Muropeptide Rescue in Bacillus subtilis Involves Sequential Hydrolysis by beta-N-Acetylglucosaminidase and N-Acetylmuramyl-L-Alanine Amidase

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2010
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Litzinger, Silke
Duckworth, Amanda
Nitzsche, Katja
Risinger, Christian
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Journal of bacteriology. 2010, 192(12), pp. 3132-3143. ISSN 0021-9193. eISSN 1098-5530. Available under: doi: 10.1128/JB.01256-09
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We identified a pathway in Bacillus subtilis that is used for recovery of N-acetylglucosamine (GlcNAc)-N-acetylmuramic acid (MurNAc) peptides (muropeptides) derived from the peptidoglycan of the cell wall. This pathway is encoded by a cluster of six genes, the first three of which are orthologs of Escherichia coli genes involved in N-acetylmuramic acid dissimilation and encode a MurNAc-6-phosphate etherase (MurQ), a MurNAc-6-phosphate-specific transcriptional regulator (MurR), and a MurNAc-specific phosphotransferase system (MurP). Here we characterized two other genes of this cluster. The first gene was shown to encode a cell wall-associated β-N-acetylglucosaminidase (NagZ, formerly YbbD) that cleaves the terminal nonreducing N-acetylglucosamine of muropeptides and also accepts chromogenic or fluorogenic β-N-acetylglucosaminides. The second gene was shown to encode an amidase (AmiE, formerly YbbE) that hydrolyzes the N-acetylmuramyl-L-Ala bond of MurNAc peptides but not this bond of muropeptides. Hence, AmiE requires NagZ, and in conjunction these enzymes liberate MurNAc by sequential hydrolysis of muropeptides. NagZ expression was induced at late exponential phase, and it was 6-fold higher in stationary phase. NagZ is noncovalently associated with lysozyme-degradable particulate material and can be released from it with salt. A nagZ mutant accumulates muropeptides in the spent medium and displays a lytic phenotype in late stationary phase. The evidence for a muropeptide catabolic pathway presented here is the first evidence for cell wall recovery in a Gram-positive organism, and this pathway is distinct from the cell wall recycling pathway of E. coli and other Gram-negative bacteria.

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ISO 690LITZINGER, Silke, Amanda DUCKWORTH, Katja NITZSCHE, Christian RISINGER, Valentin WITTMANN, Christoph MAYER, 2010. Muropeptide Rescue in Bacillus subtilis Involves Sequential Hydrolysis by beta-N-Acetylglucosaminidase and N-Acetylmuramyl-L-Alanine Amidase. In: Journal of bacteriology. 2010, 192(12), pp. 3132-3143. ISSN 0021-9193. eISSN 1098-5530. Available under: doi: 10.1128/JB.01256-09
BibTex
@article{Litzinger2010Murop-9662,
  year={2010},
  doi={10.1128/JB.01256-09},
  title={Muropeptide Rescue in Bacillus subtilis Involves Sequential Hydrolysis by beta-N-Acetylglucosaminidase and N-Acetylmuramyl-L-Alanine Amidase},
  number={12},
  volume={192},
  issn={0021-9193},
  journal={Journal of bacteriology},
  pages={3132--3143},
  author={Litzinger, Silke and Duckworth, Amanda and Nitzsche, Katja and Risinger, Christian and Wittmann, Valentin and Mayer, Christoph}
}
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    <dcterms:abstract xml:lang="eng">We identified a pathway in Bacillus subtilis that is used for recovery of N-acetylglucosamine (GlcNAc)-N-acetylmuramic acid (MurNAc) peptides (muropeptides) derived from the peptidoglycan of the cell wall. This pathway is encoded by a cluster of six genes, the first three of which are orthologs of Escherichia coli genes involved in N-acetylmuramic acid dissimilation and encode a MurNAc-6-phosphate etherase (MurQ), a MurNAc-6-phosphate-specific transcriptional regulator (MurR), and a MurNAc-specific phosphotransferase system (MurP). Here we characterized two other genes of this cluster. The first gene was shown to encode a cell wall-associated β-N-acetylglucosaminidase (NagZ, formerly YbbD) that cleaves the terminal nonreducing N-acetylglucosamine of muropeptides and also accepts chromogenic or fluorogenic β-N-acetylglucosaminides. The second gene was shown to encode an amidase (AmiE, formerly YbbE) that hydrolyzes the N-acetylmuramyl-L-Ala bond of MurNAc peptides but not this bond of muropeptides. Hence, AmiE requires NagZ, and in conjunction these enzymes liberate MurNAc by sequential hydrolysis of muropeptides. NagZ expression was induced at late exponential phase, and it was 6-fold higher in stationary phase. NagZ is noncovalently associated with lysozyme-degradable particulate material and can be released from it with salt. A nagZ mutant accumulates muropeptides in the spent medium and displays a lytic phenotype in late stationary phase. The evidence for a muropeptide catabolic pathway presented here is the first evidence for cell wall recovery in a Gram-positive organism, and this pathway is distinct from the cell wall recycling pathway of E. coli and other Gram-negative bacteria.</dcterms:abstract>
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