Extent and Origins of Functional Diversity in a Subfamily of Glycoside Hydrolases

Some glycoside hydrolases have broad specificity for hydrolysis of glycosidic bonds, potentially increasing their functional utility and flexibility in physiological and industrial applications. To deepen the understanding of the structural and evolutionary driving forces underlying specificity patt...

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Published inJournal of molecular biology Vol. 431; no. 6; pp. 1217 - 1233
Main Authors Glasgow, Evan M., Vander Meulen, Kirk A., Takasuka, Taichi E., Bianchetti, Christopher M., Bergeman, Lai F., Deutsch, Samuel, Fox, Brian G.
Format Journal Article
LanguageEnglish
Published England Elsevier Ltd 15.03.2019
Elsevier
Subjects
Bacteria - chemistry
Bacteria - enzymology
Bacteria - genetics
Bacteria - metabolism
BASIC BIOLOGICAL SCIENCES
Evolution, Molecular
glycoside hydrolase
Glycoside Hydrolases - chemistry
Glycoside Hydrolases - genetics
Glycoside Hydrolases - metabolism
INORGANIC, ORGANIC, PHYSICAL, AND ANALYTICAL CHEMISTRY
Models, Molecular
Phylogeny
polysaccharide
Protein Conformation
protein evolution
Substrate Specificity
synthetic biology
synthetic biology
glycoside hydrolase
CAZy
GH5_4
polysaccharide
protein evolution
GH5
substrate specificity
CMC
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Abstract Some glycoside hydrolases have broad specificity for hydrolysis of glycosidic bonds, potentially increasing their functional utility and flexibility in physiological and industrial applications. To deepen the understanding of the structural and evolutionary driving forces underlying specificity patterns in glycoside hydrolase family 5, we quantitatively screened the activity of the catalytic core domains from subfamily 4 (GH5_4) and closely related enzymes on four substrates: lichenan, xylan, mannan, and xyloglucan. Phylogenetic analysis revealed that GH5_4 consists of three major clades, and one of these clades, referred to here as clade 3, displayed average specific activities of 4.2 and 1.2 U/mg on lichenan and xylan, approximately 1 order of magnitude larger than the average for active enzymes in clades 1 and 2. Enzymes in clade 3 also more consistently met assay detection thresholds for reaction with all four substrates. We also identified a subfamily-wide positive correlation between lichenase and xylanase activities, as well as a weaker relationship between lichenase and xyloglucanase. To connect these results to structural features, we used the structure of CelE from Hungateiclostridium thermocellum (PDB 4IM4) as an example clade 3 enzyme with activities on all four substrates. Comparison of the sequence and structure of this enzyme with others throughout GH5_4 and neighboring subfamilies reveals at least two residues (H149 and W203) that are linked to strong activity across the substrates. Placing GH5_4 in context with other related subfamilies, we highlight several possibilities for the ongoing evolutionary specialization of GH5_4 enzymes. [Display omitted] •Many types of glycoside hydrolases (GH) are required to deconstruct cell walls.•GH family 5 enzymes hydrolyze including cellulose, lichenan, xylan, mannan, and xyloglucan.•GH5_4 contains three functionally and structurally distinct clades.•GH5_4 activities on lichenan and xylan are correlated across the three clades.•Two active site residues are conserved in subclades with strong hydrolase activities.
AbstractList Some glycoside hydrolases have broad specificity for hydrolysis of glycosidic bonds, potentially increasing their functional utility and flexibility in physiological and industrial applications. To deepen the understanding of the structural and evolutionary driving forces underlying specificity patterns in glycoside hydrolase family 5, we quantitatively screened the activity of the catalytic core domains from subfamily 4 (GH5_4) and closely related enzymes on four substrates: lichenan, xylan, mannan and xyloglucan. Phylogenetic analysis revealed that GH5_4 consists of three major clades, and one of these clades, referred to here as Clade 3, displayed average specific activities of 4.2 and 1.2 U/mg on lichenan and xylan, approximately one order of magnitude larger than the average for active enzymes in Clades 1 and 2. Enzymes in Clade 3 also more consistently met assay detection thresholds for reaction with all four substrates. We also identified a subfamily-wide positive correlation between lichenase and xylanase activities, as well as a weaker relationship between lichenase and xyloglucanase. To connect these results to structural features, we used the structure of CelE from Hungateiclostridium thermocellum (PDB 4IM4) as an example Clade 3 enzyme with activities on all four substrates. Comparison of the sequence and structure of this enzyme with others throughout GH5_4 and neighboring subfamilies reveals at least two residues (H149 and W203) that are linked to strong activity across the substrates. Placing GH5_4 in context with other related subfamilies, we highlight several possibilities for the ongoing evolutionary specialization of GH5_4 enzymes.
Some glycoside hydrolases have broad specificity for hydrolysis of glycosidic bonds, potentially increasing their functional utility and flexibility in physiological and industrial applications. To deepen the understanding of the structural and evolutionary driving forces underlying specificity patterns in glycoside hydrolase family 5, we quantitatively screened the activity of the catalytic core domains from subfamily 4 (GH5_4) and closely related enzymes on four substrates: lichenan, xylan, mannan, and xyloglucan. Phylogenetic analysis revealed that GH5_4 consists of three major clades, and one of these clades, referred to here as clade 3, displayed average specific activities of 4.2 and 1.2 U/mg on lichenan and xylan, approximately 1 order of magnitude larger than the average for active enzymes in clades 1 and 2. Enzymes in clade 3 also more consistently met assay detection thresholds for reaction with all four substrates. We also identified a subfamily-wide positive correlation between lichenase and xylanase activities, as well as a weaker relationship between lichenase and xyloglucanase. To connect these results to structural features, we used the structure of CelE from Hungateiclostridium thermocellum (PDB 4IM4) as an example clade 3 enzyme with activities on all four substrates. Comparison of the sequence and structure of this enzyme with others throughout GH5_4 and neighboring subfamilies reveals at least two residues (H149 and W203) that are linked to strong activity across the substrates. Placing GH5_4 in context with other related subfamilies, we highlight several possibilities for the ongoing evolutionary specialization of GH5_4 enzymes.
Some glycoside hydrolases have broad specificity for hydrolysis of glycosidic bonds, potentially increasing their functional utility and flexibility in physiological and industrial applications. Here, to deepen the understanding of the structural and evolutionary driving forces underlying specificity patterns in glycoside hydrolase family 5, we quantitatively screened the activity of the catalytic core domains from subfamily 4 (GH5_4) and closely related enzymes on four substrates: lichenan, xylan, mannan, and xyloglucan. Phylogenetic analysis revealed that GH5_4 consists of three major clades, and one of these clades, referred to here as clade 3, displayed average specific activities of 4.2 and 1.2 U/mg on lichenan and xylan, approximately 1 order of magnitude larger than the average for active enzymes in clades 1 and 2. Enzymes in clade 3 also more consistently met assay detection thresholds for reaction with all four substrates. We also identified a subfamily-wide positive correlation between lichenase and xylanase activities, as well as a weaker relationship between lichenase and xyloglucanase. To connect these results to structural features, we used the structure of CelE from Hungateiclostridium thermocellum (PDB 4IM4) as an example clade 3 enzyme with activities on all four substrates. Comparison of the sequence and structure of this enzyme with others throughout GH5_4 and neighboring subfamilies reveals at least two residues (H149 and W203) that are linked to strong activity across the substrates. Placing GH5_4 in context with other related subfamilies, we highlight several possibilities for the ongoing evolutionary specialization of GH5_4 enzymes.
Some glycoside hydrolases have broad specificity for hydrolysis of glycosidic bonds, potentially increasing their functional utility and flexibility in physiological and industrial applications. To deepen the understanding of the structural and evolutionary driving forces underlying specificity patterns in glycoside hydrolase family 5, we quantitatively screened the activity of the catalytic core domains from subfamily 4 (GH5_4) and closely related enzymes on four substrates: lichenan, xylan, mannan, and xyloglucan. Phylogenetic analysis revealed that GH5_4 consists of three major clades, and one of these clades, referred to here as clade 3, displayed average specific activities of 4.2 and 1.2 U/mg on lichenan and xylan, approximately 1 order of magnitude larger than the average for active enzymes in clades 1 and 2. Enzymes in clade 3 also more consistently met assay detection thresholds for reaction with all four substrates. We also identified a subfamily-wide positive correlation between lichenase and xylanase activities, as well as a weaker relationship between lichenase and xyloglucanase. To connect these results to structural features, we used the structure of CelE from Hungateiclostridium thermocellum (PDB 4IM4) as an example clade 3 enzyme with activities on all four substrates. Comparison of the sequence and structure of this enzyme with others throughout GH5_4 and neighboring subfamilies reveals at least two residues (H149 and W203) that are linked to strong activity across the substrates. Placing GH5_4 in context with other related subfamilies, we highlight several possibilities for the ongoing evolutionary specialization of GH5_4 enzymes. [Display omitted] •Many types of glycoside hydrolases (GH) are required to deconstruct cell walls.•GH family 5 enzymes hydrolyze including cellulose, lichenan, xylan, mannan, and xyloglucan.•GH5_4 contains three functionally and structurally distinct clades.•GH5_4 activities on lichenan and xylan are correlated across the three clades.•Two active site residues are conserved in subclades with strong hydrolase activities.
Author Fox, Brian G.
Takasuka, Taichi E.
Deutsch, Samuel
Bergeman, Lai F.
Glasgow, Evan M.
Vander Meulen, Kirk A.
Bianchetti, Christopher M.
AuthorAffiliation 5 DOE Joint Genome Institute, Walnut Creek, CA, USA
2 Department of Biochemistry, University of Wisconsin – Madison, USA
4 Department of Chemistry, University of Wisconsin – Oshkosh, USA
1 Great Lakes Bioenergy Research Center, Madison, WI, USA
3 Research Faculty of Agriculture, Hokkaido University, Sapporo, Japan
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Issue 6
Keywords synthetic biology
glycoside hydrolase
CAZy
GH5_4
polysaccharide
protein evolution
GH5
substrate specificity
CMC
Language English
License Copyright © 2019. Published by Elsevier Ltd.
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Authors contributed equally to this work
Author contributions: TT, EG, KVM and BF conceived the experiments, SD performed gene synthesis, EG performed the high-throughput screen, LB assisted in sample preparation, and KVM performed the bioinformatics analyses. EG, KVM, TT and BF wrote the paper.
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SSID ssj0005348
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Snippet Some glycoside hydrolases have broad specificity for hydrolysis of glycosidic bonds, potentially increasing their functional utility and flexibility in...
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SubjectTerms Bacteria - chemistry
Bacteria - enzymology
Bacteria - genetics
Bacteria - metabolism
BASIC BIOLOGICAL SCIENCES
Evolution, Molecular
glycoside hydrolase
Glycoside Hydrolases - chemistry
Glycoside Hydrolases - genetics
Glycoside Hydrolases - metabolism
INORGANIC, ORGANIC, PHYSICAL, AND ANALYTICAL CHEMISTRY
Models, Molecular
Phylogeny
polysaccharide
Protein Conformation
protein evolution
Substrate Specificity
synthetic biology
Title Extent and Origins of Functional Diversity in a Subfamily of Glycoside Hydrolases
URI https://dx.doi.org/10.1016/j.jmb.2019.01.024
https://www.ncbi.nlm.nih.gov/pubmed/30685401
https://search.proquest.com/docview/2179469292
https://www.osti.gov/servlets/purl/1546759
https://pubmed.ncbi.nlm.nih.gov/PMC6937791
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