Author
K. D. S. Yadav
Bio: K. D. S. Yadav is an academic researcher from Deen Dayal Upadhyay Gorakhpur University. The author has contributed to research in topics: Lignin peroxidase & Pectin lyase. The author has an hindex of 13, co-authored 35 publications receiving 716 citations.
Topics: Lignin peroxidase, Pectin lyase, Medicine, Lignin, Peroxidase
Papers
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TL;DR: This review tries to fill the gap by providing all relevant information exclusively for pectin lyase by covering structural aspects, substrate specificity, molecular biology, biotechnological applications and future prospects of pECTin lyases.
215 citations
TL;DR: This review consists of a brief introduction of α- l -rhamnosidase which is followed by a critical description of the methods used for assaying the enzyme activity and the identification of areas which needs further extensive studies.
145 citations
TL;DR: An alkaline pectin lyase secreted by Aspergillus flavus MTCC 7589 was purified to electrophoretic homogeneity using ammonium sulphate fractionation, anion exchange chromatography on DEAE cellulose and gel filtration chromatography in order to show efficacy in retting of Crotalaria juncea fibers.
67 citations
TL;DR: An indigenously isolatedfungal strain identified as Aspergillus terricola with assigned fungal strain number MTCC 7588 has been used as source for pectin lyase production and the retting ability of the purified pect in lyase for natural fibers has been demonstrated for the first time.
Abstract: An indigenously isolated fungal strain identified as Aspergillus terricola with assigned fungal strain number MTCC 7588 has been used as source for pectin lyase production. The extracellular pectin lyase was purified to homogeneity from the culture filtrate of A. terricola by ion exchange and gel filtration chromatography. The determined molecular weight was 35 ± 01 kDa. The K
m and k
cat (turnover) values of the purified enzyme at 37 °C using citrus pectin as the substrate were found to be 1.0 mg/ml and 110.0 s−1, respectively. The pH and temperature optima of the enzyme were 8.0 and 50 °C, respectively. The retting ability of the purified pectin lyase for natural fibers viz. Cannabis sativa and Linum usitatissimum has been demonstrated for the first time.
47 citations
TL;DR: A conserved domain Pec_Lyase_C was frequently observed in the protein sequences of pectin lyases and pectate lyases, while Glyco_hydro_28 domains and Pectate Lyase-like β-helix clan domain are frequently observed and might be related with the structure and enzymatic function.
Abstract: A total of 48 full-length protein sequences of pectin lyases from different source organisms available in NCBI were subjected to multiple sequence alignment, domain analysis, and phylogenetic tree construction. A phylogenetic tree constructed on the basis of the protein sequences revealed two distinct clusters representing pectin lyases from bacterial and fungal sources. Similarly, the multiple accessions of different source organisms representing bacterial and fungal pectin lyases also formed distinct clusters, showing sequence level homology. The sequence level similarities among different groups of pectinase enzymes, viz. pectin lyase, pectate lyase, polygalacturonase, and pectin esterase, were also analyzed by subjecting a single protein sequence from each group with common source organism to tree construction. Four distinct clusters representing different groups of pectinases with common source organisms were observed, indicating the existing sequence level similarity among them. Multiple sequence alignment of pectin lyase protein sequence of different source organisms along with pectinases with common source organisms revealed a conserved region, indicating homology at sequence level. A conserved domain Pec_Lyase_C was frequently observed in the protein sequences of pectin lyases and pectate lyases, while Glyco_hydro_28 domains and Pectate lyase-like beta-helix clan domain are frequently observed in polygalacturonases and pectin esterases, respectively. The signature amino acid sequence of 41 amino acids, i.e. TYDNAGVLPITVNSNKSLIGEGSKGVIKGKGLRIVSGAKNI, related with the Pec_Lyase_C is frequently observed in pectin lyase protein sequences and might be related with the structure and enzymatic function.
36 citations
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TL;DR: In this article, the main effects of the release of industrial dyes and the essential bioremediation mechanisms are reviewed and a sustainable solution that provides a fundamental and innovative contribution to conventional physicochemical treatments is proposed.
1,164 citations
TL;DR: The development and attributes of several established and emerging industrial applications for immobilized enzymes, including high-fructose corn syrup production, pectin hydrolysis, debittering of fruit juices, interesterification of food fats and oils, biodiesel production, and carbon dioxide capture are reviewed herein, highlighting factors that define the advantages of enzyme immobilization.
Abstract: Although many methods for enzyme immobilization have been described in patents and publications, relatively few processes employing immobilized enzymes have been successfully commercialized. The cost of most industrial enzymes is often only a minor component in overall process economics, and in these instances, the additional costs associated with enzyme immobilization are often not justified. More commonly the benefit realized from enzyme immobilization relates to the process advantages that an immobilized catalyst offers, for example, enabling continuous production, improved stability and the absence of the biocatalyst in the product stream. The development and attributes of several established and emerging industrial applications for immobilized enzymes, including high-fructose corn syrup production, pectin hydrolysis, debittering of fruit juices, interesterification of food fats and oils, biodiesel production, and carbon dioxide capture are reviewed herein, highlighting factors that define the advantages of enzyme immobilization.
978 citations
19 Aug 2016
TL;DR: This review highlights and discusses current technical and scientific involvement of microorganisms in enzyme production and their present status in worldwide enzyme market.
Abstract: Biocatalytic potential of microorganisms have been employed for centuries to produce bread, wine, vinegar and other common products without understanding the biochemical basis of their ingredients. Microbial enzymes have gained interest for their widespread uses in industries and medicine owing to their stability, catalytic activity, and ease of production and optimization than plant and animal enzymes. The use of enzymes in various industries (e.g., food, agriculture, chemicals, and pharmaceuticals) is increasing rapidly due to reduced processing time, low energy input, cost effectiveness, nontoxic and eco-friendly characteristics. Microbial enzymes are capable of degrading toxic chemical compounds of industrial and domestic wastes (phenolic compounds, nitriles, amines etc.) either via degradation or conversion. Here in this review, we highlight and discuss current technical and scientific involvement of microorganisms in enzyme production and their present status in worldwide enzyme market.
611 citations
TL;DR: Pectin is one of the main components of the plant cell wall chemically constituted by poly α 1−4-galacturonic acids as mentioned in this paper and is used as gelling, stabilizing, or thickening agent in food products such as jams, yoghurt drinks, fruity milk drinks, and ice cream.
466 citations