Sandbox Reserved 1800

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== Biological relevance and broader implications ==
== Biological relevance and broader implications ==
Enzymes involved in the amino acid metabolism of Staphylococcus aureus are being studied as potential targets for new antibiotics. One group of enzymes, called L-amino acid ligases (LALs), which catalyze the formation of dipeptide products in Gram-positive bacteria, have not been investigated in S. aureus until now. The ATP-grasp enzyme SAOUHSC_02373 from S. aureus NCTC 8325 was found to be a novel LAL with high selectivity for L-aspartate and L-methionine substrates, forming an L-aspartyl–L-methionine dipeptide. It was named L-aspartate–L-methionine ligase (LdmS). The mechanism of LdmS was investigated using X-ray crystallography, molecular modeling, and site-directed mutagenesis. LdmS was found to share a similar mechanism to other ATP-grasp enzymes but possesses a unique active site architecture that confers selectivity for !-Asp and L-Met substrates. Phylogenetic analysis showed that LdmS homologs are highly conserved in Staphylococcus and closely related Gram-positive Firmicutes. Genetic analysis upstream of the ldmS operon revealed several trans-acting regulatory elements associated with the control of Met and Cys metabolism, supporting a role for LdmS in Staphylococcal sulfur amino acid metabolism.
Enzymes involved in the amino acid metabolism of Staphylococcus aureus are being studied as potential targets for new antibiotics. One group of enzymes, called L-amino acid ligases (LALs), which catalyze the formation of dipeptide products in Gram-positive bacteria, have not been investigated in S. aureus until now. The ATP-grasp enzyme SAOUHSC_02373 from S. aureus NCTC 8325 was found to be a novel LAL with high selectivity for L-aspartate and L-methionine substrates, forming an L-aspartyl–L-methionine dipeptide. It was named L-aspartate–L-methionine ligase (LdmS). The mechanism of LdmS was investigated using X-ray crystallography, molecular modeling, and site-directed mutagenesis. LdmS was found to share a similar mechanism to other ATP-grasp enzymes but possesses a unique active site architecture that confers selectivity for !-Asp and L-Met substrates. Phylogenetic analysis showed that LdmS homologs are highly conserved in Staphylococcus and closely related Gram-positive Firmicutes. Genetic analysis upstream of the ldmS operon revealed several trans-acting regulatory elements associated with the control of Met and Cys metabolism, supporting a role for LdmS in Staphylococcal sulfur amino acid metabolism.
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== Important Amino Acids ==
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ADP's adenine group is located within a hydrophobic pocket that is surrounded by Val171, Val186, Ile188, Leu290, Ile300, and Lys217. This positioning is strengthened by hydrogen bonds formed by Lys173 and Glu215 sidechains and the mainchain backbone of Gln216 and Ile218.
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A cavity with polar characteristics is shaped by the sidechains of Gln244, Tyr252, Asn255, Asn307, and Ser309, in conjunction with the backbone of Gly308 and Ser309. In addition, the closure of the P-loop and N-loop creates a hydrophobic cavity that consists of Pro26, Leu34, Pro36, Leu44, Tyr111, Ala181, and Tyr184, with the guanidinium sidechain of Arg47 situated just below the opening of the cavity. Because of their properties and relative locations, these sites were considered as potential locations for accommodating the sidechains of L-Asp and L-Met.
== Important Ligands==
== Important Ligands==

Revision as of 03:04, 28 April 2023

This Sandbox is Reserved from Mar 1 through Jun 1, 2023 for use in the course CHEM 351 Biochemistry taught by Bonnie_Hall at the Grand View University, Des Moines, USA. This reservation includes Sandbox Reserved 1796 through Sandbox Reserved 1811.
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A newly found L-amino acid ligase has been associated with sulfur amino acid metabolism in staphylococci.

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References

  1. Hanson, R. M., Prilusky, J., Renjian, Z., Nakane, T. and Sussman, J. L. (2013), JSmol and the Next-Generation Web-Based Representation of 3D Molecular Structure as Applied to Proteopedia. Isr. J. Chem., 53:207-216. doi:http://dx.doi.org/10.1002/ijch.201300024
  2. Herraez A. Biomolecules in the computer: Jmol to the rescue. Biochem Mol Biol Educ. 2006 Jul;34(4):255-61. doi: 10.1002/bmb.2006.494034042644. PMID:21638687 doi:10.1002/bmb.2006.494034042644

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