Mutation of a conserved tryptophan residue in the CBM3c of a GH9 endoglucanase inhibits activity

•CBM3c influences the catalytic base activation of endoglucanase.•CBM3c make locating of the active site loop on a proper region.•The presence of CBM3c can protect a disulfide bond of CD against a denaturant.•The location of active site loop may be change the surface stability. The presence of the f...

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Published in:International journal of biological macromolecules 2016-11, Vol.92, p.159-166
Main Authors: Kim, Su-Jung, Kim, So Hyeong, Shin, Sang Kyu, Hyeon, Jeong Eun, Han, Sung Ok
Format: Article
Language:English
Subjects:
Amino Acid Substitution
Bacterial Proteins - chemistry
Bacterial Proteins - genetics
Catalytic base
CD and CBM interaction
Cellulase - chemistry
Cellulase - genetics
Cellulose binding module 3c
Clostridium cellulovorans - enzymology
Clostridium cellulovorans - genetics
Disulfide bond
Enzyme Stability - genetics
Family 9 endoglucanase
Initial cellulolytic reaction
Mutation, Missense
Protein Structure, Secondary
Tryptophan - chemistry
Tryptophan - genetics
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container_title International journal of biological macromolecules
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creator Kim, Su-Jung
Kim, So Hyeong
Shin, Sang Kyu
Hyeon, Jeong Eun
Han, Sung Ok
description •CBM3c influences the catalytic base activation of endoglucanase.•CBM3c make locating of the active site loop on a proper region.•The presence of CBM3c can protect a disulfide bond of CD against a denaturant.•The location of active site loop may be change the surface stability. The presence of the family of 3c cellulose binding module (CBM3c) is important for the catalytic activity of family 9 endoglucanases such as the EngZ from Clostridium cellulovorans. To determine the role of CBM3c in catalytic activity, we made a tryptophan to alanine substitution because tryptophan can bind strongly to both substrates and other amino acids. The conserved tryptophan substitution (W483A) did not influence substrate binding, but it reduced enzyme activity to 10–14% on both amorphous and crystalline cellulose. CBM3c is directly involved in the endoglucanase reaction independent of substrate binding. EngZ W483A was also inactivated independent of substrate concentrations. Specially, EngZ W483A restored its catalytic base activity (31.6±1.2U/nM) which is similar to the wild-type (29.4±0.3U/nM) on Avicel in the presence of 50mM sodium azide which is instead of catalytic base reaction. These results suggest that CBM3c is deeply involved in the cellulolytic reaction, specifically at the catalytic base region. Moreover, EngZ W483A was also easily denatured by DTT, an outer disulfide bond breaker, compared to the wild-type. CBM3c could influence the surface stability. These features of CBM3c result from the hydrophobic interaction of tryptophan with the catalytic domain that is unrelated to substrate binding.
doi_str_mv 10.1016/j.ijbiomac.2016.06.091
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The presence of the family of 3c cellulose binding module (CBM3c) is important for the catalytic activity of family 9 endoglucanases such as the EngZ from Clostridium cellulovorans. To determine the role of CBM3c in catalytic activity, we made a tryptophan to alanine substitution because tryptophan can bind strongly to both substrates and other amino acids. The conserved tryptophan substitution (W483A) did not influence substrate binding, but it reduced enzyme activity to 10–14% on both amorphous and crystalline cellulose. CBM3c is directly involved in the endoglucanase reaction independent of substrate binding. EngZ W483A was also inactivated independent of substrate concentrations. Specially, EngZ W483A restored its catalytic base activity (31.6±1.2U/nM) which is similar to the wild-type (29.4±0.3U/nM) on Avicel in the presence of 50mM sodium azide which is instead of catalytic base reaction. These results suggest that CBM3c is deeply involved in the cellulolytic reaction, specifically at the catalytic base region. Moreover, EngZ W483A was also easily denatured by DTT, an outer disulfide bond breaker, compared to the wild-type. CBM3c could influence the surface stability. 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The presence of the family of 3c cellulose binding module (CBM3c) is important for the catalytic activity of family 9 endoglucanases such as the EngZ from Clostridium cellulovorans. To determine the role of CBM3c in catalytic activity, we made a tryptophan to alanine substitution because tryptophan can bind strongly to both substrates and other amino acids. The conserved tryptophan substitution (W483A) did not influence substrate binding, but it reduced enzyme activity to 10–14% on both amorphous and crystalline cellulose. CBM3c is directly involved in the endoglucanase reaction independent of substrate binding. EngZ W483A was also inactivated independent of substrate concentrations. Specially, EngZ W483A restored its catalytic base activity (31.6±1.2U/nM) which is similar to the wild-type (29.4±0.3U/nM) on Avicel in the presence of 50mM sodium azide which is instead of catalytic base reaction. These results suggest that CBM3c is deeply involved in the cellulolytic reaction, specifically at the catalytic base region. Moreover, EngZ W483A was also easily denatured by DTT, an outer disulfide bond breaker, compared to the wild-type. CBM3c could influence the surface stability. These features of CBM3c result from the hydrophobic interaction of tryptophan with the catalytic domain that is unrelated to substrate binding.</abstract><cop>Netherlands</cop><pub>Elsevier B.V</pub><pmid>27375055</pmid><doi>10.1016/j.ijbiomac.2016.06.091</doi><tpages>8</tpages><orcidid>https://orcid.org/0000-0002-2400-2882</orcidid></addata></record>
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subjects Amino Acid Substitution
Bacterial Proteins - chemistry
Bacterial Proteins - genetics
Catalytic base
CD and CBM interaction
Cellulase - chemistry
Cellulase - genetics
Cellulose binding module 3c
Clostridium cellulovorans - enzymology
Clostridium cellulovorans - genetics
Disulfide bond
Enzyme Stability - genetics
Family 9 endoglucanase
Initial cellulolytic reaction
Mutation, Missense
Protein Structure, Secondary
Tryptophan - chemistry
Tryptophan - genetics
title Mutation of a conserved tryptophan residue in the CBM3c of a GH9 endoglucanase inhibits activity
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