Difference between revisions of "User:Scmohr/Antibiotic-res cat page"

(1. Antibiotic-inactivating Enzymes)
(Introduction to Antibiotic Resistance)
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==Introduction to Antibiotic Resistance==
 
==Introduction to Antibiotic Resistance==
  
The established mechanisms of antibiotic resistance include the following: (1.) Enzymes that inactivate the antibiotic [famously (a). beta-lactamases that destroy penicillins and related compounds and (b) enzymes that acetylate chloramphenicol]. (2.) Proteins that keep antibiotics from entering the cell (by blocking the outer-membrane pores). (3) Membrane-embedded channel proteins that actively pump antibiotics out of the cell. (4.) Proteins (and RNAs?) with altered drug binding sites. (Vancomycin resistance comes from a switch in the chemistry of the cell-wall cross-linking peptide). This category also includes mutations in ribosomal RNA -- ribosomes are one of the main targets of both prokaryote- and eukaryote-directed antibiotics. (5.) Proteins that enable substitution of an alternative metabolic pathway (as in the case of sulfonamide resistance).
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The established mechanisms of antibiotic resistance include the following:
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# '''Enzymes that inactivate the antibiotic''' [famously (a). beta-lactamases that destroy penicillins and related compounds and (b) enzymes that acetylate chloramphenicol].  
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# '''Proteins that keep antibiotics out''' of the cell (by blocking the outer-membrane pores).
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# '''Membrane-embedded channel proteins that actively pump antibiotics out''' of the cell.
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# Proteins (and RNAs?) with '''altered drug binding sites'''. (Vancomycin resistance comes from a switch in the chemistry of the cell-wall cross-linking peptide). This category also includes mutations in ribosomal RNA -- ribosomes are one of the main targets of both prokaryote- and eukaryote-directed antibiotics.
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# Proteins that enable '''substitution of an alternative metabolic pathway''' (as in the case of sulfonamide resistance).
  
 
==Parts by Category==
 
==Parts by Category==

Revision as of 21:08, 23 July 2008

Antibiotic Resistance Parts

Introduction to Antibiotic Resistance

The established mechanisms of antibiotic resistance include the following:

  1. Enzymes that inactivate the antibiotic [famously (a). beta-lactamases that destroy penicillins and related compounds and (b) enzymes that acetylate chloramphenicol].
  2. Proteins that keep antibiotics out of the cell (by blocking the outer-membrane pores).
  3. Membrane-embedded channel proteins that actively pump antibiotics out of the cell.
  4. Proteins (and RNAs?) with altered drug binding sites. (Vancomycin resistance comes from a switch in the chemistry of the cell-wall cross-linking peptide). This category also includes mutations in ribosomal RNA -- ribosomes are one of the main targets of both prokaryote- and eukaryote-directed antibiotics.
  5. Proteins that enable substitution of an alternative metabolic pathway (as in the case of sulfonamide resistance).

Parts by Category

1. Antibiotic-inactivating Enzymes

BBa_J31002
BBa_J31003
BBa_J23012

2. Membrane-blocking Proteins

3. Membrane-embedded Efflux Pumps

BBa_J31006
BBa_J31007

4. Altered Target Molecules

5. Components of Alternative Metabolic Pathways

Useful Information about Antibiotic Resistance

Links

Aminoglycoside Resistance

This category includes kanamycin, streptomycin, gentamycin, neomycin, tobramycin, amikacin...

http://www.antibioresistance.be/aminoglycosides.html

http://openwetware.org/wiki/Kanamycin

Tetracycline Resistance

This category includes three different resistance mechanisms. Related antibiotics are tetracycline, chlortetracycline, doxycycline, minocycline, oxytetracycline.

http://www.antibioresistance.be/Tetracycline/Menu_Tet.html

http://openwetware.org/wiki/Tetracycline

http://cmr.asm.org/cgi/content/abstract/5/4/387