Keyword search (4,163 papers available)

"Mutagenesis" Keyword-tagged Publications:

Title Authors PubMed ID
1 The enterobactin biosynthetic intermediate 2,3-dihydroxybenzoic acid is a competitive inhibitor of the Escherichia coli isochorismatase EntB Bin X; Pawelek PD; 40400396
CHEMBIOCHEM
2 Developing endophytic Penicillium oxalicum as a source of lignocellulolytic enzymes for enhanced hydrolysis of biorefinery relevant pretreated rice straw Sharma G; Kaur B; Raheja Y; Kaur A; Singh V; Basotra N; Di Falco M; Tsang A; Chadha BS; 39249151
CSFG
3 Evidence of isochorismate channeling between the Escherichia coli enterobactin biosynthetic enzymes EntC and EntB Bin X; Pawelek PD; 39031458
CHEMBIOCHEM
4 Evolutionary adaptation of Aspergillus niger for increased ferulic acid tolerance. Lubbers RJM, Liwanag AJ, Peng M, Dilokpimol A, Benoit-Gelber I, de Vries RP 31674709
CSFG
5 Seamless site-directed mutagenesis of the Saccharomyces cerevisiae genome using CRISPR-Cas9. Biot-Pelletier D, Martin VJ 27134651
BIOLOGY

 

Title:Developing endophytic Penicillium oxalicum as a source of lignocellulolytic enzymes for enhanced hydrolysis of biorefinery relevant pretreated rice straw
Authors:Sharma GKaur BRaheja YKaur ASingh VBasotra NDi Falco MTsang AChadha BS
Link:https://pubmed.ncbi.nlm.nih.gov/39249151/
DOI:10.1007/s00449-024-03085-2
Publication:Bioprocess and biosystems engineering
Keywords:Penicillium oxalicumEndophyticHalotolerantMutagenesisSaccharificationSecretome analysis
PMID:39249151 Category: Date Added:2024-09-09
Dept Affiliation: CSFG
1 Department of Microbiology, Guru Nanak Dev University, Amritsar, 143005, Punjab, India.
2 Center for Structural and Functional Genomics, Concordia University, 7141 Sherbrooke Street West, Montreal, QC, H4B 1R6, Canada.
3 Department of Microbiology, Guru Nanak Dev University, Amritsar, 143005, Punjab, India. chadhabs@yahoo.com.

Description:

Endophytic fungi, as plant symbionts, produce an elaborate array of enzymes for efficient disintegration of lignocellulosic biomass into constituent monomeric sugars, making them novel source of lignocellulolytic CAZymes with immense potential in future biorefineries. The present study reports lignocellulolytic enzymes production potential of an endophytic halotolerant Penicillium oxalicum strain isolated from Citrus limon, under submerged and solid-state fermentation (SmF & SSF, respectively), in the presence and absence of salt (1 M NaCl). The comparative QTOF-LC/MS-based exoproteome analysis of the culture extracts unveiled differential expression of CAZymes, with the higher abundance of GH6 and GH7 family cellobiohydrolase in the presence of 1 M salt. The strain improvement program, employing cyclic mutagenesis and diploidization, was utilized to develop hyper-cellulase producing mutant strains of P. oxalicum. The enzyme production of the developed strain (POx-M35) was further enhanced through statistical optimization of the culture conditions utilizing glucose mix disaccharides (GMDs) as an inducer. This optimization process resulted in the lignocellulolytic cocktail that contained high titers (U/mL) of endoglucanase (EG) (146.16), cellobiohydrolase (CBHI) (6.99), ß-glucosidase (ß-G) (26.21), xylanase (336.05) and FPase (2.02 U/mL), which were 5.47-, 5.54-, 8.55-, 4.96-, and 4.39-fold higher when compared to the enzyme titers obtained in wild HP1, respectively. Furthermore, the lignocellulolytic cocktails designed by blending secretome produced by mutant POx-M35 with xylanases (GH10 and GH11) derived from Malbranchea cinnamomea resulted in efficient hydrolysis of unwashed acid pretreated (UWAP) rice straw slurry and mild alkali deacetylated (MAD) rice straw. This study underscores the potential of bioprospecting novel fungus and developing an improved strain for optimized production and constitution of lignocellulolytic cocktails that can be an important determinant in advancing biomass conversion technologies.





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