Large-scale examination of functional and sequence diversity of 2-oxoglutarate/Fe(II)-dependent oxygenases in Metazoa

The 2-oxoglutarate/Fe(II)-dependent oxygenase (2OG oxygenase) superfamily in Metazoa is responsible for protein modification, nucleic acid repair and/or modification, and fatty acid metabolism. Phylogenetic analysis, protein sequence similarity network (SSN) and other bioinformatics tools were used...

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Published inBiochimica et biophysica acta. General subjects Vol. 1861; no. 11; pp. 2922 - 2933
Main Authors Jia, Baolei, Tang, Ke, Chun, Byung Hee, Jeon, Che Ok
Format Journal Article
LanguageEnglish
Published Netherlands Elsevier B.V 01.11.2017
Subjects
2-oxoglutarate/Fe(II)-dependent oxygenase
Amino Acid Sequence - genetics
amino acid sequences
Animals
bioinformatics
Computational Biology
Evolution
fatty acids
Ferrous Compounds - metabolism
gene duplication
gene transfer
Genetic Variation
Homo sapiens
Humans
hydroxylation
iron
JmjC
Ketoglutaric Acids - metabolism
Metazoa
Mixed Function Oxygenases - genetics
nucleic acids
Oxygenases
Phylogeny
Sequence Alignment
sequence diversity
sequence homology
Sequence similarity network
Evolution
Metazoa
2-oxoglutarate/Fe(II)-dependent oxygenase
Sequence similarity network
JmjC
Online AccessGet full text
ISSN0304-4165
1872-8006
DOI10.1016/j.bbagen.2017.08.019

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Abstract The 2-oxoglutarate/Fe(II)-dependent oxygenase (2OG oxygenase) superfamily in Metazoa is responsible for protein modification, nucleic acid repair and/or modification, and fatty acid metabolism. Phylogenetic analysis, protein sequence similarity network (SSN) and other bioinformatics tools were used to analyze the evolutionary relationship and make functional inferences of Metazoa 2OG oxygenases. Sixty-four 2OG oxygenases have been previously found in Homo sapiens; they catalyze two reactions: hydroxylation and demethylation. Phylogenetic analyses indicated that enzymes with similar domain architecture are always clustered together, and the redox function can be performed by the 2OG oxygenase domain or Jumonji C (JmjC) domain, where the JmjC domain is always fused to other functional domains. We used the SSN to make functional inferences and to conduct distribution analysis of Metazoa 2OG oxygenases. >11,000 putative 2OG oxygenases across Metazoa could be assigned potential functions based on the SSN. The multiple sequence alignments showed that the residues binding iron are most highly conserved in both the 2OG oxygenase domain and JmjC domain. In contrast, the residues binding oxoglutarate are quite different in the two domains: the 2OG oxygenase domain tends to have an Arg/Lys at the C terminus, whereas the JmjC domain, an Asn/Lys residue in the middle region. The results indicated that gene duplication and vertical gene transfer have played important roles in 2OG oxygenase evolution in Metazoa and clarified the difference between the 2OG oxygenase domain and JmjC domain. These findings expand the understanding of the diversity, evolution, and functions of 2OG oxygenases. •2OG oxygenases in humans catalyze two reactions: hydroxylation and demethylation.•>11,000 putative 2OG oxygenases across Metazoa could be assigned potential functions.•Gene duplication and vertical gene transfer have played important roles in 2OG oxygenase evolution in Metazoa.•The redox functions of the enzymes are performed by the 2OG oxygenase domain or JmjC domain.•The residues binding oxoglutarate are quite different in the two domains.
AbstractList The 2-oxoglutarate/Fe(II)-dependent oxygenase (2OG oxygenase) superfamily in Metazoa is responsible for protein modification, nucleic acid repair and/or modification, and fatty acid metabolism.Phylogenetic analysis, protein sequence similarity network (SSN) and other bioinformatics tools were used to analyze the evolutionary relationship and make functional inferences of Metazoa 2OG oxygenases.Sixty-four 2OG oxygenases have been previously found in Homo sapiens; they catalyze two reactions: hydroxylation and demethylation. Phylogenetic analyses indicated that enzymes with similar domain architecture are always clustered together, and the redox function can be performed by the 2OG oxygenase domain or Jumonji C (JmjC) domain, where the JmjC domain is always fused to other functional domains. We used the SSN to make functional inferences and to conduct distribution analysis of Metazoa 2OG oxygenases. >11,000 putative 2OG oxygenases across Metazoa could be assigned potential functions based on the SSN. The multiple sequence alignments showed that the residues binding iron are most highly conserved in both the 2OG oxygenase domain and JmjC domain. In contrast, the residues binding oxoglutarate are quite different in the two domains: the 2OG oxygenase domain tends to have an Arg/Lys at the C terminus, whereas the JmjC domain, an Asn/Lys residue in the middle region.The results indicated that gene duplication and vertical gene transfer have played important roles in 2OG oxygenase evolution in Metazoa and clarified the difference between the 2OG oxygenase domain and JmjC domain.These findings expand the understanding of the diversity, evolution, and functions of 2OG oxygenases.
The 2-oxoglutarate/Fe(II)-dependent oxygenase (2OG oxygenase) superfamily in Metazoa is responsible for protein modification, nucleic acid repair and/or modification, and fatty acid metabolism. Phylogenetic analysis, protein sequence similarity network (SSN) and other bioinformatics tools were used to analyze the evolutionary relationship and make functional inferences of Metazoa 2OG oxygenases. Sixty-four 2OG oxygenases have been previously found in Homo sapiens; they catalyze two reactions: hydroxylation and demethylation. Phylogenetic analyses indicated that enzymes with similar domain architecture are always clustered together, and the redox function can be performed by the 2OG oxygenase domain or Jumonji C (JmjC) domain, where the JmjC domain is always fused to other functional domains. We used the SSN to make functional inferences and to conduct distribution analysis of Metazoa 2OG oxygenases. >11,000 putative 2OG oxygenases across Metazoa could be assigned potential functions based on the SSN. The multiple sequence alignments showed that the residues binding iron are most highly conserved in both the 2OG oxygenase domain and JmjC domain. In contrast, the residues binding oxoglutarate are quite different in the two domains: the 2OG oxygenase domain tends to have an Arg/Lys at the C terminus, whereas the JmjC domain, an Asn/Lys residue in the middle region. The results indicated that gene duplication and vertical gene transfer have played important roles in 2OG oxygenase evolution in Metazoa and clarified the difference between the 2OG oxygenase domain and JmjC domain. These findings expand the understanding of the diversity, evolution, and functions of 2OG oxygenases.
The 2-oxoglutarate/Fe(II)-dependent oxygenase (2OG oxygenase) superfamily in Metazoa is responsible for protein modification, nucleic acid repair and/or modification, and fatty acid metabolism.BACKGROUNDThe 2-oxoglutarate/Fe(II)-dependent oxygenase (2OG oxygenase) superfamily in Metazoa is responsible for protein modification, nucleic acid repair and/or modification, and fatty acid metabolism.Phylogenetic analysis, protein sequence similarity network (SSN) and other bioinformatics tools were used to analyze the evolutionary relationship and make functional inferences of Metazoa 2OG oxygenases.METHODSPhylogenetic analysis, protein sequence similarity network (SSN) and other bioinformatics tools were used to analyze the evolutionary relationship and make functional inferences of Metazoa 2OG oxygenases.Sixty-four 2OG oxygenases have been previously found in Homo sapiens; they catalyze two reactions: hydroxylation and demethylation. Phylogenetic analyses indicated that enzymes with similar domain architecture are always clustered together, and the redox function can be performed by the 2OG oxygenase domain or Jumonji C (JmjC) domain, where the JmjC domain is always fused to other functional domains. We used the SSN to make functional inferences and to conduct distribution analysis of Metazoa 2OG oxygenases. >11,000 putative 2OG oxygenases across Metazoa could be assigned potential functions based on the SSN. The multiple sequence alignments showed that the residues binding iron are most highly conserved in both the 2OG oxygenase domain and JmjC domain. In contrast, the residues binding oxoglutarate are quite different in the two domains: the 2OG oxygenase domain tends to have an Arg/Lys at the C terminus, whereas the JmjC domain, an Asn/Lys residue in the middle region.RESULTSSixty-four 2OG oxygenases have been previously found in Homo sapiens; they catalyze two reactions: hydroxylation and demethylation. Phylogenetic analyses indicated that enzymes with similar domain architecture are always clustered together, and the redox function can be performed by the 2OG oxygenase domain or Jumonji C (JmjC) domain, where the JmjC domain is always fused to other functional domains. We used the SSN to make functional inferences and to conduct distribution analysis of Metazoa 2OG oxygenases. >11,000 putative 2OG oxygenases across Metazoa could be assigned potential functions based on the SSN. The multiple sequence alignments showed that the residues binding iron are most highly conserved in both the 2OG oxygenase domain and JmjC domain. In contrast, the residues binding oxoglutarate are quite different in the two domains: the 2OG oxygenase domain tends to have an Arg/Lys at the C terminus, whereas the JmjC domain, an Asn/Lys residue in the middle region.The results indicated that gene duplication and vertical gene transfer have played important roles in 2OG oxygenase evolution in Metazoa and clarified the difference between the 2OG oxygenase domain and JmjC domain.CONCLUSIONSThe results indicated that gene duplication and vertical gene transfer have played important roles in 2OG oxygenase evolution in Metazoa and clarified the difference between the 2OG oxygenase domain and JmjC domain.These findings expand the understanding of the diversity, evolution, and functions of 2OG oxygenases.GENERAL SIGNIFICANCEThese findings expand the understanding of the diversity, evolution, and functions of 2OG oxygenases.
The 2-oxoglutarate/Fe(II)-dependent oxygenase (2OG oxygenase) superfamily in Metazoa is responsible for protein modification, nucleic acid repair and/or modification, and fatty acid metabolism. Phylogenetic analysis, protein sequence similarity network (SSN) and other bioinformatics tools were used to analyze the evolutionary relationship and make functional inferences of Metazoa 2OG oxygenases. Sixty-four 2OG oxygenases have been previously found in Homo sapiens; they catalyze two reactions: hydroxylation and demethylation. Phylogenetic analyses indicated that enzymes with similar domain architecture are always clustered together, and the redox function can be performed by the 2OG oxygenase domain or Jumonji C (JmjC) domain, where the JmjC domain is always fused to other functional domains. We used the SSN to make functional inferences and to conduct distribution analysis of Metazoa 2OG oxygenases. >11,000 putative 2OG oxygenases across Metazoa could be assigned potential functions based on the SSN. The multiple sequence alignments showed that the residues binding iron are most highly conserved in both the 2OG oxygenase domain and JmjC domain. In contrast, the residues binding oxoglutarate are quite different in the two domains: the 2OG oxygenase domain tends to have an Arg/Lys at the C terminus, whereas the JmjC domain, an Asn/Lys residue in the middle region. The results indicated that gene duplication and vertical gene transfer have played important roles in 2OG oxygenase evolution in Metazoa and clarified the difference between the 2OG oxygenase domain and JmjC domain. These findings expand the understanding of the diversity, evolution, and functions of 2OG oxygenases. •2OG oxygenases in humans catalyze two reactions: hydroxylation and demethylation.•>11,000 putative 2OG oxygenases across Metazoa could be assigned potential functions.•Gene duplication and vertical gene transfer have played important roles in 2OG oxygenase evolution in Metazoa.•The redox functions of the enzymes are performed by the 2OG oxygenase domain or JmjC domain.•The residues binding oxoglutarate are quite different in the two domains.
Author Tang, Ke
Jeon, Che Ok
Jia, Baolei
Chun, Byung Hee
Author_xml – sequence: 1
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  surname: Jia
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  givenname: Ke
  surname: Tang
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  organization: School of Bioengineering, Qilu University of Technology, Jinan 250353, China
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  fullname: Chun, Byung Hee
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  givenname: Che Ok
  surname: Jeon
  fullname: Jeon, Che Ok
  email: cojeon@cau.ac.kr
  organization: Department of Life Sciences, Chung-Ang University, Seoul 06974, Republic of Korea
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Issue 11
Keywords Evolution
Metazoa
2-oxoglutarate/Fe(II)-dependent oxygenase
Sequence similarity network
JmjC
Language English
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Snippet The 2-oxoglutarate/Fe(II)-dependent oxygenase (2OG oxygenase) superfamily in Metazoa is responsible for protein modification, nucleic acid repair and/or...
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SubjectTerms 2-oxoglutarate/Fe(II)-dependent oxygenase
Amino Acid Sequence - genetics
amino acid sequences
Animals
bioinformatics
Computational Biology
Evolution
fatty acids
Ferrous Compounds - metabolism
gene duplication
gene transfer
Genetic Variation
Homo sapiens
Humans
hydroxylation
iron
JmjC
Ketoglutaric Acids - metabolism
Metazoa
Mixed Function Oxygenases - genetics
nucleic acids
Oxygenases
Phylogeny
Sequence Alignment
sequence diversity
sequence homology
Sequence similarity network
Title Large-scale examination of functional and sequence diversity of 2-oxoglutarate/Fe(II)-dependent oxygenases in Metazoa
URI https://dx.doi.org/10.1016/j.bbagen.2017.08.019
https://www.ncbi.nlm.nih.gov/pubmed/28847508
https://www.proquest.com/docview/1933606894
https://www.proquest.com/docview/2045817326
Volume 1861
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