Lysine Biosynthesis in Bacteria: A Metallodesuccinylase as a Potential Antimicrobial Target

Danuta M. Gillner; Daniel P Becker; Richard C. Holz

doi:10.1007/s00775-012-0965-1

Lysine Biosynthesis in Bacteria: A Metallodesuccinylase as a Potential Antimicrobial Target

Danuta M. Gillner, Daniel P Becker, Richard C. Holz

Department of Chemistry and Biochemistry

Research output: Contribution to journal › Article › peer-review

Abstract

In this review, we summarize the recent literature on dapE -encoded N -succinyl-l,l-diaminopimelic acid desuccinylase (DapE) enzymes, with an emphasis on structure–function studies that provide insight into the catalytic mechanism. Crystallographic data have also provided insight into residues that might be involved in substrate and hence inhibitor recognition and binding. These data have led to the design and synthesis of several new DapE inhibitors, which are described along with what is known about how inhibitors interact with the active site of DapE enzymes, including the efficacy of a moderately strong DapE inhibitor.

Original language	American English
Journal	Chemistry: Faculty Publications and Other Works
Volume	18
Issue number	2
DOIs	https://doi.org/10.1007/s00775-012-0965-1
State	Published - Feb 1 2013

Keywords

DapE
Metallohydrolase
Antibiotics
Zinc
X-ray crystallography
Inhibitor design
Catalytic mechanism

Disciplines

Biochemistry
Chemistry
Microbiology

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title = "Lysine Biosynthesis in Bacteria: A Metallodesuccinylase as a Potential Antimicrobial Target",

abstract = " In this review, we summarize the recent literature on dapE -encoded N -succinyl-l,l-diaminopimelic acid desuccinylase (DapE) enzymes, with an emphasis on structure–function studies that provide insight into the catalytic mechanism. Crystallographic data have also provided insight into residues that might be involved in substrate and hence inhibitor recognition and binding. These data have led to the design and synthesis of several new DapE inhibitors, which are described along with what is known about how inhibitors interact with the active site of DapE enzymes, including the efficacy of a moderately strong DapE inhibitor.",

keywords = "DapE, Metallohydrolase, Antibiotics, Zinc, X-ray crystallography, Inhibitor design, Catalytic mechanism",

author = "Gillner, {Danuta M.} and Becker, {Daniel P} and Holz, {Richard C.}",

year = "2013",

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doi = "10.1007/s00775-012-0965-1",

language = "American English",

volume = "18",

journal = "Chemistry: Faculty Publications and Other Works",

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T1 - Lysine Biosynthesis in Bacteria: A Metallodesuccinylase as a Potential Antimicrobial Target

AU - Gillner, Danuta M.

AU - Becker, Daniel P

AU - Holz, Richard C.

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Y1 - 2013/2/1

N2 - In this review, we summarize the recent literature on dapE -encoded N -succinyl-l,l-diaminopimelic acid desuccinylase (DapE) enzymes, with an emphasis on structure–function studies that provide insight into the catalytic mechanism. Crystallographic data have also provided insight into residues that might be involved in substrate and hence inhibitor recognition and binding. These data have led to the design and synthesis of several new DapE inhibitors, which are described along with what is known about how inhibitors interact with the active site of DapE enzymes, including the efficacy of a moderately strong DapE inhibitor.

AB - In this review, we summarize the recent literature on dapE -encoded N -succinyl-l,l-diaminopimelic acid desuccinylase (DapE) enzymes, with an emphasis on structure–function studies that provide insight into the catalytic mechanism. Crystallographic data have also provided insight into residues that might be involved in substrate and hence inhibitor recognition and binding. These data have led to the design and synthesis of several new DapE inhibitors, which are described along with what is known about how inhibitors interact with the active site of DapE enzymes, including the efficacy of a moderately strong DapE inhibitor.

KW - DapE

KW - Metallohydrolase

KW - Antibiotics

KW - Zinc

KW - X-ray crystallography

KW - Inhibitor design

KW - Catalytic mechanism

UR - https://ecommons.luc.edu/chemistry_facpubs/2

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DO - 10.1007/s00775-012-0965-1

M3 - Article

VL - 18

JO - Chemistry: Faculty Publications and Other Works

JF - Chemistry: Faculty Publications and Other Works

IS - 2

ER -

Lysine Biosynthesis in Bacteria: A Metallodesuccinylase as a Potential Antimicrobial Target

Abstract

Keywords

Disciplines

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