) 3442437 reverse For this promoter, there
Read more >
[RS-EPT-CBR] [52]
  promoter TSS_3668 3442439 reverse nd [RS-EPT-CBR] [52]


Evidence    

 [RS-EPT-CBR] RNA-seq using two enrichment strategies for primary transcripts and consistent biological replicates



Reference(s)    

 [1] Abdurashidova GG., Nargizian MG., Rudenko NV., Turchinskii MF., Budovskii EI., 1985, [Contacts of ribosomal proteins with tRNAPhe and 16S RNA in analogs of the 30S initiation complex]., Mol Biol (Mosk) 19(2):553-7

 [2] Babkina GT., Bausk EV., Graifer DM., Karpova GG., Matasova NB., 1984, The effect of aminoacyl- or peptidyl-tRNA at the A-site on the arrangement of deacylated tRNA at the ribosomal P-site., FEBS Lett 170(2):290-4

 [3] Babkina GT., Bausk EV., Karpova GG., Matasova NB., Graifer DM., 1984, [Photoaffinity modification of Escherichia coli ribosomes near the tRNA-binding centers by tRNAPhe derivatives carrying arylazido groups on guanosine residues]., Mol Biol (Mosk) 18(5):1306-10

 [4] Babkina GT., Vladimirov SN., Dryga SA., Zenkova MA., Karpova GG., 1988, [mRNA-binding site of ribosomes at different stages of translation. II. Affinity modification of Escherichia coli ribosomes bya benzylidene derivative of AUGU6 in pre- and post-translation complexes]., Mol Biol (Mosk) 22(2):357-61

 [5] Bausk EV., Graifer DM., Karpova GG., 1985, [Study of the photoaffinity modification of Escherichia coli ribosomes near the donor tRNA-binding center]., Mol Biol (Mosk) 19(2):545-52

 [6] Bedwell D., Davis G., Gosink M., Post L., Nomura M., Kestler H., Zengel JM., Lindahl L., 1985, Nucleotide sequence of the alpha ribosomal protein operon of Escherichia coli., Nucleic Acids Res 13(11):3891-903

 [7] Brewer LA., Noller HF., 1983, Ribonucleic acid-protein cross-linking within the intact Escherichia coli ribosome, utilizing ethylene glycol bis[3-(2-ketobutyraldehyde) ether], a reversible, bifunctional reagent: identification of 30S proteins., Biochemistry 22(18):4310-5

 [8] Broude NE., Medvedeva NI., Kusova KS., Budovskii EI., 1985, [Ribosomal proteins directly interacting with fMet-tRNAfMet in the 30S initiation complex]., Mol Biol (Mosk) 19(5):1269-72

 [9] Budowsky EI., Axentyeva MS., Abdurashidova GG., Simukova NA., Rubin LB., 1986, Induction of polynucleotide-protein cross-linkages by ultraviolet irradiation. Peculiarities of the high-intensity laser pulse irradiation., Eur J Biochem 159(1):95-101

 [10] Cantrell M., Craven GR., 1977, Chemical inactivation of Escherichia coli 30 S ribosomes with maleic anhydride: identification of the proteins involved in polyuridylic acid binding., J Mol Biol 115(3):389-402

 [11] Culver GM., Noller HF., 1999, Efficient reconstitution of functional Escherichia coli 30S ribosomal subunits from a complete set of recombinant small subunit ribosomal proteins., RNA 5(6):832-43

 [12] Dean D., Nomura M., 1980, Feedback regulation of ribosomal protein gene expression in Escherichia coli., Proc Natl Acad Sci U S A 77(6):3590-4

 [13] Doring T., Mitchell P., Osswald M., Bochkariov D., Brimacombe R., 1994, The decoding region of 16S RNA; a cross-linking study of the ribosomal A, P and E sites using tRNA derivatized at position 32 in the anticodon loop., EMBO J 13(11):2677-85

 [14] Ewald R., Pon C., Gualerzi C., 1976, Reactivity of ribosomal sulfhydryl groups in 30S ribosomal subunits of Escherichia coli and 30S-IF-3 complexes., Biochemistry 15(22):4786-91

 [15] Fanning TG., Cantrell M., Shih CY., Craven GR., 1978, Evidence that proteins S1, S11 and S21 directly participates in the binding of transfer RNA to the 30S ribosome., Nucleic Acids Res 5(3):933-50

 [16] Gimautdinova OI., Karpova GG., Knorre DG., Kobetz ND., 1981, The proteins of the messenger RNA binding site of Escherichia coli ribosomes., Nucleic Acids Res 9(14):3465-81

 [17] Gimautdinova OI., Karpova GG., Kobets ND., 1981, [Affinity labeling of the ribosomes from Escherichia coli by 4-(N-2-chloroethyl-N-methyl-aminobenzyl-5'-phosphoamide of heptauridylic acid]., Mol Biol (Mosk) 15(4):797-804

 [18] Gimautdinova OI., Karpova GG., Kozyreva NA., 1982, [Affinity labeling of ribosomes from Escherichia coli with 4-(N-2-chloroethyl-N-methylamino) benzyl-5'-phosphamides of oligouridylates of different length]., Mol Biol (Mosk) 16(4):752-62

 [19] Gimautdinova OI., Zenkova MA., Karpova GG., Podust LM., 1984, [Affinity modification of Escherichia coli ribosomes with photoactivated analogs of mRNA]., Mol Biol (Mosk) 18(4):907-18

 [20] Gorelic L., 1976, Photoinduced cross-linkage, in situ, of Escherichia coli 30S ribosomal proteins to 16S rRNA: identification of cross-linked proteins and relationships between reactivity and ribosome structure., Biochemistry 15(16):3579-90

 [21] Hardy SJ., Kurland CG., Voynow P., Mora G., 1969, The ribosomal proteins of Escherichia coli. I. Purification of the 30S ribosomal proteins., Biochemistry 8(7):2897-905

 [22] Held WA., Mizushima S., Nomura M., 1973, Reconstitution of Escherichia coli 30 S ribosomal subunits from purified molecular components., J Biol Chem 248(16):5720-30

 [23] Held WA., Nomura M., 1975, Escherichia coli 30 S ribosomal proteins uniquely required for assembly., J Biol Chem 250(8):3179-84

 [24] Highland JH., Ochsner E., Gordon J., Bodley JW., Hasenbank R., Stoffler G., 1974, Coordinate inhibition of elongation factor G function and ribosomal subunit association by antibodies to several ribosomal proteins., Proc Natl Acad Sci U S A 71(3):627-30

 [25] Hochkeppel HK., Craven GR., 1976, Evidence that 16S RNA from E. coli can assume two different biologically active conformations., Nucleic Acids Res 3(8):1883-902

 [26] Hochkeppel HK., Spicer E., Craven GR., 1976, A method of preparing Escherichia coli 16 S RNA possessing previously unobserved 30 S ribosomal protein binding sites., J Mol Biol 101(2):155-70

 [27] Iusupov MM., Spirin AS., 1986, [Study of the surface of Escherichia coli ribosomes and ribosomal particles by the tritium bombardment method]., Biokhimiia 51(11):1858-67

 [28] Jaskunas SR., Burgess RR., Nomura M., 1975, Identification of a gene for the alpha-subunit of RNA polymerase at the str-spc region of the Escherichia coli chromosome., Proc Natl Acad Sci U S A 72(12):5036-40

 [29] Jaskunas SR., Fallon AM., Nomura M., 1977, Identification and organization of ribosomal protein genes of Escherichia coli carried by lambdafus2 transducing phage., J Biol Chem 252(20):7323-36

 [30] Jinks-Robertson S., Nomura M., 1982, Ribosomal protein S4 acts in trans as a translational repressor to regulate expression of the alpha operon in Escherichia coli., J Bacteriol 151(1):193-202

 [31] Kamp RM., Yao ZJ., Wittmann-Liebold B., 1983, Direct micro-sequence analysis of peptides from Escherichia coli ribosomal proteins S11, L9 and L29 after separation by reversed phase chromatography., Hoppe Seylers Z Physiol Chem 364(2):141-55

 [32] Lake JA., Kahan L., 1975, Ribosomal proteins S5, S11, S13 and S19 localized by electron microscopy of antibody-labeled subunits., J Mol Biol 99(4):631-44

 [33] Lelong JC., Gros D., Gros F., Bollen A., Maschler R., Stoffler G., 1974, Function of individual 30S subunit proteins of Escherichia coli. Effect of specific immunoglobulin fragments (Fab) on activities of ribosomal decoding sites., Proc Natl Acad Sci U S A 71(2):248-52

 [34] Melancon P., Boileau G., Brakier-Gingras L., 1984, Cross-linking of streptomycin to the 30S subunit of Escherichia coli with phenyldiglyoxal., Biochemistry 23(26):6697-703

 [35] Michalski CJ., Sells BH., 1975, Molecular morphology of ribosomes. Iodination of Escherichia coli ribosomal proteins with solid-state lactoperoxidase., Eur J Biochem 52(2):385-9

 [36] Morosyuk SV., Cunningham PR., SantaLucia J., 2001, Structure and function of the conserved 690 hairpin in Escherichia coli 16 S ribosomal RNA. II. NMR solution structure., J Mol Biol 307(1):197-211

 [37] Mueller F., Brimacombe R., 1997, A new model for the three-dimensional folding of Escherichia coli 16 S ribosomal RNA. II. The RNA-protein interaction data., J Mol Biol 271(4):545-65

 [38] Mulder AM., Yoshioka C., Beck AH., Bunner AE., Milligan RA., Potter CS., Carragher B., Williamson JR., 2010, Visualizing ribosome biogenesis: parallel assembly pathways for the 30S subunit., Science 330(6004):673-7

 [39] Post LE., Arfsten AE., Davis GR., Nomura M., 1980, DNA sequence of the promoter region for the alpha ribosomal protein operon in Escherichia coli., J Biol Chem 255(10):4653-59

 [40] Potapov AP., 1988, [The structure of ribosome decoding center]., Mol Biol (Mosk) 22(4):917-22

 [41] Powers T., Noller HF., 1995, Hydroxyl radical footprinting of ribosomal proteins on 16S rRNA., RNA 1(2):194-209

 [42] Ramakrishnan V., Capel M., Kjeldgaard M., Engelman DM., Moore PB., 1984, Positions of proteins S14, S18 and S20 in the 30 S ribosomal subunit of Escherichia coli., J Mol Biol 174(2):265-84

 [43] Ramakrishnan VR., Yabuki S., Sillers IY., Schindler DG., Engelman DM., Moore PB., 1981, Positions of proteins S6, S11 and S15 in the 30 S ribosomal subunit of Escherichia coli., J Mol Biol 153(3):739-60

 [44] Schindler DG., Langer JA., Engelman DM., Moore PB., 1979, Positions of proteins S10, S11 and S12 in the 30 S ribosomal subunit of Escherichia coli., J Mol Biol 134(3):595-620

 [45] Singer P., Nomura M., 1985, Stability of ribosomal protein mRNA and translational feedback regulation in Escherichia coli., Mol Gen Genet 199(3):543-6

 [46] Spirin AS., Agafonov DE., Kolb VA., Kommer A., 1996, [Topography of ribosomal proteins: reconsideration of of protein map of small ribosomal subunit]., Biokhimiia 61(11):1928-30

 [47] Stoffler-Meilicke M., Stoffler G., 1987, The topography of ribosomal proteins on the surface of the 30S subunit of Escherichia coli., Biochimie 69(10):1049-64

 [48] Ulmer E., Meinke M., Ross A., Fink G., Brimacombe R., 1978, Chemical cross-linking of protein to RNA within intact ribosomal subunits from Escherichia coli., Mol Gen Genet 160(2):183-93

 [49] Vladimirov SN., Graifer DM., Karpova GG., Semenkov YuP., Makhno VI., Kirillov SV., 1985, The effect of GTP hydrolysis and transpeptidation on the arrangement of aminoacyl-tRNA at the A-site of Escherichia coli 70 S ribosomes., FEBS Lett 181(2):367-72

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RegulonDB