Penicillin: Difference between revisions

Latest revision as of 15:33, 5 December 2018

Penicillin was the first antibiotic to be discovered. Is is an irreversible inhibitor. It permanently inactivates the key enzymes in bacterial cell walls^[1]. This is acheived by covalently bonding with a serine residue in glycopeptide transpetidase. If bacteria can no longer sythesise cell walls, they are prevented from growing and dividing, therefore killing the infection. Our cells do not have a cell wall so we are not harmed by Penicillin^[2] .

It was in 1928 that Alexander Flemming first noted the effect of penicillium on the growth of staphyloccoci; yet it was not until 1941 that it was first used for treatment against bacterial infection.

References

↑ Berg JM, Tymoczko JL and Stryer L, 2007, Biochemistry 6th edition, NY, W. H Freeman and Company, page 109
↑ Hardin J., Bertoni G., Kleinsmith L., 2011 Beckers World Of The Cell. 8th Edition, San Fransisco: Pearson Education, page 145

[1] Berg JM, Tymoczko JL and Stryer L, 2007, Biochemistry 6th edition, NY, W. H Freeman and Company, page 109

[2] Hardin J., Bertoni G., Kleinsmith L., 2011 Beckers World Of The Cell. 8th Edition, San Fransisco: Pearson Education, page 145

[1]

[2]

Revision as of 15:11, 18 October 2012 view source 110279945 (talk \| contribs) 5 edits No edit summary ← Older edit		Latest revision as of 15:33, 5 December 2018 view source 180405406 (talk \| contribs) 8 edits Added a link to antibiotics and corrected a reference by removing the space.
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	Penicillin was the first antibiotic to be discovered. Is is an irreversible inhibitor. It permanently inactivates the key [[Enzymes\|enzymes]] in [[Bacteria\|bacterial]] [[Cell wall\|cell walls]]~~ ~~<ref>Berg JM, Tymoczko JL and Stryer L, 2007, Biochemistry 6th edition, NY, W. H Freeman and Company, page 109</ref>. This is acheived by [[Covalent bonding\|covalently bonding]] with a [[Serine\|serine]] residue in [[Glycopeptide transpetidase\|glycopeptide transpetidase]]. If [[Bacteria\|bacteria]] can no longer sythesise cell walls, they are prevented from growing and dividing, therefore killing the infection. Our cells do not have a cell wall so we are not harmed by Penicillin<ref>Hardin J., Bertoni G., Kleinsmith L., 2011 Beckers World Of The Cell. 8th Edition, San Fransisco: Pearson Education, page 145</ref> .<br>		Penicillin was the first [[Antibiotics\|antibiotic]] to be discovered. Is is an irreversible inhibitor. It permanently inactivates the key [[Enzymes\|enzymes]] in [[Bacteria\|bacterial]] [[Cell wall\|cell walls]]<ref>Berg JM, Tymoczko JL and Stryer L, 2007, Biochemistry 6th edition, NY, W. H Freeman and Company, page 109</ref>. This is acheived by [[Covalent bonding\|covalently bonding]] with a [[Serine\|serine]] residue in [[Glycopeptide transpetidase\|glycopeptide transpetidase]]. If [[Bacteria\|bacteria]] can no longer sythesise cell walls, they are prevented from growing and dividing, therefore killing the infection. Our cells do not have a cell wall so we are not harmed by Penicillin<ref>Hardin J., Bertoni G., Kleinsmith L., 2011 Beckers World Of The Cell. 8th Edition, San Fransisco: Pearson Education, page 145</ref> .<br>

	It was in 1928 that [[Alexander Flemming\|Alexander Flemming]] first noted the effect of [[Penicillium\|penicillium]] on the growth of [[Staphylococci\|staphyloccoci]]; yet it was not until 1941 that it was first used for treatment against bacterial infection.		It was in 1928 that [[Alexander Flemming\|Alexander Flemming]] first noted the effect of [[Penicillium\|penicillium]] on the growth of [[Staphylococci\|staphyloccoci]]; yet it was not until 1941 that it was first used for treatment against bacterial infection.

Penicillin: Difference between revisions

Latest revision as of 15:33, 5 December 2018

References

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