House cleaning, a part of good housekeeping

Summary Cellular metabolism constantly generates by‐products that are wasteful or even harmful. Such compounds are excreted from the cell or are removed through hydrolysis to normal cellular metabolites by various ‘house‐cleaning’ enzymes. Some of the most important contaminants are non‐canonical nu...

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Published in:Molecular microbiology 2006-01, Vol.59 (1), p.5-19
Main Authors: Galperin, Michael Y., Moroz, Olga V., Wilson, Keith S., Murzin, Alexey G.
Format: Article
Language:English
Subjects:
Binding Sites
Biological and medical sciences
Cellular biology
DNA Damage
DNA Repair
Enzymes
Fundamental and applied biological sciences. Psychology
Genomics
Humans
Microbiology
Models, Molecular
Molecular Structure
Nucleoside-Triphosphatase - chemistry
Nucleoside-Triphosphatase - metabolism
Nucleosides - chemistry
Nucleosides - metabolism
Phosphates - chemistry
Phosphates - metabolism
Protein Conformation
Pyrophosphatases - chemistry
Pyrophosphatases - metabolism
Substrate Specificity
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creator Galperin, Michael Y.
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description Summary Cellular metabolism constantly generates by‐products that are wasteful or even harmful. Such compounds are excreted from the cell or are removed through hydrolysis to normal cellular metabolites by various ‘house‐cleaning’ enzymes. Some of the most important contaminants are non‐canonical nucleoside triphosphates (NTPs) whose incorporation into the nascent DNA leads to increased mutagenesis and DNA damage. Enzymes intercepting abnormal NTPs from incorporation by DNA polymerases work in parallel with DNA repair enzymes that remove lesions produced by modified nucleotides. House‐cleaning NTP pyrophosphatases targeting non‐canonical NTPs belong to at least four structural superfamilies: MutT‐related (Nudix) hydrolases, dUTPase, ITPase (Maf/HAM1) and all‐α NTP pyrophosphatases (MazG). These enzymes have high affinity (Km's in the micromolar range) for their natural substrates (8‐oxo‐dGTP, dUTP, dITP, 2‐oxo‐dATP), which allows them to select these substrates from a mixture containing a ∼1000‐fold excess of canonical NTPs. To date, many house‐cleaning NTPases have been identified only on the basis of their side activity towards canonical NTPs and NDP derivatives. Integration of growing structural and biochemical data on these superfamilies suggests that their new family members cleanse the nucleotide pool of the products of oxidative damage and inappropriate methylation. House‐cleaning enzymes, such as 6‐phosphogluconolactonase, are also part of normal intermediary metabolism. Genomic data suggest that house‐cleaning systems are more abundant than previously thought and include numerous analogous enzymes with overlapping functions. We discuss the structural diversity of these enzymes, their phylogenetic distribution, substrate specificity and the problem of identifying their true substrates.
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Such compounds are excreted from the cell or are removed through hydrolysis to normal cellular metabolites by various ‘house‐cleaning’ enzymes. Some of the most important contaminants are non‐canonical nucleoside triphosphates (NTPs) whose incorporation into the nascent DNA leads to increased mutagenesis and DNA damage. Enzymes intercepting abnormal NTPs from incorporation by DNA polymerases work in parallel with DNA repair enzymes that remove lesions produced by modified nucleotides. House‐cleaning NTP pyrophosphatases targeting non‐canonical NTPs belong to at least four structural superfamilies: MutT‐related (Nudix) hydrolases, dUTPase, ITPase (Maf/HAM1) and all‐α NTP pyrophosphatases (MazG). These enzymes have high affinity (Km's in the micromolar range) for their natural substrates (8‐oxo‐dGTP, dUTP, dITP, 2‐oxo‐dATP), which allows them to select these substrates from a mixture containing a ∼1000‐fold excess of canonical NTPs. To date, many house‐cleaning NTPases have been identified only on the basis of their side activity towards canonical NTPs and NDP derivatives. Integration of growing structural and biochemical data on these superfamilies suggests that their new family members cleanse the nucleotide pool of the products of oxidative damage and inappropriate methylation. House‐cleaning enzymes, such as 6‐phosphogluconolactonase, are also part of normal intermediary metabolism. Genomic data suggest that house‐cleaning systems are more abundant than previously thought and include numerous analogous enzymes with overlapping functions. 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Such compounds are excreted from the cell or are removed through hydrolysis to normal cellular metabolites by various ‘house‐cleaning’ enzymes. Some of the most important contaminants are non‐canonical nucleoside triphosphates (NTPs) whose incorporation into the nascent DNA leads to increased mutagenesis and DNA damage. Enzymes intercepting abnormal NTPs from incorporation by DNA polymerases work in parallel with DNA repair enzymes that remove lesions produced by modified nucleotides. House‐cleaning NTP pyrophosphatases targeting non‐canonical NTPs belong to at least four structural superfamilies: MutT‐related (Nudix) hydrolases, dUTPase, ITPase (Maf/HAM1) and all‐α NTP pyrophosphatases (MazG). These enzymes have high affinity (Km's in the micromolar range) for their natural substrates (8‐oxo‐dGTP, dUTP, dITP, 2‐oxo‐dATP), which allows them to select these substrates from a mixture containing a ∼1000‐fold excess of canonical NTPs. To date, many house‐cleaning NTPases have been identified only on the basis of their side activity towards canonical NTPs and NDP derivatives. Integration of growing structural and biochemical data on these superfamilies suggests that their new family members cleanse the nucleotide pool of the products of oxidative damage and inappropriate methylation. House‐cleaning enzymes, such as 6‐phosphogluconolactonase, are also part of normal intermediary metabolism. Genomic data suggest that house‐cleaning systems are more abundant than previously thought and include numerous analogous enzymes with overlapping functions. 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subjects Binding Sites
Biological and medical sciences
Cellular biology
DNA Damage
DNA Repair
Enzymes
Fundamental and applied biological sciences. Psychology
Genomics
Humans
Microbiology
Models, Molecular
Molecular Structure
Nucleoside-Triphosphatase - chemistry
Nucleoside-Triphosphatase - metabolism
Nucleosides - chemistry
Nucleosides - metabolism
Phosphates - chemistry
Phosphates - metabolism
Protein Conformation
Pyrophosphatases - chemistry
Pyrophosphatases - metabolism
Substrate Specificity
title House cleaning, a part of good housekeeping
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