Peptidoglycan: Difference between revisions

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Peptidoglycan is found in both [[Gram-negative|Gram-negative]] and [[Gram-positive|Gram-positive]] [[Bacteria|bacteria]]. It is present in larger amounts in Gram-positive bacteria as it appears as a multimolecular layer and can be found in association with additional compounds. In Gram-negative bacteria, it is&nbsp;found in either 1 or 2 layers between the inner and outer membrane&nbsp;<ref>http://www.chem.qmul.ac.uk/iupac/misc/glycp.html#3.9</ref>.&nbsp;
Peptidoglycan is found in both [[Gram-negative|Gram-negative]] and [[Gram-positive|Gram-positive]] [[Bacteria|bacteria]]. It is present in larger amounts in Gram-positive bacteria as it appears as a multimolecular layer and can be found in association with additional compounds. In Gram-negative bacteria, it is found in either 1 or 2 layers between the inner and outer membrane<ref>http://www.chem.qmul.ac.uk/iupac/misc/glycp.html#3.9</ref>.  


Peptidoglycan is a&nbsp;[[Macromolecule|macromolecule]] made up of alternating [[Residues|residues]] of [[N-acetyl-β-D-glucosamine|N-acetyl-β-D-glucosamine]] (NAG)&nbsp;and [[N-acetylmuramic acid|N-acetylmuramic acid]] (NAM)&nbsp;joined together by a [[Glycosidic bond|glycosidic bond]]<ref>http://faculty.ccbcmd.edu/courses/bio141/lecguide/unit1/prostruct/cw.html</ref>. There&nbsp;is then a [[Pentapeptide|pentapeptide]]&nbsp;attatched&nbsp;to&nbsp;the NAM amino acid which forms cross-links&nbsp;with other&nbsp;polysaccharide chains&nbsp;forming a 3D mesh-like layer. These cross-links are formed using the enzyme [[Glycopeptide transpeptidase|glycopeptide transpeptidase]] and provide peptidoglycan with stability.&nbsp;This stability allows it to provide mechanical support and prevent osmotic lysis from occurring in bacteria&nbsp;<ref>Berg J., Tymoczko J and Stryer L. (2012) Biochemistry, 7th edition, New York: WH Freeman: pg 252</ref>.  
Peptidoglycan is a [[Macromolecule|macromolecule]] made up of alternating [[Residues|residues]] of [[N-acetyl-β-D-glucosamine|N-acetyl-β-D-glucosamine]] (NAG) and [[N-acetylmuramic acid|N-acetylmuramic acid]] (NAM) joined together by a [[Glycosidic bond|glycosidic bond]]<ref>http://faculty.ccbcmd.edu/courses/bio141/lecguide/unit1/prostruct/cw.html</ref>. There is then a [[Pentapeptide|pentapeptide]] attached to the NAM amino acid which forms cross-links with other polysaccharide chains forming a 3D mesh-like layer. These cross-links are formed using the enzyme [[Glycopeptide transpeptidase|glycopeptide transpeptidase]] and provide peptidoglycan with stability. This stability allows it to provide mechanical support and prevent osmotic lysis from occurring in bacteria<ref>Berg J., Tymoczko J and Stryer L. (2012) Biochemistry, 7th edition, New York: WH Freeman: pg 252</ref>.  


[[Penicillin|Penicillin]] [[Inhibits|inhibits]] the effect of peptidoglycan in&nbsp;bacteria by binding to [[Serine|serine]] in the enzyme [[Glycopeptide transpeptidase|glycopeptide transpeptidase]].&nbsp;As a result,&nbsp;it&nbsp;can no longer catalyse the formation of cross-links.&nbsp;The enzyme is irreversibly inhibitted which therefore results&nbsp;in the termination of bacterial growth<ref>http://www.ncbi.nlm.nih.gov/books/NBK7986/</ref>.  
[[Penicillin|Penicillin]] [[Inhibits|inhibits]] the effect of peptidoglycan in bacteria by binding to [[Serine|serine]] in the enzyme [[Glycopeptide transpeptidase|glycopeptide transpeptidase]]. As a result, it can no longer catalyse the formation of cross-links. The enzyme is irreversibly inhibited which therefore results in the termination of bacterial growth<ref>http://www.ncbi.nlm.nih.gov/books/NBK7986/</ref>.  


Penicillin&nbsp;inhibits the transpeptidase linking together the polysaccheride chains and cells become osmotically sensitive and burst.
Penicillin inhibits the transpeptidase linking together the polysaccharide chains and cells become osmotically sensitive and burst.  


=== References  ===
=== References  ===


<references />
<references />

Latest revision as of 16:22, 17 October 2018

Peptidoglycan is found in both Gram-negative and Gram-positive bacteria. It is present in larger amounts in Gram-positive bacteria as it appears as a multimolecular layer and can be found in association with additional compounds. In Gram-negative bacteria, it is found in either 1 or 2 layers between the inner and outer membrane[1].

Peptidoglycan is a macromolecule made up of alternating residues of N-acetyl-β-D-glucosamine (NAG) and N-acetylmuramic acid (NAM) joined together by a glycosidic bond[2]. There is then a pentapeptide attached to the NAM amino acid which forms cross-links with other polysaccharide chains forming a 3D mesh-like layer. These cross-links are formed using the enzyme glycopeptide transpeptidase and provide peptidoglycan with stability. This stability allows it to provide mechanical support and prevent osmotic lysis from occurring in bacteria[3].

Penicillin inhibits the effect of peptidoglycan in bacteria by binding to serine in the enzyme glycopeptide transpeptidase. As a result, it can no longer catalyse the formation of cross-links. The enzyme is irreversibly inhibited which therefore results in the termination of bacterial growth[4].

Penicillin inhibits the transpeptidase linking together the polysaccharide chains and cells become osmotically sensitive and burst.

References

  1. http://www.chem.qmul.ac.uk/iupac/misc/glycp.html#3.9
  2. http://faculty.ccbcmd.edu/courses/bio141/lecguide/unit1/prostruct/cw.html
  3. Berg J., Tymoczko J and Stryer L. (2012) Biochemistry, 7th edition, New York: WH Freeman: pg 252
  4. http://www.ncbi.nlm.nih.gov/books/NBK7986/
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