16S rRNK (guanin1405-N7)-metiltransferaza

16S rRNK (guanin1405-N7)-metiltransferaza
Identifikatori
EC broj2.1.1.179
Baze podataka
IntEnzIntEnz pregled
BRENDABRENDA pristup
ExPASyNiceZyme pregled
KEGGKEGG pristup
MetaCycmetabolički put
PRIAMprofil
Strukture PBPRCSB PDB PDBe PDBj PDBsum

16S rRNK (guanin1405-N7)-metiltransferaza (EC 2.1.1.179, metiltransferaza Sgm, m7G1405 Mtaze, Sgm Mtaze, Sgm, sisomicin-gentamicinska metiltransferaza, sisomicin-gentamicinska metilaza, GrmA, RmtB, RmtC, ArmA) je enzim sa sistematskim imenom S-adenozil-L-metionin:16S rRNK (guanin1405-N7)-metiltransferaza.[1][2][3][4][5][6][7][8][9] Ovaj enzim katalizuje sledeću hemijsku reakciju

S-adenozil-L-metionin + guanin1405 u 16S rRNK S-adenozil-L-homocistein + 7-metilguanin1405 u 16S rRNK

Ovaj enzim specifično metiliše guanin1405 u N7 poziciji unutar 16S rRNK. Enzim iz bakterije Micromonospora zionensis, koja proizvodi antibiotike, metiliše guanin1405 u 16S rRNK do 7-metilguanina, što daje ribozomu otpornost na 4,6-disupstituisane dezoksistreptaminske aminoglikozide, kao što su gentamicini i kanamicini.

Reference

  1. ^ Husain, N., Tkaczuk, K.L., Tulsidas, S.R., Kaminska, K.H., Cubrilo, S., Maravic-Vlahovicek, G., Bujnicki, J.M. and Sivaraman, J. (2010). „Structural basis for the methylation of G1405 in 16S rRNA by aminoglycoside resistance methyltransferase Sgm from an antibiotic producer: a diversity of active sites in m7G methyltransferases”. Nucleic Acids Res. 38: 4120—4132. PMID 20194115. 
  2. ^ Savic, M., Lovric, J., Tomic, T.I., Vasiljevic, B. and Conn, G.L. (2009). „Determination of the target nucleosides for members of two families of 16S rRNA methyltransferases that confer resistance to partially overlapping groups of aminoglycoside antibiotics”. Nucleic Acids Res. 37: 5420—5431. PMID 19589804. 
  3. ^ Tomic, T.I., Moric, I., Conn, G.L. and Vasiljevic, B. (2008). „Aminoglycoside resistance genes sgm and kgmB protect bacterial but not yeast small ribosomal subunits in vitro despite high conservation of the rRNA A-site”. Res. Microbiol. 159: 658—662. PMID 18930134. 
  4. ^ Savic, M., Ilic-Tomic, T., Macmaster, R., Vasiljevic, B. and Conn, G.L. (2008). „Critical residues for cofactor binding and catalytic activity in the aminoglycoside resistance methyltransferase Sgm”. J. Bacteriol. 190: 5855—5861. PMID 18586937. 
  5. ^ Maravic Vlahovicek, G., Cubrilo, S., Tkaczuk, K.L. and Bujnicki, J.M. (2008). „Modeling and experimental analyses reveal a two-domain structure and amino acids important for the activity of aminoglycoside resistance methyltransferase Sgm”. Biochim. Biophys. Acta. 1784: 582—590. PMID 18343347. 
  6. ^ Kojic, M., Topisirovic, L. and Vasiljevic, B. (1992). „Cloning and characterization of an aminoglycoside resistance determinant from Micromonospora zionensis. J. Bacteriol. 174: 7868—7872. PMID 1447159. 
  7. ^ Schmitt, E., Galimand, M., Panvert, M., Courvalin, P. and Mechulam, Y. (2009). „Structural bases for 16 S rRNA methylation catalyzed by ArmA and RmtB methyltransferases”. J. Mol. Biol. 388: 570—582. PMID 19303884. 
  8. ^ Wachino, J., Shibayama, K., Kimura, K., Yamane, K., Suzuki, S. and Arakawa, Y. (2010). „RmtC introduces G1405 methylation in 16S rRNA and confers high-level aminoglycoside resistance on Gram-positive microorganisms”. FEMS Microbiol. Lett. 311: 56—60. PMID 20722735. 
  9. ^ Liou, G.F., Yoshizawa, S., Courvalin, P. and Galimand, M. (2006). „Aminoglycoside resistance by ArmA-mediated ribosomal 16S methylation in human bacterial pathogens”. J. Mol. Biol. 359: 358—364. PMID 16626740. 

Literatura

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