Abstract
BackgroundChitin is an important biopolymer next to cellulose, extracted in the present study. The exoskeleton of marine bycatch brachyuran crabs, namely Calappa lophos, Dromia dehaani, Dorippe facchino and also from stomatopod Squilla spp. were used to extract chitin through fermentation methods by employing two bacterial strains such as Pseudomonas aeruginosa, Serratia marcescens. The yield of chitin was 44.24%, 37.45%, 11.56% and 27.24% in C. lophos, D. dehaani, D. facchino and Squilla spp. respectively. FT-IR spectra of the produced chitin exhibit peaks which is more or less coherent to that of standard chitin which is further analysed by Scanning Electron Microscope. The quality of produced chitin was assessed through moisture, protein, ash and lipid content analysis ensured that chitin obtained from trash crustaceans are on par with that of standard chitin. ResultsA total of 10 samples were collected from different areas of Jiangsu China for screening of chitinase-producing bacteria. Based on the clearance zone, two of the best samples were chosen for further study. 16S rRNA sequence analysis showed that this strain belongs to genus Myxococcus and species Myxococcus fulvus. Phylogenetic analysis was performed and it shows strain UM01 is a novel bacterial strain. UM01 isolate shows maximum chitinase production at 35 °C and 8 pH. Among all, these colloidal chitins were found to be the best for chitinase production. Three chitinase-producing genes were identified and sequenced by using degenerative plasmid. UMCda gene (chitin disaccharide deacetylase) was cloned into E. coli DH5a by using PET-28a vector, and antagonistic activity was examined against T. reesei. ConclusionTo our knowledge, this is the earliest study report to gene cloning and identification of the chitinase gene in Myxococcus fulvus. Chitinase plays a key role in decomposition and utilization of chitin as a raw material. This research indicates that Myxococcus fulvus UM01 strain is a novel myxobacteria strain and can produce large amounts of chitinase within a short time. The UMCda gene cloned into E. coli DH5a showed a promising effect as antifungal activity. In overall findings, the specific strain UM01 has endowed properties of bioconversation of waste chitin and other biological applications.
Highlights
Chitin is an important biopolymer next to cellulose, extracted in the present study
Our study aimed to report on screening, gene cloning, and antagonistic and biochemical representation of the novel strain UM01 from Myxococcus fulvus
Collection of samples and chitinolytic bacteria isolation A total of 10 samples were collected from different areas of Jiangsu China
Summary
The exoskeleton of marine bycatch brachyuran crabs, namely Calappa lophos, Dromia dehaani, Dorippe facchino and from stomatopod Squilla spp. were used to extract chitin through fermentation methods by employing two bacterial strains such as Pseudomonas aeruginosa, Serratia marcescens. Chitin is the second most abundant natural biopolymer after cellulose. The chemical structure of chitin is similar to that of cellulose with 2-acetamido2-deoxy-b-D-glucose (NAG) monomers attached via β(1→ 4) linkages, with the chitin word derived from the Greek “chiton” which means coat of mail [1]. Chitin (C8H13O5N)n is related to a cellulose that is a long 2acetamido-2-deoxy-β-D-glucose (NAG) monomer; the units are linked via β(1→4). Chitin is the second most common natural polysaccharide (β-(1-4)-N-acetyl-D-glucosamine), with cellulose being the first in the polymer world [3]. The third allomorph form, γ-chitin, was characterized with different chemical properties [5], but detailed investigations show that it is just a variant of α-chitin [6]
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