scholarly journals Glycosyltransferase engineering for carbohydrate synthesis

2016 ◽  
Vol 44 (1) ◽  
pp. 129-142 ◽  
Author(s):  
John B. McArthur ◽  
Xi Chen
Keyword(s):  
Directed Evolution ◽  
Rational Design ◽  
Large Scale ◽  
Enzyme Engineering ◽  
Lessons Learned ◽  
Scale Production ◽  
Amino Acid Residues ◽  
Large Scale Production ◽  
Donor And Acceptor ◽  
Substrate Binding Sites

Glycosyltransferases (GTs) are powerful tools for the synthesis of complex and biologically-important carbohydrates. Wild-type GTs may not have all the properties and functions that are desired for large-scale production of carbohydrates that exist in nature and those with non-natural modifications. With the increasing availability of crystal structures of GTs, especially those in the presence of donor and acceptor analogues, crystal structure-guided rational design has been quite successful in obtaining mutants with desired functionalities. With current limited understanding of the structure–activity relationship of GTs, directed evolution continues to be a useful approach for generating additional mutants with functionality that can be screened for in a high-throughput format. Mutating the amino acid residues constituting or close to the substrate-binding sites of GTs by structure-guided directed evolution (SGDE) further explores the biotechnological potential of GTs that can only be realized through enzyme engineering. This mini-review discusses the progress made towards GT engineering and the lessons learned for future engineering efforts and assay development.

scholarly journals Efficient Synthesis of Rare Disaccharides by Engineered β-Glucosidase Based on Hydropathy Index

2020 ◽  
Author(s):  
Kangle Niu ◽  
Zhengyao Liu ◽  
Yuhui Feng ◽  
Tianlong Gao ◽  
Zhenzhen Wang ◽  
...  
Keyword(s):  
Amino Acid ◽  
Rational Design ◽  
Large Scale ◽  
Catalytic Site ◽  
Scale Production ◽  
Total Production ◽  
Amino Acid Residues ◽  
Hydropathy Index ◽  
Reverse Hydrolysis ◽  
Hydrolysis Activity

<p>Oligosaccharides have important therapeutic applications. A useful route for oligosaccharides synthesis, especially rare disaccharides, is reverse hydrolysis by <i>β</i>-glucosidase. However, the low conversion efficiency of disaccharides from monosaccharides limits its large-scale production because the equilibrium is biased in the direction of hydrolysis. Based on the analysis of the docking results, we hypothesized that the hydropathy index of key amino acid residues in the catalytic site is closely related with disaccharide synthesis and more hydrophilic residues located in the catalytic site would enhance reverse hydrolysis activity. In this study, positive variants<i> Tr</i>Cel1b<sup>I177S</sup>, <i>Tr</i>Cel1b<sup>I177S/I174S</sup>, and <i>Tr</i>Cel1b<sup>I177S/I174S/W173H</sup>, and one negative variant <i>Tr</i>Cel1b<sup>N240I</sup> were designed according to the <u>H</u>ydropathy <u>I</u>ndex <u>F</u>or <u>E</u>nzyme <u>A</u>ctivity (HIFEA) strategy. The reverse hydrolysis with <i>Tr</i>Cel1b<sup>I177S/I174S/W173H </sup>was accelerated and then the maximum total production (<a>195.8 mg/ml/mg enzyme</a>) of the synthesized disaccharides was increased 3.5-fold compared to that of wildtype. On the contrary, <a><i>Tr</i>Cel1b</a><sup>N240I</sup> lost reverse hydrolysis activity. The results demonstrate that<a> </a><a>the average hydropathy index</a> of <a>the key amino acid residues </a>in the catalytic site of<i> Tr</i>Cel1b is an important factor for the synthesis of laminaribiose, sophorose, and cellobiose. The HIFEA strategy provides a new perspective for the rational design of <i>β</i>-glucosidases used for the synthesis of oligosaccharides.</p>

scholarly journals A novel strategy for efficient disaccharides synthesis from glucose by β-glucosidase

2020 ◽  
Author(s):  
Kangle Niu ◽  
Zhengyao Liu ◽  
Yuhui Feng ◽  
Tianlong Gao ◽  
Zhenzhen Wang ◽  
...  
Keyword(s):  
Amino Acid ◽  
Rational Design ◽  
Large Scale ◽  
Catalytic Site ◽  
Scale Production ◽  
Total Production ◽  
Amino Acid Residues ◽  
Hydropathy Index ◽  
Reverse Hydrolysis ◽  
Hydrolysis Activity

Abstract Oligosaccharides have important therapeutic applications. A useful route for oligosaccharides synthesis is reverse hydrolysis by β-glucosidase. However, the low conversion efficiency of disaccharides from monosaccharides limits its large-scale production because the equilibrium is biased in the direction of hydrolysis. Based on the analysis of the docking results, we hypothesized that the hydropathy index of key amino acid residues in the catalytic site is closely related with disaccharide synthesis and more hydrophilic residues located in the catalytic site would enhance reverse hydrolysis activity. In this study, positive variants TrCel1bI177S, TrCel1bI177S/I174S, and TrCel1bI177S/I174S/W173H, and one negative variant TrCel1bN240I were designed according to the Hydropathy Index For Enzyme Activity (HIFEA) strategy. The reverse hydrolysis with TrCel1bI177S/I174S/W173H was accelerated and then the maximum total production (195.8 mg/ml/mg enzyme) of the synthesized disaccharides was increased 3.5-fold compared to that of wildtype. On the contrary, TrCel1bN240I lost reverse hydrolysis activity. The results demonstrate that the average hydropathy index of the key amino acid residues in the catalytic site of TrCel1b is an important factor for the synthesis of laminaribiose, sophorose, and cellobiose. The HIFEA strategy provides a new perspective for the rational design of β-glucosidases used for the synthesis of oligosaccharides.

scholarly journals Efficient Synthesis of Rare Disaccharides by Engineered β-Glucosidase Based on Hydropathy Index

2020 ◽  
Author(s):  
Kangle Niu ◽  
Zhengyao Liu ◽  
Yuhui Feng ◽  
Tianlong Gao ◽  
Zhenzhen Wang ◽  
...  
Keyword(s):  
Amino Acid ◽  
Rational Design ◽  
Large Scale ◽  
Catalytic Site ◽  
Scale Production ◽  
Total Production ◽  
Amino Acid Residues ◽  
Hydropathy Index ◽  
Reverse Hydrolysis ◽  
Hydrolysis Activity

<p>Oligosaccharides have important therapeutic applications. A useful route for oligosaccharides synthesis, especially rare disaccharides, is reverse hydrolysis by <i>β</i>-glucosidase. However, the low conversion efficiency of disaccharides from monosaccharides limits its large-scale production because the equilibrium is biased in the direction of hydrolysis. Based on the analysis of the docking results, we hypothesized that the hydropathy index of key amino acid residues in the catalytic site is closely related with disaccharide synthesis and more hydrophilic residues located in the catalytic site would enhance reverse hydrolysis activity. In this study, positive variants<i> Tr</i>Cel1b<sup>I177S</sup>, <i>Tr</i>Cel1b<sup>I177S/I174S</sup>, and <i>Tr</i>Cel1b<sup>I177S/I174S/W173H</sup>, and one negative variant <i>Tr</i>Cel1b<sup>N240I</sup> were designed according to the <u>H</u>ydropathy <u>I</u>ndex <u>F</u>or <u>E</u>nzyme <u>A</u>ctivity (HIFEA) strategy. The reverse hydrolysis with <i>Tr</i>Cel1b<sup>I177S/I174S/W173H </sup>was accelerated and then the maximum total production (<a>195.8 mg/ml/mg enzyme</a>) of the synthesized disaccharides was increased 3.5-fold compared to that of wildtype. On the contrary, <a><i>Tr</i>Cel1b</a><sup>N240I</sup> lost reverse hydrolysis activity. The results demonstrate that<a> </a><a>the average hydropathy index</a> of <a>the key amino acid residues </a>in the catalytic site of<i> Tr</i>Cel1b is an important factor for the synthesis of laminaribiose, sophorose, and cellobiose. The HIFEA strategy provides a new perspective for the rational design of <i>β</i>-glucosidases used for the synthesis of oligosaccharides.</p>

Enzyme engineering and the anatomy of equilibrium technology

1977 ◽  
Vol 10 (2) ◽  
pp. 113-135 ◽  
Author(s):  
Carl-Göran Hedén
Keyword(s):  
Large Scale ◽  
Immobilized Enzymes ◽  
Enzyme Engineering ◽  
Side Chains ◽  
Scale Production ◽  
Global Impact ◽  
Large Scale Production ◽  
Global Problems ◽  
The Subject ◽  
Industrial Use

To talk about enzyme engineering in a context of global problems might seem easy, because the subject is so dynamic and its ramifications so numerous. One might for instance talk about the industrial use of immobilized enzymes to achieve steroid transformations suitable for large-scale production of drugs reducing fertility, or one could describe the application of the same technique for chopping off side-chains of penicillin and other antibiotics as a first step in the production of new semisynthetic drugs, that certainly have a global impact. Or it would be tempting to review the potential of enzyme engineering for synthesizing physiologically active polypeptides that find use in husbandry or medicine.

scholarly journals Rational Design of Pepsin for Enhanced Thermostability via Exploiting the Guide of Structural Weakness on Stability

2021 ◽  
Vol 9 ◽  
Author(s):  
Yue Zhao ◽  
Yulu Miao ◽  
Fengdong Zhi ◽  
Yue Pan ◽  
Jianguo Zhang ◽  
...  
Keyword(s):  
Rational Design ◽  
Large Scale ◽  
Structural Characteristics ◽  
Computational Design ◽  
Scale Production ◽  
Protein Thermostability ◽  
Industrial Processing ◽  
Large Scale Production ◽  
Structural Weakness ◽  
Software Programs

Enzyme thermostability is an important parameter for estimating its industrial value. However, most naturally produced enzymes are incapable of meeting the industrial thermostability requirements. Software programs can be utilized to predict protein thermostability. Despite the fast-growing number of programs designed for this purpose; few provide reliable applicability because they do not account for thermodynamic weaknesses. Aspartic proteases are widely used in industrial processing; however, their thermostability is not able to meet the large-scale production requirements. In this study, through analyzing structural characteristics and modifying thermostability using prediction software programs, we improved the thermostability of pepsin, a representative aspartic protease. Based on the structural characteristics of pepsin and the experimental results of mutations predicted by several energy-based prediction software programs, it was found that the majority of pepsin’s thermodynamic weaknesses lie on its flexible regions on the surface. Using computational design, mutations were made based on the predicted sites of thermodynamic weakness. As a result, the half-lives of mutants D52N and S129A at 70°C were increased by 200.0 and 66.3%, respectively. Our work demonstrated that in the effort of improving protein thermostability, identification of structural weaknesses with the help of computational design, could efficiently improve the accuracy of protein rational design.

scholarly journals A novel strategy for efficient disaccharides synthesis from glucose by β-glucosidase

2020 ◽  
Author(s):  
Kangle Niu ◽  
Zhengyao Liu ◽  
Yuhui Feng ◽  
Tianlong Gao ◽  
Zhenzhen Wang ◽  
...  
Keyword(s):  
Amino Acid ◽  
Rational Design ◽  
Large Scale ◽  
Catalytic Site ◽  
Scale Production ◽  
Total Production ◽  
Amino Acid Residues ◽  
Hydropathy Index ◽  
Reverse Hydrolysis ◽  
Hydrolysis Activity

Abstract Oligosaccharides have important therapeutic applications. A useful route for oligosaccharides synthesis is reverse hydrolysis by β-glucosidase. However, the low conversion efficiency of disaccharides from monosaccharides limits its large-scale production because the equilibrium is biased in the direction of hydrolysis. Based on the analysis of the docking results, we hypothesized that the hydropathy index of key amino acid residues in the catalytic site is closely related with disaccharide synthesis and more hydrophilic residues located in the catalytic site would enhance reverse hydrolysis activity. In this study, positive variants TrCel1bI177S, TrCel1bI177S/I174S, and TrCel1bI177S/I174S/W173H, and one negative variant TrCel1bN240I were designed according to the Hydropathy Index For Enzyme Activity (HIFEA) strategy. The reverse hydrolysis with TrCel1bI177S/I174S/W173H was accelerated and then the maximum total production (195.8 mg/mL/mg enzyme) of the synthesized disaccharides was increased by 3.5-fold compared to that of wildtype. On the contrary, TrCel1bN240I lost reverse hydrolysis activity. The results demonstrate that the average hydropathy index of the key amino acid residues in the catalytic site of TrCel1b is an important factor for the synthesis of laminaribiose, sophorose, and cellobiose. The HIFEA strategy provides a new perspective for the rational design of β-glucosidases used for the synthesis of oligosaccharides.

Rational design of a new variant of Reteplase with optimized physicochemical profile and large-scale production in Escherichia coli

2022 ◽  
Vol 38 (2) ◽  
Author(s):  
Hooria Seyedhosseini Ghaheh ◽  
Shabnam Sajjadi ◽  
Fatemeh Shafiee ◽  
Ebrahim Barzegari ◽  
Fatemeh Moazen ◽  
...  
Keyword(s):  
Escherichia Coli ◽  
Rational Design ◽  
Large Scale ◽  
Scale Production ◽  
Large Scale Production ◽  
New Variant

I. S. A. Baud. Forms of Production and Women's Labour: Gender Aspects of Industrialisation in India and Mexico. New Delhi: Sage Publications. 1992. 321 pp.Hardbound. Price: Indian Rs 295.00.

1993 ◽  
Vol 32 (1) ◽  
pp. 129-131
Author(s):  
Naureen Talha
Keyword(s):  
Large Scale ◽  
Indian Society ◽  
New Delhi ◽  
Scale Production ◽  
Female Labour ◽  
Self Employment ◽  
Commodity Production ◽  
Large Scale Production ◽  
Mexican Society ◽  
Small Production

The literature on female labour in Third World countries has become quite extensive. India, being comparatively more advanced industrially, and in view of its size and population, presents a pictures of multiplicity of problems which face the female labour market. However, the author has also included Mexico in this analytical study. It is interesting to see the characteristics of developing industrialisation in two different societies: the Indian society, which is conservative, and the Mexican society, which is progressive. In the first chapter of the book, the author explains that he is not concerned with the process of industrialisation and female labour employed at different levels of work, but that he is interested in forms of production and women's employment in large-scale production, petty commodity production, marginal small production, and self-employment in the informal sector. It is only by analysis of these forms that the picture of females having a lower status is understood in its social and political setting.

An Efficient and Improved Process for the Synthesis of Itopride Hydrochloride and Trimethobenzamide Hydrochloride

2018 ◽  
Vol 15 (4) ◽  
pp. 572-575 ◽  
Author(s):  
Ponnusamy Kannan ◽  
Samuel I.D. Presley ◽  
Pallikondaperumal Shanmugasundaram ◽  
Nagapillai Prakash ◽  
Deivanayagam Easwaramoorthy
Keyword(s):  
Large Scale ◽  
Hydroxylamine Hydrochloride ◽  
Scale Production ◽  
One Pot ◽  
Hydrochloride Salt ◽  
Environmental Friendly ◽  
Large Scale Production ◽  
Non Ulcer Dyspepsia ◽  
Itopride Hydrochloride ◽  
Yield And Purity

Aim and Objective: Itopride is a prokinetic agent used for treating conditions like non-ulcer dyspepsia. Itopride is administered as its hydrochloride salt. Trimethobenzamide is used for treating nausea and vomiting and administered as its hydrochloride salt. The aim is to develop a novel and environmental friendly method for large-scale production of itopride and trimethobenzamide. Materials and Methods: Itopride and trimethobenzamide can be prepared from a common intermediate 4- (dimethylaminoethoxy) benzyl amine. The intermediate is prepared from one pot synthesis using Phyrdroxybenzaldehye and zinc dust and further reaction of the intermediate with substituted methoxy benzoic acid along with boric acid and PEG gives itopride and trimethobenzamide. Results: The intermediate 4-(dimethylaminoethoxy) benzylamine is prepared by treating p-hydroxybenzaldehyde and 2-dimethylaminoethyl chloride. The aldehyde formed is treated with hydroxylamine hydrochloride. The intermediate is confirmed by NMR and the purity is analysed by HPLC. Conclusion: Both itopride and trimethobenzamide were successfully synthesized by this method. The developed method is environmental friendly, economical for large-scale production with good yield and purity.

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