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Some characters of bacterial cellulases in goats’ rumen elucidated by metagenomic DNA analysis and the role of fibronectin 3 module for endoglucanase function

OBJECTIVE: Fibronectin 3 (FN3) and immunoglobulin like modules (Ig) are usually collocated beside modular cellulase catalytic domains. However, very few researches have investigated the role of these modules. In a previous study, we have sequenced and analyzed bacterial metagenomic DNA in Vietnamese...

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Autores principales: Nguyen, Khanh Hoang Viet, Dao, Trong Khoa, Nguyen, Hong Duong, Nguyen, Khanh Hai, Nguyen, Thi Quy, Nguyen, Thuy Tien, Nguyen, Thi Mai Phuong, Truong, Nam Hai, Do, Thi Huyen
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Animal Bioscience 2021
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Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8100471/
https://www.ncbi.nlm.nih.gov/pubmed/32882773
http://dx.doi.org/10.5713/ajas.20.0115
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author Nguyen, Khanh Hoang Viet
Dao, Trong Khoa
Nguyen, Hong Duong
Nguyen, Khanh Hai
Nguyen, Thi Quy
Nguyen, Thuy Tien
Nguyen, Thi Mai Phuong
Truong, Nam Hai
Do, Thi Huyen
author_facet Nguyen, Khanh Hoang Viet
Dao, Trong Khoa
Nguyen, Hong Duong
Nguyen, Khanh Hai
Nguyen, Thi Quy
Nguyen, Thuy Tien
Nguyen, Thi Mai Phuong
Truong, Nam Hai
Do, Thi Huyen
author_sort Nguyen, Khanh Hoang Viet
collection PubMed
description OBJECTIVE: Fibronectin 3 (FN3) and immunoglobulin like modules (Ig) are usually collocated beside modular cellulase catalytic domains. However, very few researches have investigated the role of these modules. In a previous study, we have sequenced and analyzed bacterial metagenomic DNA in Vietnamese goats’ rumen and found that cellulase-producing bacteria and cellulase families were dominant. In this study, the properties of modular cellulases and the role of a FN3 in unique endoglucanase belonging to glycosyl hydorlase (GH) family 5 were determined. METHODS: Based on Pfam analysis, the cellulases sequences containing FN3, Ig modules were extracted from 297 complete open reading frames (ORFs). The alkaline, thermostability, tertiary structure of deduced enzymes were predicted by AcalPred, TBI software, Phyre2 and Swiss models. Then, whole and truncated forms of a selected gene were expressed in Escherichia coli and purified by His-tag affinity column for assessment of FN3 ability to enhance enzyme activity, solubility and conformation. RESULTS: From 297 complete ORFs coding for cellulases, 148 sequences containing FN3, Ig were identified. Mostly FN3 appeared in 90.9% beta-glucosidases belonging to glycosyl hydrolase family 3 (GH3) and situated downstream of catalytic domains. The Ig was found upstream of 100% endoglucanase GH9. Rarely FN3 was seen to be situated downstream of X domain and upstream of catalytic domain endoglucanase GH5. Whole enzyme (called XFN3GH5 based on modular structure) and truncate forms FN3, XFN3, FN3GH5, GH5 were cloned in pET22b (+) and pET22SUMO to be expressed in single and fusion forms with a small ubiquitin-related modifier partner (S). The FN3, SFN3 increased GH5 solubility in FN3GH5, SFN3GH5. The SFN3 partly served for GH5 conformation in SFN3GH5, increased modules interaction and enzyme-soluble substrate affinity to enhance SXFN3GH5, SFN3GH5 activities in mixtures. Both SFN3 and SXFN3 did not anchor enzyme on filter paper but exfoliate and separate cellulose chains on filter paper for enzyme hydrolysis. CONCLUSION: Based on these findings, the presence of FN3 module in certain cellulases was confirmed and it assisted for enzyme conformation and activity in both soluble and insoluble substrate.
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spelling pubmed-81004712021-05-14 Some characters of bacterial cellulases in goats’ rumen elucidated by metagenomic DNA analysis and the role of fibronectin 3 module for endoglucanase function Nguyen, Khanh Hoang Viet Dao, Trong Khoa Nguyen, Hong Duong Nguyen, Khanh Hai Nguyen, Thi Quy Nguyen, Thuy Tien Nguyen, Thi Mai Phuong Truong, Nam Hai Do, Thi Huyen Anim Biosci Article OBJECTIVE: Fibronectin 3 (FN3) and immunoglobulin like modules (Ig) are usually collocated beside modular cellulase catalytic domains. However, very few researches have investigated the role of these modules. In a previous study, we have sequenced and analyzed bacterial metagenomic DNA in Vietnamese goats’ rumen and found that cellulase-producing bacteria and cellulase families were dominant. In this study, the properties of modular cellulases and the role of a FN3 in unique endoglucanase belonging to glycosyl hydorlase (GH) family 5 were determined. METHODS: Based on Pfam analysis, the cellulases sequences containing FN3, Ig modules were extracted from 297 complete open reading frames (ORFs). The alkaline, thermostability, tertiary structure of deduced enzymes were predicted by AcalPred, TBI software, Phyre2 and Swiss models. Then, whole and truncated forms of a selected gene were expressed in Escherichia coli and purified by His-tag affinity column for assessment of FN3 ability to enhance enzyme activity, solubility and conformation. RESULTS: From 297 complete ORFs coding for cellulases, 148 sequences containing FN3, Ig were identified. Mostly FN3 appeared in 90.9% beta-glucosidases belonging to glycosyl hydrolase family 3 (GH3) and situated downstream of catalytic domains. The Ig was found upstream of 100% endoglucanase GH9. Rarely FN3 was seen to be situated downstream of X domain and upstream of catalytic domain endoglucanase GH5. Whole enzyme (called XFN3GH5 based on modular structure) and truncate forms FN3, XFN3, FN3GH5, GH5 were cloned in pET22b (+) and pET22SUMO to be expressed in single and fusion forms with a small ubiquitin-related modifier partner (S). The FN3, SFN3 increased GH5 solubility in FN3GH5, SFN3GH5. The SFN3 partly served for GH5 conformation in SFN3GH5, increased modules interaction and enzyme-soluble substrate affinity to enhance SXFN3GH5, SFN3GH5 activities in mixtures. Both SFN3 and SXFN3 did not anchor enzyme on filter paper but exfoliate and separate cellulose chains on filter paper for enzyme hydrolysis. CONCLUSION: Based on these findings, the presence of FN3 module in certain cellulases was confirmed and it assisted for enzyme conformation and activity in both soluble and insoluble substrate. Animal Bioscience 2021-05 2020-08-21 /pmc/articles/PMC8100471/ /pubmed/32882773 http://dx.doi.org/10.5713/ajas.20.0115 Text en Copyright © 2021 by Animal Bioscience https://creativecommons.org/licenses/by/4.0/This is an open-access article distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/4.0/ (https://creativecommons.org/licenses/by/4.0/) ), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
spellingShingle Article
Nguyen, Khanh Hoang Viet
Dao, Trong Khoa
Nguyen, Hong Duong
Nguyen, Khanh Hai
Nguyen, Thi Quy
Nguyen, Thuy Tien
Nguyen, Thi Mai Phuong
Truong, Nam Hai
Do, Thi Huyen
Some characters of bacterial cellulases in goats’ rumen elucidated by metagenomic DNA analysis and the role of fibronectin 3 module for endoglucanase function
title Some characters of bacterial cellulases in goats’ rumen elucidated by metagenomic DNA analysis and the role of fibronectin 3 module for endoglucanase function
title_full Some characters of bacterial cellulases in goats’ rumen elucidated by metagenomic DNA analysis and the role of fibronectin 3 module for endoglucanase function
title_fullStr Some characters of bacterial cellulases in goats’ rumen elucidated by metagenomic DNA analysis and the role of fibronectin 3 module for endoglucanase function
title_full_unstemmed Some characters of bacterial cellulases in goats’ rumen elucidated by metagenomic DNA analysis and the role of fibronectin 3 module for endoglucanase function
title_short Some characters of bacterial cellulases in goats’ rumen elucidated by metagenomic DNA analysis and the role of fibronectin 3 module for endoglucanase function
title_sort some characters of bacterial cellulases in goats’ rumen elucidated by metagenomic dna analysis and the role of fibronectin 3 module for endoglucanase function
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8100471/
https://www.ncbi.nlm.nih.gov/pubmed/32882773
http://dx.doi.org/10.5713/ajas.20.0115
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