Your search keyword '"Chadha BS"' showing total 76 results

1. Postherpes zoster programmed death-1 inhibitor−associated zosteriform granulomatous reactions

Author

Simran A. Chadha, BS, Lida Zheng, MD, Joel C. Sunshine, MD, PhD, Lauren M. Guggina, MD, and Cuong V. Nguyen, MD

Subjects

granulomatous, immune-related adverse event, pembrolizumab, programmed death-1, zosteriform, Dermatology, RL1-803

Published

2020

2. Spontaneous Pneumomediastinum: Hamman Syndrome

Author

Tushank Chadha, BS and Ethan Kunstadt, MD

Subjects

Pneumomediastinum, Hamman’s syndrome, gastric cancer, computerized tomography, Education, Special aspects of education, LC8-6691

Abstract

History of present illness: A 28-year-old female presented to the Emergency Department (ED) with three days of intermittent, epigastric abdominal pain and non-bloody, non-bilious emesis with occasional diarrhea. She had a history of gastric cancer complicated by gastric outlet obstruction requiring gastric stent, and was receiving treatment with chemotherapy. She was originally diagnosed two months prior to this visit, after an emergent right salpingo-oophorectomy for possible ovarian torsion revealed an ovarian mass consistent with a Krukenberg tumor. Upon presentation to the ED, her only complaints were of vomiting and abdominal pain, with no additional symptoms. Based on the initial clinical presentation, abdominal and pelvic computerized tomography (CT) scans, surgical and gastrointestinal (GI) consultations, and general labs were ordered for the patient. The initial CT scan found pneumomediastinum, which prompted a thoracic CT scan with contrast to determine the etiology and extent of the condition in the patient. The results of the scan prompted the treating ED physicians to consider esophageal perforation. Following consultation, the surgical and GI physicians did not recommend engaging acute intervention. Laboratory evaluation demonstrated mild hypokalemia and hyponatremia, both of which were addressed by administering intravenous (IV) fluids. The patient was hospitalized for chemotherapy-induced nausea and received prophylactic IV piperacillin-tazobactam. She remained afebrile, hemodynamically stable with negative blood cultures, and was discharged to complete an additional seven-day course of amoxicillin-clavulanic acidwith scheduled ondansetron. Significant findings: The initial CT scans showed extraluminal gas surrounding the distal esophagus as it traversed the posterior mediastinum, concerning for possible distal esophageal perforation that prompted surgery and GI consultations. There was no evidence of a drainable collection or significant fat stranding. The image also showed an intraluminal stent traversing the gastric antrum and gastric pylorus with no indication of obstruction. Circumferential mural thickening of the gastric antrum and body were consistent with the patient’s history of gastric adenocarcinoma. The shotty perigastric lymph nodes with associated fat stranding, along the greater curvature of the distal gastric body suggested local regional nodal metastases and possible peritoneal carcinomatosis. The thoracic CT scans showed extensive pneumomediastinum that tracked into the soft tissues of the neck, which given the history of vomiting also raised concern for esophageal perforation. There was still no evidence of mediastinal abscess or fat stranding. Additionally, a left subclavian vein port catheter, which terminates with tip at the cavoatrial junction of the superior vena cava can also be seen on the image. Discussion: Spontaneous Pneumomediastinum, also known as Hamman syndrome, is defined by the uncommon incidence of free air in the mediastinum due to the bursting of alveoli, as a result of extended spells of shouting, coughing, or vomiting.1,2 The condition is diagnosed when a clear cause (aerodigestive rupture, barotrauma, infection secondary to gas-forming organisms)3 for pneumomediastinum cannot be clearly identified on diagnostic studies. Macklin and Macklin were the first to note the pathogenesis of the syndrome and explained that the common denominator to spontaneous pneumomediastinum was that increased alveolar pressure leads to alveolar rupture.3 Common clinical findings for spontaneous pneumomediastinum include: chest pain, dyspnea, cough, and emesis.4 The condition is not always readily recognized on initial presentation in part for its rare incidence, estimated to be approximately 1 in every 44,500 ED patients3and also because of the non-specific presenting symptoms. For this patient, there was no clear singular cause, and therefore she received care for spontaneous pneumomediastinum. Hamman’s sign, crepitus heard with auscultation of the chest, is understood to be a more specific indicator of pneumomediastinum.3,4 CT is the ideal diagnostic modality in order to most accurately determine the presence of free air in the mediastinum.3 For this patient, treatment involved symptom management and brief hospitalization for observation purposes. Typical standard of care encourages bed rest with limited physical activity and pain management sometimes also with oxygen administration, anti-anxiety drugs, and cough suppressants, all with the intent to decrease alveolar stress.3 While spontaneous pneumomediastinum may be a more benign condition when ultimately diagnosed, it is important to recognize and seriously consider the differential diagnosis for pneumomediastinum because it includes conditions that demand urgent diagnosis, workup and often definitive treatment. Topics: Pneumomediastinum, Hamman’s syndrome, gastric cancer, computerized tomography

Published

2018

3. Amylase hyperproduction by deregulated mutants of the thermophilic fungus Thermomyces lanuginosus

Author

Rubinder, K, Chadha, BS, Singh, N, Saini, HS, and Singh, S

Published

2002

4. Industrial Microbiology: Current status of Research & Development in India

Author

Chadha, BS, primary

Published

2019

5. Production, Purification and Characterization of Hemicellulose from Penicillium janthinellum 3CHP

Author

Adhikari, S, primary and Chadha, BS, primary

Published

2014

6. Antimicrobial Activity of Actinomycetes Against Multidrug Resistant Staphylococcus aureus, E. coli and Various Other Pathogens

Author

Sharma, D, primary, Kaur, T, additional, Chadha, BS, additional, and Manhas, RK, additional

Published

2011

7. Retraction notice to "Thermostable xylanases from thermophilic fungi and bacteria: Current perspective" [Bioresour. Technol. 277 (2019) 195-203].

Author

Chadha BS, Kaur B, Basotra N, Tsang A, and Pandey A

Published

2025

8. Developing endophytic Penicillium oxalicum as a source of lignocellulolytic enzymes for enhanced hydrolysis of biorefinery relevant pretreated rice straw.

Author

Sharma G, Kaur B, Raheja Y, Kaur A, Singh V, Basotra N, Di Falco M, Tsang A, and Chadha BS

Subjects

Hydrolysis, Fungal Proteins metabolism, Fungal Proteins genetics, Fermentation, Penicillium enzymology, Penicillium metabolism, Penicillium genetics, Oryza microbiology, Lignin metabolism

Abstract

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), β-glucosidase (β-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., (© 2024. The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature.)

Published

2024

9. Transcriptional and secretome analysis of Rasamsonia emersonii lytic polysaccharide mono-oxygenases.

Author

Raheja Y, Singh V, Kumar N, Agrawal D, Sharma G, Di Falco M, Tsang A, and Chadha BS

Subjects

Polysaccharides metabolism, Fungal Proteins genetics, Fungal Proteins metabolism, Fungal Proteins chemistry, Hydrolysis, Cellulose metabolism, Gene Expression Regulation, Fungal, Oligosaccharides metabolism, Cloning, Molecular, Mixed Function Oxygenases genetics, Mixed Function Oxygenases metabolism, Mixed Function Oxygenases chemistry

Abstract

The current study is the first to describe the temporal and differential transcriptional expression of two lytic polysaccharide monooxygenase (LPMO) genes of Rasamsonia emersonii in response to various carbon sources. The mass spectrometry based secretome analysis of carbohydrate active enzymes (CAZymes) expression in response to different carbon sources showed varying levels of LPMOs (AA9), AA3, AA7, catalase, and superoxide dismutase enzymes pointing toward the redox-interplay between the LPMOs and auxiliary enzymes. Moreover, it was observed that cello-oligosaccharides have a negative impact on the expression of LPMOs, which has not been highlighted in previous reports. The LPMO1 (30 kDa) and LPMO2 (47 kDa), cloned and expressed in Pichia pastoris, were catalytically active with (k cat /K m ) of 6.6×10 -2 mg -1 ml min -1 and 1.8×10 -2 mg -1 ml min -1 against Avicel, respectively. The mass spectrometry of hydrolysis products of Avicel/carboxy methyl cellulose (CMC) showed presence of C 1 /C 4 oxidized oligosaccharides indicating them to be Type 3 LPMOs. The 3D structural analysis of LPMO1 and LPMO2 revealed distinct arrangements of conserved catalytic residues at their active site. The developed enzyme cocktails consisting of cellulase from R. emersonii mutant M36 supplemented with recombinant LPMO1/LPMO2 resulted in significantly enhanced saccharification of steam/acid pretreated unwashed rice straw slurry from PRAJ industries (Pune, India). The current work indicates that LPMO1 and LPMO2 are catalytically efficient and have a high degree of thermostability, emphasizing their usefulness in improving benchmark enzyme cocktail performance. KEY POINTS: • Mass spectrometry depicts subtle interactions between LPMOs and auxiliary enzymes. • Cello-oligosaccharides strongly downregulated the LPMO1 expression. • Developed LPMO cocktails showed superior hydrolysis in comparison to CellicCTec3., (© 2024. The Author(s).)

Published

2024

10. Unlocking the potential of feruloyl esterase from Myceliophthora verrucosa : a key player in efficient conversion of biorefinery-relevant pretreated rice straw.

Author

Sharma G, Singh V, Raheja Y, and Chadha BS

Abstract

The lignocellulolytic accessory enzyme, Feruloyl esterase C (FE_5DR), encoded in the genome of thermotolerant Myceliophthora verrucosa was successfully cloned and heterologously expressed in Pichia pastoris . The expressed FE_5DR was purified using UNOsphere™ Q anion exchange chromatography column, exhibiting a homogeneous band of ~ 39 kDa. Its optimum temperature was determined to be 60 °C, with an optimal pH of 6.0. Additionally, the enzyme activity of FE_5DR was significantly enhanced by preincubation in a buffer containing Mg 2+ , Cu 2+ and Ca 2 metal ions. Enzyme kinetic parameters, computed from double reciprocal Lineweaver-Burk plots, yielded observed V max and K m values of 0.758 U/mg and 0.439 mM, respectively. Furthermore, the potential of custom-made cocktails comprising FE_5DR and benchmark cellulase derived from the developed mutant strain of Aspergillus allahabadii MAN 40, as well as the biorefinery-relevant lignocellulolytic enzyme Cellic CTec 3, resulted in improved saccharification of unwashed acid pretreated (UWAP) rice straw slurry and mild alkali deacetylated (MAD) rice straw when compared to benchmark MAN 40 and Cellic CTec 3., Supplementary Information: The online version contains supplementary material available at 10.1007/s13205-024-04013-7., Competing Interests: Conflict of interestIt is declared that no competing interest among all the authors exists., (© King Abdulaziz City for Science and Technology 2024. Springer Nature or its licensor (e.g. a society or other partner) holds exclusive rights to this article under a publishing agreement with the author(s) or other rightsholder(s); author self-archiving of the accepted manuscript version of this article is solely governed by the terms of such publishing agreement and applicable law.)

Published

2024

11. Genome and secretome insights: unravelling the lignocellulolytic potential of Myceliophthora verrucosa for enhanced hydrolysis of lignocellulosic biomass.

Author

Sharma G, Kaur B, Singh V, Raheja Y, Falco MD, Tsang A, and Chadha BS

Subjects

Hydrolysis, Carbohydrate Dehydrogenases metabolism, Carbohydrate Dehydrogenases genetics, Cellulose metabolism, Mixed Function Oxygenases genetics, Mixed Function Oxygenases metabolism, Cellulase metabolism, Cellulase genetics, Lignin metabolism, Sordariales genetics, Sordariales enzymology, Sordariales metabolism, Genome, Fungal, Biomass, Fungal Proteins genetics, Fungal Proteins metabolism, Saccharomycetales

Abstract

Lignocellulolytic enzymes from a novel Myceliophthora verrucosa (5DR) strain was found to potentiate the efficacy of benchmark cellulase during saccharification of acid/alkali treated bagasse by ~ 2.24 fold, indicating it to be an important source of auxiliary enzymes. The De-novo sequencing and analysis of M. verrucosa genome (31.7 Mb) revealed to encode for 7989 putative genes, representing a wide array of CAZymes (366) with a high proportions of auxiliary activity (AA) genes (76). The LC/MS QTOF based secretome analysis of M. verrucosa showed high abundance of glycosyl hydrolases and AA proteins with cellobiose dehydrogenase (CDH) (AA8), being the most prominent auxiliary protein. A gene coding for lytic polysaccharide monooxygenase (LPMO) was expressed in Pichia pastoris and CDH produced by M. verrucosa culture on rice straw based solidified medium were purified and characterized. The mass spectrometry of LPMO catalyzed hydrolytic products of avicel showed the release of both C1/C4 oxidized products, indicating it to be type-3. The lignocellulolytic cocktail comprising of in-house cellulase produced by Aspergillus allahabadii strain spiked with LPMO & CDH exhibited enhanced and better hydrolysis of mild alkali deacetylated (MAD) and unwashed acid pretreated rice straw slurry (UWAP), when compared to Cellic CTec3 at high substrate loading rate., (© 2024. The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature.)

Published

2024

12. A thermostable and inhibitor resistant β-glucosidase from Rasamsonia emersonii for efficient hydrolysis of lignocellulosics biomass.

Author

Raheja Y, Singh V, Sharma G, Tsang A, and Chadha BS

Subjects

Hydrolysis, Biomass, beta-Glucosidase chemistry, Eurotiales

Abstract

The present study reports a highly thermostable β-glucosidase (GH3) from Rasamsonia emersonii that was heterologously expressed in Pichia pastoris. Extracellular β-glucosidase was purified to homogeneity using single step affinity chromatography with molecular weight of ~ 110 kDa. Intriguingly, the purified enzyme displayed high tolerance to inhibitors mainly acetic acid, formic acid, ferulic acid, vanillin and 5-hydroxymethyl furfural at concentrations exceeding those present in acid steam pretreated rice straw slurry used for hydrolysis and subsequent fermentation in 2G ethanol plants. Characteristics of purified β-glucosidase revealed the optimal activity at 80 °C, pH 5.0 and displayed high thermostability over broad range of temperature 50-70 °C with maximum half-life of ~ 60 h at 50 °C, pH 5.0. The putative transglycosylation activity of β-glucosidase was appreciably enhanced in the presence of methanol as an acceptor. Using the transglycosylation ability of β-glucosidase, the generated low cost mixed glucose disaccharides resulted in the increased induction of R. emersonii cellulase under submerged fermentation. Scaling up the recombinant protein production at fermenter level using temporal feeding approach resulted in maximal β-glucosidase titres of 134,660 units/L. Furthermore, a developed custom made enzyme cocktail consisting of cellulase from R. emersonii mutant M36 supplemented with recombinant β-glucosidase resulted in significantly enhanced hydrolysis of pretreated rice straw slurry from IOCL industries (India). Our results suggest multi-faceted β-glucosidase from R. emersonii can overcome obstacles mainly high cost associated enzyme production, inhibitors that impair the sugar yields and thermal inactivation of enzyme., (© 2024. The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature.)

Published

2024

13. Biochemical unravelling of the endoxylanase activity in a bifunctional GH39 enzyme cloned and expressed from thermophilic Geobacillus sp. WSUCF1.

Author

Rai R, Samanta D, Goh KM, Chadha BS, and Sani RK

Subjects

Endo-1,4-beta Xylanases genetics, Endo-1,4-beta Xylanases metabolism, Glycoside Hydrolases genetics, Glycoside Hydrolases metabolism, Xylans metabolism, Substrate Specificity, Xylosidases chemistry, Geobacillus

Abstract

The glycoside hydrolase family 39 (GH39) proteins are renowned for their extremophilic and multifunctional enzymatic properties, yet the molecular mechanisms underpinning these unique characteristics continue to be an active subject of research. In this study, we introduce WsuXyn, a GH39 protein with a molecular weight of 58 kDa, originating from the thermophilic Geobacillus sp. WSUCF1. Previously reported for its exceptional thermostable β-xylosidase activity, WsuXyn has recently demonstrated a significant endoxylanase activity (3752 U·mg -1 ) against beechwood xylan, indicating towards its bifunctional nature. Physicochemical characterization revealed that WsuXyn exhibits optimal endoxylanase activity at 70 °C and pH 7.0. Thermal stability assessments revealed that the enzyme is resilient to elevated temperatures, with a half-life of 168 h. Key kinetic parameters highlight the exceptional catalytic efficiency and strong affinity of the protein for xylan substrate. Moreover, WsuXyn-mediated hydrolysis of beechwood xylan has achieved 77 % xylan conversion, with xylose as the primary product. Structural analysis, amalgamated with docking simulations, has revealed strong binding forces between xylotetraose and the protein, with key amino acid residues, including Glu278, Tyr230, Glu160, Gly202, Cys201, Glu324, and Tyr283, playing pivotal roles in these interactions. Therefore, WsuXyn holds a strong promise for biodegradation and value-added product generation through lignocellulosic biomass conversion., Competing Interests: Declaration of competing interest The authors declare the following financial interests/personal relationships which may be considered as potential competing interests: Rohit Rai reports financial support was provided by Science and Engineering Research Board. Rajesh K Sani reports financial support was provided by National Science Foundation. Rohit Rai reports financial support was provided by Lovely Professional University. Kian Mau Goh reports financial support was provided by University of Technology Malaysia., (Copyright © 2023 Elsevier B.V. All rights reserved.)

Published

2024

14. CRISPR/Cas9 mediated gene editing of transcription factor ACE1 for enhanced cellulase production in thermophilic fungus Rasamsonia emersonii.

Author

Singh V, Raheja Y, Basotra N, Sharma G, Tsang A, and Chadha BS

Abstract

Background: The filamentous fungus Rasamsonia emersonii has immense potential to produce biorefinery relevant thermostable cellulase and hemicellulase enzymes using lignocellulosic biomass. Previously in our lab, a hyper-cellulase producing strain of R. emersonii was developed through classical breeding and system biology approaches. ACE1, a pivotal transcription factor in fungi, plays a crucial role in negatively regulating the expression of cellulase genes. In order to identify the role of ACE1 in cellulase production and to further improve the lignocellulolytic enzyme production in R. emersonii, CRISPR/Cas9 mediated disruption of ACE1 gene was employed., Results: A gene-edited ∆ACE1 strain (GN11) was created, that showed 21.97, 20.70 and 24.63, 9.42, 18.12%, improved endoglucanase, cellobiohydrolase (CBHI), β-glucosidase, FPase, and xylanase, activities, respectively, as compared to parental strain M36. The transcriptional profiling showed that the expression of global regulator (XlnR) and different CAZymes genes including endoglucanases, cellobiohydrolase, β-xylosidase, xylanase, β-glucosidase and lytic polysaccharide mono-oxygenases (LPMOs) were significantly enhanced, suggesting critical roles of ACE1 in negatively regulating the expression of various key genes associated with cellulase production in R. emersonii. Whereas, the disruption of ACE1 significantly down-regulated the expression of CreA repressor gene as also evidenced by 2-deoxyglucose (2-DG) resistance phenotype exhibited by edited strain GN11 as well as appreciably higher constitutive production of cellulases in the presence of glucose and mixture of glucose and disaccharide (MGDs) both in batch and flask fed batch mode of culturing. Furthermore, ∆ACE1 strains were evaluated for the hydrolysis of biorefinery relevant steam/acid pretreated unwashed rice straw slurry (Praj Industries Ltd; 15% substrate loading rate) and were found to be significantly superior when compared to the benchmark enzymes produced by parent strain M36 and Cellic Ctec3., Conclusions: Current work uncovers the crucial role of ACE1 in regulating the expression of the various cellulase genes and carbon catabolite repression mechanism in R. emersonii. This study represents the first successful report of utilizing CRISPR/Cas9 genome editing technology to disrupt the ACE1 gene in the thermophlic fungus R. emersonii. The improved methodologies presented in this work might be applied to other commercially important fungal strains for which genetic manipulation tools are limited., (© 2023. BioMed Central Ltd., part of Springer Nature.)

Published

2023

15. A paradigm shift towards production of sustainable bioenergy and advanced products from Cannabis /hemp biomass in Canada.

Author

Brar KK, Raheja Y, Chadha BS, Magdouli S, Brar SK, Yang YH, Bhatia SK, and Koubaa A

Abstract

The global cannabis ( Cannabis sativa ) market was 17.7 billion in 2019 and is expected to reach up to 40.6 billion by 2024. Canada is the 2nd nation to legalize cannabis with a massive sale of $246.9 million in the year 2021. Waste cannabis biomass is managed using disposal strategies (i.e., incineration, aerobic/anaerobic digestion, composting, and shredding) that are not good enough for long-term environmental sustainability. On the other hand, greenhouse gas emissions and the rising demand for petroleum-based fuels pose a severe threat to the environment and the circular economy. Cannabis biomass can be used as a feedstock to produce various biofuels and biochemicals. Various research groups have reported production of ethanol 9.2-20.2 g/L, hydrogen 13.5 mmol/L, lipids 53.3%, biogas 12%, and biochar 34.6% from cannabis biomass. This review summarizes its legal and market status (production and consumption), the recent advancements in the lignocellulosic biomass (LCB) pre-treatment (deep eutectic solvents (DES), and ionic liquids (ILs) known as "green solvents") followed by enzymatic hydrolysis using glycosyl hydrolases (GHs) for the efficient conversion efficiency of pre-treated biomass. Recent advances in the bioconversion of hemp into oleochemicals, their challenges, and future perspectives are outlined. A comprehensive insight is provided on the trends and developments of metabolic engineering strategies to improve product yield. The thermochemical processing of disposed-off hemp lignin into bio-oil, bio-char, synthesis gas, and phenol is also discussed. Despite some progress, barricades still need to be met to commercialize advanced biofuels and compete with traditional fuels., Competing Interests: Conflict of interestThe authors declare no competing interests., (© The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature 2022.)

Published

2022

16. Economizing the lignocellulosic hydrolysis process using heterologously expressed auxiliary enzymes feruloyl esterase D (CE1) and β-xylosidase (GH43) derived from thermophilic fungi Scytalidium thermophilum.

Author

Agrawal D, Tsang A, and Chadha BS

Subjects

Carboxylic Ester Hydrolases, Hydrolysis, Lignin, Saccharomycetales, Substrate Specificity, Xylosidases, Fungi

Abstract

Two lignocellulolytic accessory enzymes, feruloyl esterase D (FAED_SCYTH) and β-xylosidase (XYL43B_SCYTH) were cloned and produced in the Pichia pastoris X33 as host. The molecular weight of recombinant enzymes FAED_SCYTH and XYL43B_SCYTH were ~ 31 and 40 kDa, respectively. FAED_SCYTH showed optimal activity at pH 6.0, 60 °C; and XYL43B_SCYTH at pH 7.0, 50 °C. FAED_SCYTH and XYL43B_SCYTH exhibited t 1/2 : 4 and 0.5 h, respectively (50 °C, pH 5.0). The β-xylosidase was bi-functional with pronounced activity against pNP-α-arabinofuranoside besides being highly xylose tolerant (retaining ~ 97% activity in the presence of 700 mM xylose). Cocktails prepared using these enzymes along with AA9 protein (PMO9D_SCYTH) and commercial cellulase CellicCTec2, showed improved hydrolysis of the pre-treated lignocellulosic biomass. Priming of pre-treated lignocellulosic biomass with these accessory enzymes was found to further enhance the hydrolytic potential of CellicCTec2 promising to reduce the enzyme load and cost required for obtaining sugars from biorefinery relevant pre-treated substrates., (Copyright © 2021 Elsevier Ltd. All rights reserved.)

Published

2021

17. Anticancer and antimicrobial potential of enterocin 12a from Enterococcus faecium.

Author

Sharma P, Kaur S, Chadha BS, Kaur R, Kaur M, and Kaur S

Subjects

Apoptosis drug effects, Bridged-Ring Compounds chemistry, Bridged-Ring Compounds isolation & purification, Bridged-Ring Compounds pharmacology, Cell Line, Tumor, Cell Membrane Permeability drug effects, Enterococcus faecium metabolism, Female, Humans, Microbial Sensitivity Tests, Vagina microbiology, Anti-Bacterial Agents pharmacology, Anticarcinogenic Agents pharmacology, Cell Proliferation drug effects, Enterococcus faecium chemistry

Abstract

Background: Increase in the number of infections caused by Gram-negative bacteria in neutropenic cancer patients has prompted the search for novel therapeutic agents having dual anticancer and antimicrobial properties. Bacteriocins are cationic proteins of prokaryotic origin that have emerged as one of the most promising alternative antimicrobial agents with applications as food preservatives and therapeutic agents. Apart from their antimicrobial activities, bacteriocins are also being explored for their anticancer potential., Results: In this study, a broad-spectrum, cell membrane-permeabilizing enterocin with a molecular weight of 65 kDa was purified and characterized from the culture supernatant of vaginal Enterococcus faecium 12a. Enterocin 12a inhibited multidrug-resistant strains of various Gram-negative pathogens such as Salmonella enterica, Shigella flexneri, Vibrio cholerae, Escherichia coli and Gram-positive, Listeria monocytogenes, but had no activities against different strains of gut lactobacilli. The mass spectrometric analysis showed that the enterocin 12a shared partial homology with 4Fe-4S domain-containing redox protein of E. faecalis R712. Further, enterocin 12a selectively inhibited the proliferation of various human cancer cell lines in a dose-dependent manner but not that of normal human peripheral blood mononuclear cells. Enterocin 12a-treated cancer cells showed apoptosis-like morphological changes., Conclusion: Enterocin 12a is a novel bacteriocin that has anticancer properties against human cell lines and negligible activity towards non-malignant cells. Therefore, it should be further evaluated for its anticancer potential in animal models.

Published

2021

18. An innovative approach of priming lignocellulosics with lytic polysaccharide mono-oxygenases prior to saccharification with glycosyl hydrolases can economize second generation ethanol process.

Author

Agrawal D, Kaur B, Kaur Brar K, and Chadha BS

Subjects

Lignin, Mixed Function Oxygenases, Polysaccharides, Ethanol, Oxygenases

Abstract

Two Lytic polysaccharide Mono-Oxygenases (LPMOs), non-modular (PMO_08942) and modular (PMO_07920), from thermotolerant fungus Aspergillus terreus 9DR cloned and expressed in Pichia pastoris X33 and purified to homogeneity using ion-exchange chromatography were found to be of ~29 and ~40 kDa, respectively. Both LPMOs were optimally active at 50 °C; PMO_08942 was active under acidic condition (pH 5.0) and PMO_07920 at pH 7.0. Modular LPMO (PMO_07920) tethered to CBM-1 was found to be versatile as it showed appreciable activity on complex polysaccharide (both cellulose and xylans) as compared to non-modular (PMO_08942). The t 1/2 of PMO_08942 (~192 h, pH 5.0) and PMO_0792 (~192 h, pH 7.0) at 50 °C, suggests highly stable nature of these LPMOs. Fluorescently tagged modular AA9 was studied microscopically to understand interaction with pretreated biomass. Priming of biomass for up to 6 h with LPMOs prior to initiating hydrolysis with core cellulase enzyme resulted in significantly higher saccharification., (Copyright © 2020 Elsevier Ltd. All rights reserved.)

Published

2020

19. Discovery and Expression of Thermostable LPMOs from Thermophilic Fungi for Producing Efficient Lignocellulolytic Enzyme Cocktails.

Author

Agrawal D, Basotra N, Balan V, Tsang A, and Chadha BS

Subjects

Carboxymethylcellulose Sodium, Cellulose chemistry, Cloning, Molecular, Enzyme Stability, Fungal Proteins chemistry, Fungi genetics, Gene Expression Regulation, Fungal, Hydrogen Peroxide, Hydrogen-Ion Concentration, Hydrolysis, Kinetics, Mixed Function Oxygenases classification, Onygenales enzymology, Onygenales genetics, Onygenales metabolism, Phylogeny, Saccharomycetales enzymology, Substrate Specificity, Temperature, Fungi enzymology, Fungi metabolism, Lignin metabolism, Mixed Function Oxygenases genetics, Mixed Function Oxygenases metabolism, Polysaccharides metabolism

Abstract

In this study, two novel thermostable lytic polysaccharide monooxygenases (LPMOs) were cloned from thermophilic fungus Scytalidium thermophilum (PMO9D_SCYTH) and Malbranchea cinnamomea (PMO9D_MALCI) and expressed in the methylotrophic yeast Pichia pastoris X33. The purified PMO9D_SCYTH was active at 60 °C (t 1/2 = 60.58 h, pH 7.0), whereas, PMO9D_MALCI was optimally active at 50 °C (t 1/2 = 144 h, pH 7.0). The respective catalytic efficiency (k cat /K m ) of PMO9D_SCYTH and PMO9D_MALCI determined against avicel in presence of H 2 O 2 was (6.58 × 10 -3 and 1.79 × 10 -3 mg -1 ml min -1 ) and carboxy-methylcellulose (CMC) (1.52 × 10 -1 and 2.62 × 10 -2 mg -1 ml min -1 ). The HRMS analysis of products obtained after hydrolysis of avicel and CMC showed the presence of both C 1 and C 4 oxidized oligosaccharides, in addition to phylogenetic tree constructed with other characterized type 1 and 3 LPMOs demonstrated that both LPMOs belongs to type-3 family of AA9s. The release of sugars during saccharification of acid/alkali pretreated sugarcane bagasse and rice straw was enhanced upon replacing one part of commercial enzyme Cellic CTec2 with these LPMOs.

Published

2020

20. Enhanced hydrolysis of lignocellulosic biomass with doping of a highly thermostable recombinant laccase.

Author

Rai R, Bibra M, Chadha BS, and Sani RK

Subjects

Enzyme Activation, Enzyme Stability, Hydrolysis, Ions chemistry, Laccase genetics, Laccase isolation & purification, Metals chemistry, Recombinant Proteins, Thermodynamics, Biomass, Laccase chemistry, Lignin chemistry

Abstract

A highly thermostable laccase from Geobacillus sp. strain WSUCF1 was cloned into Escherichia coli (E. coli) using pRham N-His SUMO expression system. The thermostable laccase with a molecular weight ~30 kDa had a t 1/2 (pH 6.0) of 120 h at 50 °C. The homology modelling for laccase structure showed the presence of Cu active centers with His and Cys residues involved in the active site and ligand binding activity of the enzyme, respectively. The K m , V max , K cat and K cat /K m values of the purified enzyme with ABTS were found to be 0.146 mM, 1.52 U/mg, 1037 s -1 and 7102.7 s -1  mM -1 , respectively. The doping of recombinant WSUCF1 laccase to commercial enzyme cocktails Accellerase® 1500 and Cellic CTec2 improved the hydrolysis of untreated, alkali and acid treated corn stover by 1.31-2.28 times and bagasse by 1.32-2.02 times. Further, in-house enzyme cocktails with laccase hydrolyzed untreated, alkali and acid treated bagasse and gave 1.44, 1.1, and 0.92 folds higher sugar, respectively, when compared with Accellerase 1500. The results suggested that thermostable laccase can aid in the improved hydrolysis of lignocellulosic biomass., (Copyright © 2019 Elsevier B.V. All rights reserved.)

Published

2019

21. Characterization of a novel Lytic Polysaccharide Monooxygenase from Malbranchea cinnamomea exhibiting dual catalytic behavior.

Author

Basotra N, Dhiman SS, Agrawal D, Sani RK, Tsang A, and Chadha BS

Subjects

Biocatalysis, Carbohydrate Conformation, Mixed Function Oxygenases chemistry, Molecular Docking Simulation, Polysaccharides chemistry, Ascomycota enzymology, Mixed Function Oxygenases metabolism, Polysaccharides metabolism

Abstract

A novel Lytic Polysaccharide Monooxygenase (LPMO) family AA9 (PMO9A_MALCI) protein from thermophilic fungus Malbranchea cinnamomea was cloned and expressed in Pichia pastoris. The expressed protein was purified to homogeneity using ion exchange and hydrophobic interaction chromatography. SDS-PAGE analysis showed PMO9A_MALCI to be ~27 kDa protein. High performance anion exchange chromatography and mass spectrometry confirmed that purified protein was active against an array of cellulosic (avicel, carboxy methyl cellulose) and hemicellulosic (birch wood xylan, wheat arabinoxylan and rye arabinoxylan) substrates, releasing both oxidized and unoxidized cello-oligosaccharide and xylo-oligosaccharide products respectively. Presence of double oxidized products during mass spectrometric analysis as well as in-silico analysis confirmed that the expressed protein belongs to Type 3 LPMO family. Molecular dynamic simulations further confirmed the sharing of common amino acid residues conserved for catalysis of both cellulosic and hemicellulosic substrates which further indicates that both substrates are equally preferred. Enzymatic cocktails constituted by replacing a part of commercial cellulase CellicCTec2 with PMO9A_MALCI (9:1/8:2) led to synergistic improvement in saccharification of acid and alkali pretreated biomass. This is the first report on heterologous expression of LPMO from M. cinnamomea, exhibiting catalysis of cellulose and pure xylan., (Copyright © 2019 Elsevier Ltd. All rights reserved.)

Published

2019

22. Thermostable xylanases from thermophilic fungi and bacteria: Current perspective.

Author

Chadha BS, Kaur B, Basotra N, Tsang A, and Pandey A

Subjects

Bacteria enzymology, Fungi enzymology, Industry, Endo-1,4-beta Xylanases metabolism

Abstract

Thermostable xylanases from thermophilic fungi and bacteria have a wide commercial acceptability in feed, food, paper and pulp and bioconversion of lignocellulosics with an estimated annual market of USD 500 Million. The genome wide analysis of thermophilic fungi clearly shows the presence of elaborate genetic information coding for multiple xylanases primarily coding for GH10, GH11 in addition to GH7 and GH30 xylanases. The transcriptomics and proteome profiling has given insight into the differential expression of these xylanases in some of the thermophilic fungi. Bioprospecting has resulted in identification of novel thermophilic xylanases that have been endorsed by the industrial houses for heterologous over- expression and formulations. The future use of xylanases is expected to increase exponentially for their role in biorefineries. The discovery of new and improvement of existing xylanases using molecular tools such as directed evolution is expected to be the mainstay to meet increasing demand of thermostable xylanases., (Copyright © 2019 Elsevier Ltd. All rights reserved.)

Published

2019

23. Evaluating novel fungal secretomes for efficient saccharification and fermentation of composite sugars derived from hydrolysate and molasses into ethanol.

Author

Brar KK, Agrawal D, Chadha BS, and Lee H

Subjects

Cellulose metabolism, Hydrolysis, Metabolome, Molasses, Aspergillus metabolism, Ethanol metabolism, Fermentation, Saccharum metabolism, Sordariales metabolism, Sugars metabolism

Abstract

This paper evaluates the ability of secretome from two thermotolerant fungal strains (Aspergillus terreus 9DR and Achaetomium strumarium 10DR) for boosting the hydrolytic efficiency of benchmark cellulolytic preparation (Cellic CTec2). Further we report enhanced saccharification of different agro-residues under semi-aerobic when compared to aerobic conditions. The mass spectroscopic analysis of the hydrolysates indicates the role of auxiliary oxidative enzymes present in A. terreus and A. strumarium secretomes for enhancing the capability of the cellulolytic cocktails. The paper further demonstrate positive effect of using the cocktails for enhanced saccharification and subsequent fermentation to ethanol of acid pre-treated rice straw, corn residues and sugarcane bagasse at higher substrate loading rates (20% w/v). The paper also reports co-utilization of composite sugars derived from molasses and enzymatic hydrolysate obtained from agnostic lignocellulosics for efficient bioconversion to ethanol applicable for developing BOLT-ON technology., (Copyright © 2018. Published by Elsevier Ltd.)

Published

2019

24. Producing methane, methanol and electricity from organic waste of fermentation reaction using novel microbes.

Author

Dhiman SS, Shrestha N, David A, Basotra N, Johnson GR, Chadha BS, Gadhamshetty V, and Sani RK

Subjects

Anaerobiosis, Electricity, Fermentation, Methanol, Refuse Disposal, Biofuels, Bioreactors, Methane

Abstract

Residual solid and liquid streams from the one-pot CRUDE (Conversion of Raw and Untreated Disposal into Ethanol) process were treated with two separate biochemical routes for renewable energy transformation. The solid residual stream was subjected to thermophilic anaerobic digestion (TAD), which produced 95 ± 7 L methane kg -1 volatile solid with an overall energy efficiency of 12.9 ± 1.7%. A methanotroph, Methyloferula sp., was deployed for oxidation of mixed TAD biogas into methanol. The residual liquid stream from CRUDE process was used in a Microbial Fuel Cell (MFC) to produce electricity. Material balance calculations confirmed the integration of biochemical routes (i.e. CRUDE, TAD, and MFC) for developing a sustainable approach of energy regeneration. The current work demonstrates the utilization of different residual streams originated after food waste processing to release minimal organic load to the environment., (Copyright © 2018 Elsevier Ltd. All rights reserved.)

Published

2018

25. Expression of catalytically efficient xylanases from thermophilic fungus Malbranchea cinnamomea for synergistically enhancing hydrolysis of lignocellulosics.

Author

Basotra N, Joshi S, Satyanarayana T, Pati PK, Tsang A, and Chadha BS

Subjects

Catalysis, Cloning, Molecular, Enzyme Stability, Hydrogen-Ion Concentration, Hydrolysis, Recombinant Proteins, Substrate Specificity, Temperature, Xylosidases chemistry, Xylosidases isolation & purification, Ascomycota enzymology, Ascomycota genetics, Gene Expression, Lignin chemistry, Xylosidases genetics, Xylosidases metabolism

Abstract

In this study, two xylanase genes (GH10 and GH11) derived from Malbranchea cinnamomea, designated as XYN10A_MALCI and XYN11A_MALCI, respectively, were expressed in Pichia pastoris X33. The maximum level of xylanase expression was found to be 24.3U/ml for rXYN10A_MALCI and 573.32U/ml for rXYN11A_MALCI. The purified recombinant rXYN11A_MALCI was stable at 70°C and catalytically active against a variety of substituted (arabinoxylans) as well as unsubstituted xylans. The hydrolytic potential of recombinant xylanases for enhancing the hydrolysis of acid/alkali pretreated lignocellulosics (rice straw and bagasse) by the commercial cellulase Cellic CTec2 was assessed which revealed that both rXYN10A_MALCI and rXYN11A_MALCI act synergistically with commercial cellulases and resulted in 1.54 and 1.58 folds improved hydrolysis of acid treated rice straw and alkali treated rice straw using cocktail comprising of Cellic CTec2 and XYN11A_MALCI (8:2 ratio) when compared to Cellic CTec2 alone at same protein loading rate of (∼5.7mg/g biomass)., (Copyright © 2017 Elsevier B.V. All rights reserved.)

Published

2018

26. Potential of oleaginous yeast Trichosporon sp., for conversion of sugarcane bagasse hydrolysate into biodiesel.

Author

Brar KK, Sarma AK, Aslam M, Polikarpov I, and Chadha BS

Subjects

Cellulose, Biofuels, Saccharum, Trichosporon

Abstract

This study reports production of microbial oil from a yeast strain Trichosporon sp., (RW) isolated from decayed wood. Preliminary analysis based on fluorescence microscopy and spectroscopy of Nile red stained yeast cells showed accumulation of lipid globules. The potential of the yeast to produce lipids was evaluated on glucose, glycerol and acid hydrolysate of sugarcane bagasse, where Trichosporon sp. (RW) was found to accumulate 21.45 (59.6%), 18.41 (56%) and 10.25g/l (40.5%) of the lipids after 120h of fermentation at 30°C. FAME analysis of lipids by GC-FID and NMR revealed oleic acid (18:1) as the major constituent, corresponding to 50.05, 46.48 and 54.66% of the accumulated lipids in glucose, glycerol and hydrolysate grown cultures, respectively. Other accumulated lipids included palmitic (16:0), linoleic (18:2) and stearic acids (18:0) in that order. The cetane number of the lipids ranged from 52.39 to 59.57 indicating suitability for biodiesel production., (Copyright © 2017 Elsevier Ltd. All rights reserved.)

Published

2017

27. Mycothermus thermophilus (Syn. Scytalidium thermophilum): Repertoire of a diverse array of efficient cellulases and hemicellulases in the secretome revealed.

Author

Basotra N, Kaur B, Di Falco M, Tsang A, and Chadha BS

Subjects

Cellulase metabolism, Cellulose chemistry, Cellulose metabolism, Cellulose 1,4-beta-Cellobiosidase metabolism, Culture Media chemistry, Dietary Fiber, Esterases metabolism, Hydrolysis, Mass Spectrometry, Oryza chemistry, Oryza metabolism, Polysaccharide-Lyases metabolism, beta-Glucosidase metabolism, Ascomycota enzymology, Cellulases metabolism, Glycoside Hydrolases metabolism

Abstract

Mycothermus thermophilus (Syn. Scytalidium thermophilum/Humicola insolens), a thermophilic fungus, is being reported to produce appreciable titers of cellulases and hemicellulases during shake flask culturing on cellulose/wheat-bran/rice straw based production medium. The sequential and differential expression profile of endoglucanases, β-glucosidases, cellobiohydrolases and xylanases using zymography was studied. Mass spectrometry analysis of secretome (Q-TOF LC/MS) revealed a total of 240 proteins with 92 CAZymes of which 62 glycosyl hydrolases belonging to 30 different families were present. Cellobiohydrolase I (17.42%), β glucosidase (8.69%), endoglucanase (6.2%), xylanase (4.16%) and AA9 (3.95%) were the major proteins in the secretome. In addition, carbohydrate esterases, polysaccharide lyases, auxiliary activity and a variety of carbohydrate binding modules (CBM) were identified using genomic database of the culture indicating to an elaborate genetic potential of this strain for hydrolysis of lignocellulosics. The cellulases from the strain hydrolyzed alkali treated rice straw and bagasse into fermentable sugars efficiently., (Copyright © 2016 Elsevier Ltd. All rights reserved.)

Published

2016

28. Cholinesterase inhibitor (Altenuene) from an endophytic fungus Alternaria alternata: optimization, purification and characterization.

Author

Bhagat J, Kaur A, Kaur R, Yadav AK, Sharma V, and Chadha BS

Subjects

Alternaria isolation & purification, Alternaria metabolism, Animals, Cholinesterase Inhibitors metabolism, Cholinesterase Inhibitors pharmacology, Cholinesterases chemistry, Cholinesterases metabolism, Endophytes isolation & purification, Endophytes metabolism, Insect Proteins metabolism, Insecticides isolation & purification, Insecticides pharmacology, Lactones isolation & purification, Lactones metabolism, Lactones pharmacology, Spodoptera drug effects, Spodoptera enzymology, Alternaria chemistry, Catharanthus microbiology, Cholinesterase Inhibitors chemistry, Cholinesterase Inhibitors isolation & purification, Endophytes chemistry, Insect Proteins antagonists & inhibitors, Insecticides chemistry, Lactones chemistry

Abstract

Aims: The aim of this study was to screen endophytic fungi isolated from Vinca rosea for their potential to produce acetylcholinesterase (AChE) inhibitors., Method and Results: Endophytic fungi isolated from V. rosea (Catharanthus roseus), were screened for AChE inhibitor production using Ellman's method. Maximum inhibition against AChE (78%) was observed in an isolate VS-10, identified to be Alternaria alternata on morphological and molecular basis. The isolate also inhibited butyrylcholinesterase (73%). Significant increase (1·3 fold) was achieved after optimization of process parameters using one variable at time approach. The inhibitor was purified using chromatographic techniques. The structure elucidation of the inhibitor was carried out using spectroscopic techniques and was identified to be 'altenuene'. The purified inhibitor possessed antioxidant potential as revealed by dot blot assay. The insecticidal potential of purified inhibitor was evaluated by feeding Spodoptora litura on diet amended with inhibitor. It evinced significant larval mortality., Conclusions: Endophytic A. alternata can serve as a source of dual cholinesterase inhibitor 'altenuene' with significant antioxidant and insecticidal activity. This is the first report on acetylcholinestearse inhibitory activity of altenuene., Significance and Impact of the Study: Alternaria alternata has the potential to produce a dual ChE inhibitor with antioxidant activity useful in the treatment of neurodegenerative disorders and in agriculture as biocontrol agent., (© 2016 The Society for Applied Microbiology.)

Published

2016

29. Evaluation of secretome of highly efficient lignocellulolytic Penicillium sp. Dal 5 isolated from rhizosphere of conifers.

Author

Rai R, Kaur B, Singh S, Di Falco M, Tsang A, and Chadha BS

Subjects

Bacterial Proteins metabolism, Cellulase metabolism, Cellulose chemistry, Cellulose metabolism, Cellulose 1,4-beta-Cellobiosidase metabolism, Dietary Fiber metabolism, Hydrolysis, India, Oryza metabolism, Rhizosphere, Tandem Mass Spectrometry, Tracheophyta microbiology, beta-Glucosidase metabolism, Enzymes metabolism, Lignin metabolism, Penicillium isolation & purification, Penicillium metabolism

Abstract

Penicillium sp. (Dal 5) isolated from rhizosphere of conifers from Dalhousie (Himachal Pradesh, India) was found to be an efficient cellulolytic strain. The culture under shake flask on CWR (cellulose, wheat bran and rice straw) medium produced appreciably higher levels of endoglucanase (35.69U/ml), β-glucosidase (4.20U/ml), cellobiohydrolase (2.86U/ml), FPase (1.2U/ml) and xylanase (115U/ml) compared to other Penicillium strains reported in literature. The mass spectroscopy analysis of Penicillium sp. Dal 5 secretome identified 108 proteins constituting an array of CAZymes including glycosyl hydrolases (GH) belonging to 24 different families, polysaccharide lyases (PL), carbohydrate esterases (CE), lytic polysaccharide mono-oxygenases (LPMO) in addition to swollenin and a variety of carbohydrate binding modules (CBM) indicating an elaborate genetic potential of this strain for hydrolysis of lignocellulosics. Further, the culture extract was evaluated for hydrolysis of alkali treated rice straw, wheat straw, bagasse and corn cob at 10% substrate loading rate., (Copyright © 2016 Elsevier Ltd. All rights reserved.)

Published

2016

30. Profiling and production of hemicellulases by thermophilic fungus Malbranchea flava and the role of xylanases in improved bioconversion of pretreated lignocellulosics to ethanol.

Author

Sharma M, Mahajan C, Bhatti MS, and Chadha BS

Abstract

This study reports thermophilic fungus Malbranchea flava as a potent source of xylanase and xylan-debranching accessory enzymes. M. flava produced high levels of xylanase on sorghum straw containing solidified culture medium. The optimization of culture conditions for production of hemicellulases was carried out using one factor at a time approach and Box-Behnken design of experiments with casein (%), inoculum age (h) and inoculum level (ml) as process variables and xylanase, β-xylosidase, acetyl esterases and arabinofuranosidase as response variables. The results showed that casein concentration between 3.0 and 3.5 %, inoculum age (56-60 h) and inoculum level (2-2.5 ml) resulted in production of 16,978, 10.0, 67.7 and 3.8 (U/gds) of xylanase, β-xylosidase, acetyl esterase and α-L-arabinofuranosidase, respectively. Under optimized conditions M. flava produced eight functionally diverse xylanases with distinct substrate specificity against different xylan types. The peptide mass fingerprinting of 2-D gel electrophoresis resolved proteins indicated to the presence of cellobiose dehydrogenase and glycosyl hydrolases suggesting the potential of this strain in oxidative and classical cellulase-mediated hydrolysis of lignocellulosics. Addition of xylanase (300 U/g substrate) during saccharification (at 15 % substrate loading) of different pretreated (acid/alkali) substrates (cotton stalks, wheat straw, rice straw, carrot grass) by commercial cellulase (NS28066) resulted in 9-36 % increase in saccharification and subsequent fermentation to ethanol when compared to experiment with commercial enzyme only. High ethanol level 46 (g/l) was achieved with acid pretreated cotton stalk when M. flava xylanase was supplemented as compared to 39 (g/l) with xylanase without xylanase addition.

Published

2016

31. Malbranchea cinnamomea: A thermophilic fungal source of catalytically efficient lignocellulolytic glycosyl hydrolases and metal dependent enzymes.

Author

Mahajan C, Basotra N, Singh S, Di Falco M, Tsang A, and Chadha BS

Subjects

Asteraceae chemistry, Carbohydrate Dehydrogenases chemistry, Carbohydrate Dehydrogenases metabolism, Catalysis, Cellulase chemistry, Cellulase metabolism, Fungal Proteins chemistry, Glycoside Hydrolases chemistry, Hydrolysis, Metals metabolism, Plant Weeds chemistry, Plant Weeds metabolism, Tandem Mass Spectrometry, Asteraceae metabolism, Fungal Proteins metabolism, Glycoside Hydrolases metabolism, Onygenales enzymology

Abstract

This study reports thermophilic fungus Malbranchea cinnamomea as an important source of lignocellulolytic enzymes. The secretome analysis using LC-MS/MS orbitrap showed that fungus produced a spectrum of glycosyl hydrolases (cellulase/hemicellulase), polysaccharide lyases (PL) and carbohydrate esterases (CE) in addition to cellobiose dehydrogenase (CDH) indicating the presence of functional classical and oxidative cellulolytic mechanisms. The protein fractions in the secretome resolved by ion exchange chromatography were analyzed for ability to hydrolyze alkali treated carrot grass (ATCG) in the presence of Mn(2+)/Cu(2+). This strategy in tandem with peptide mass fingerprinting led to identification of metal dependent protein hydrolases with no apparent hydrolytic activity, however, showed 5.7 folds higher saccharification in presence of Mn(2+). Furthermore, adding different protein fractions to commercial cellulase (Novozymes: Cellic CTec2) resulted in enhanced hydrolysis of ATCG ranging between 1.57 and 3.43 folds indicating the enzymes from M. cinnamomea as catalytically efficient., (Copyright © 2015 Elsevier Ltd. All rights reserved.)

Published

2016

32. Penicillium janthinellum: a source of efficient and high levels of β-glucosidase.

Author

Kaur A and Chadha BS

Subjects

Enzyme Stability, Forests, Glycosylation, Hydrogen-Ion Concentration, Kinetics, Metals pharmacology, Penicillium enzymology, Plant Leaves metabolism, Quercus microbiology, Substrate Specificity, Temperature, beta-Glucosidase chemistry, beta-Glucosidase isolation & purification, Penicillium metabolism, beta-Glucosidase biosynthesis, beta-Glucosidase metabolism

Abstract

Penicillium janthinellum strain isolated from leaf litters of oak trees from montane alpine forests of Shivalik hills (India) produced high levels of β-glucosidase both during solid-state fermentation (796 units/gds) and shake flask cultures (65.3 units/ml). The peptide mass fingerprinting of the secretome showed a variety of glycosyl hydrolases. β-Glucosidase was purified and characterized to be a GH3 family member that had a molecular weight (M r) of 101 kDa and pI of 4.5. β-Glucosidase was optimally active at 60 °C at pH 5.0 but showed appreciable activity and thermostability under alkaline conditions (pH 9.0) also. β-Glucosidase activity was positively modulated in the presence of Mn(2+) ions. The enzyme preferentially catalyzed the hydrolysis of p-nitrophenol-β-D-glucopyranoside (pNPG) but also recognized cellobiose as substrates. K m and V max for the hydrolysis of pNPG by β-glucosidase were calculated as 3.3 mM and 444 μmol min(-1) mg protein(-1). Purified β-glucosidase showed transglycosylation activity in the presence of methanol as an acceptor molecule.

Published

2015

33. An acidothermophilic functionally active novel GH12 family endoglucanase from Aspergillus niger HO: purification, characterization and molecular interaction studies.

Author

Rawat R, Kumar S, Chadha BS, Kumar D, and Oberoi HS

Subjects

Carboxymethylcellulose Sodium metabolism, Cellulase chemistry, Chromatography, Gel, Chromatography, Ion Exchange, Enzyme Activators analysis, Enzyme Inhibitors analysis, Enzyme Stability, Hydrogen-Ion Concentration, Hydrolysis, Kinetics, Molecular Docking Simulation, Molecular Weight, Temperature, Ultrafiltration, Aspergillus niger enzymology, Cellulase isolation & purification, Cellulase metabolism

Abstract

Endoglucanase (EG) from Aspergillus niger HO was sequentially purified through ultrafiltration, ion exchange and size exclusion chromatography to homogeneity, with an overall recovery of 18 %. The purified EG was a monomeric protein with a molecular weight of about 55 kDa. The enzyme was optimally active at pH 3.5 and 70 °C with a half life (t1/2) of 3 h and Km value of 2.5 mg/ml. Metal ions, such as Ca(2+) and Co(2+) helped in enzyme induction, while Hg(2+) and Cu(2+) strongly inhibited the enzyme activity. Peptide mass fingerprinting results revealed that the purified EG is a novel enzyme that belongs to family 12 of glycoside hydrolase (GH12). Molecular docking studies indicated the presence of Glu116 and Glu204 as important determinant residues for the functional interaction with carboxymethylcellulose and showed hydrogen bonding with Asp99, Glu116, Glu204 and hydrophobic interactions with Trp22, Val58, Tyr61, Phe101, Met118, Trp120, Pro129, Ile130, Thr160 and Phe206. Hydrolysis of 2 % CMC with purified acidothermophilic EG at its optimum temperature and pH resulted in complete hydrolysis within 2 h yielding 18 % cellotriose, 72 % cellobiose and 10 % glucose as evident from HPLC analysis. In comparison to most of the EGs reported in literature, EG from A. niger HO exhibited higher thermostability. The acidothermophilic nature of this enzyme makes it potentially useful for industrial applications.

Published

2015

34. Evaluation of glycosyl hydrolases from thermophilic fungi for their potential in bioconversion of alkali and biologically treated Parthenium hysterophorus weed and rice straw into ethanol.

Author

Mahajan C, Chadha BS, Nain L, and Kaur A

Subjects

Base Sequence, DNA Primers, Electrophoresis, Polyacrylamide Gel, Fermentation, Phylogeny, Polymerase Chain Reaction, Asteraceae metabolism, Ethanol metabolism, Hydrolases metabolism, Oryza metabolism, Trametes metabolism

Abstract

The aim of this work was to evaluate glycosyl hydrolases produced by diverse thermophilic fungal strains for saccharification of alkali and biologically (Trametes hirusita/Myrothecium roridum) treated Parthenium hysterophorus and rice straw. The compositional analysis of hydrolysates by HPLC showed distinct profiles of hexose, pentose and oligomeric sugars. Malbranchea cinnamomea was most efficient source of glycosyl hydrolases producing 283.8, 35.9, 129.6, 27,193, 4.66, 7.26(units/gds) of endoglucanase, cellobiohydrolase, β-glucosidase, xylanase, α-αrabinofuranosidase and β xylosidase, respectively. The saccharification of alkali and biologically treated carrot grass by culture extract of M. cinnamomea was further enhanced by supplementation of β-glucosidase produced by Aspergillus sp. mutant "O". The resultant hydrolysates containing glucose/xylose were fermented efficiently to ethanol by Saccharomyces cerevisiae owing to presence of xylose isomerase (0.8 units/gds) activity in culture extract of M. cinnamomea resulting in production of 16.5 and 15.0 g/l of ethanol from alkali treated rice straw and carrot grass, respectively., (Copyright © 2014 Elsevier Ltd. All rights reserved.)

Published

2014

35. Statistical Optimization of Medium Components for Mass Production of Plant Growth-Promoting Microbial Inoculant Pseudomonas trivialis BIHB 745 (MTCC5336).

Author

Vyas P, Rahi P, Chadha BS, and Gulati A

Abstract

Optimizing nutritional requirements for mass production of microbial inoculants in shortened time has relevance for their economical field application. Therefore, the present study aimed at selecting suitable growth medium, optimizing its components, and up-scaling inoculum production for plant growth-promoting Pseudomonas trivialis BIHB 745. Of the different media tested, the culture exhibited maximal viable colony count in trypticase soya broth with 17.6 % increased biomass on optimizing levels of carbon source, nitrogen source, and NaCl using response surface methodology. A twofold higher biomass with 9 h shorter incubation period was obtained in optimized medium in a bioreactor in comparison to shake flasks.

Published

2014

36. Enhanced cellulase producing mutants developed from heterokaryotic Aspergillus strain.

Author

Kaur B, Oberoi HS, and Chadha BS

Subjects

Amino Acid Sequence, Cellulase metabolism, Electrophoresis, Polyacrylamide Gel, Fermentation, Hydrolysis, Kinetics, Molecular Sequence Data, Peptide Mapping, Proteomics, Zea mays chemistry, beta-Glucosidase chemistry, beta-Glucosidase metabolism, Aspergillus enzymology, Aspergillus genetics, Cellulase biosynthesis, Mutation genetics, Protoplasts metabolism

Abstract

A heterokaryon 28, derived through protoplast fusion between Aspergillus nidulans and Aspergillus tubingensis (Dal8), was subjected cyclic mutagenesis followed by selection on increasing levels of 2-deoxy glucose (2-DG) as selection marker. The derived deregulated cellulase hyper producing mutant '64', when compared to fusant 28, produced 9.83, 7.8, 3.2, 4.2 and 19.74 folds higher endoglucanase, β-glucosidase, cellobiohydrolase, FPase and xylanase, respectively, under shake cultures. The sequence analysis of PCR amplified β-glucosidase gene from wild and mutant showed nucleotide deletion/substitution. The mutants showed highly catalytic efficient β-glucosidase as evident from low Km and high Vmax values. The expression profiling through zymogram analysis also indicated towards over-expression of cellulases. The up/down regulated expressed proteins observed through SDS-PAGE were identified by Peptide mass fingerprinting The cellulase produced by mutants in conjunction with cellulase free xylanase derived from Thermomyces lanuginosus was used for efficient utilization of alkali treated rice straw for obtaining xylo-oligosaccharides and ethanol., (Copyright © 2014 Elsevier Ltd. All rights reserved.)

Published

2014

37. Response surface optimization for enhanced production of cellulases with improved functional characteristics by newly isolated Aspergillus niger HN-2.

Author

Oberoi HS, Rawat R, and Chadha BS

Subjects

Aspergillus niger genetics, Aspergillus niger growth & development, Cellulase chemistry, Cellulase genetics, Cellulose metabolism, Culture Media chemistry, Culture Media metabolism, Enzyme Stability, Fungal Proteins chemistry, Fungal Proteins genetics, Molecular Sequence Data, Phylogeny, Spores, Fungal chemistry, Spores, Fungal enzymology, Spores, Fungal genetics, Spores, Fungal growth & development, Wood metabolism, Aspergillus niger enzymology, Aspergillus niger isolation & purification, Cellulase metabolism, Fungal Proteins metabolism, Wood microbiology

Abstract

Fungi isolated from partially decayed wood log samples showing characteristic diversity for spore colour, colony morphology and arrangement of spores were assessed for cellulolytic enzyme production. Isolates showing a cellulolytic index of ≥2.0 were assayed for filter paper (FP) cellulase and β-glucosidase (BGL) production. Molecular characterization confirmed the identity of the selected cellulolytic isolate as a strain of Aspergillus niger (A. niger HN-2). Addition of 2 % (w/v) urea enhanced FP and BGL activity by about 20 and 60 %, respectively. Validation studies conducted at parameters (29 °C, pH 5.4, moisture content 72 % and 66 h) optimized through response surface methodology in a solid-state static tray fermentation resulted in FP, BGL, cellobiohydrolase I (CBHI), endoglucanase (EG), xylanase activity and protein content of 25.3 FPU/g ds, 750 IU/g ds, 13.2 IU/g ds, 190 IU/g ds, 2890 IU/g ds and 0.9 mg/ml, respectively. In comparison, A. niger N402 which is a model organism for growth and development studies, produced significantly lower FP, BGL, CBHI, EG, xylanase activity and protein content of 10.0 FPU/g ds, 100 IU/g ds, 2.3 IU/g ds, 50 IU/g ds, 500 IU/g ds and 0.75 mg/ml, respectively under the same process conditions as were used for A. niger HN-2. Process optimization led to nearly 1.8- and 2.2-fold increase in FP and BGL activity, respectively showing promise for cellulase production by A. niger HN-2 at a higher scale of operation. Zymogram analysis revealed two isoforms each for EG and cellobiohydrolase and three isoforms for BGL. Crude cellulase complex produced by A. niger HN-2 exhibited thermostability under acidic conditions showing potential for use in biofuel industry.

Published

2014

38. Two-stage statistical medium optimization for augmented cellulase production via solid-state fermentation by newly isolated Aspergillus niger HN-1 and application of crude cellulase consortium in hydrolysis of rice straw.

Author

Sandhu SK, Oberoi HS, Babbar N, Miglani K, Chadha BS, and Nanda DK

Subjects

Aspergillus niger classification, Aspergillus niger growth & development, Aspergillus niger isolation & purification, Batch Cell Culture Techniques instrumentation, Biocatalysis, Cellulases metabolism, Culture Media chemistry, Culture Media metabolism, Fermentation, Fungal Proteins metabolism, Hydrolysis, Molecular Sequence Data, Phylogeny, Plant Stems metabolism, Plant Stems microbiology, Refuse Disposal, Soil Microbiology, Aspergillus niger enzymology, Batch Cell Culture Techniques methods, Cellulases biosynthesis, Fungal Proteins biosynthesis, Oryza chemistry

Abstract

Cellulolytic enzyme production by newly isolated Aspergillus niger HN-1 was statistically optimized using Plackett-Burman and central composite design (CCD). Optimum concentrations of 2, 0.40, 0.01, and 0.60 g L (-1) for KH2PO4, urea, trace elements solution, and CaCl2·2H2O, respectively, were suggested by Design-Expert software. The two-stage optimization process led to a 3- and 2-fold increases in the filter paper cellulase (FP) and β-glucosidase activities, respectively. FP, β-glucosidase, endoglucanase, exopolygalaturonase, cellobiohydrolase, xylanase, α-l-arabinofuranosidase, β-xylosidase, and xylan esterase activities of 36.7 ± 1.54 FPU gds(-1), 252.3 ± 7.4 IU gds(-1), 416.3 ± 22.8 IU gds(-1), 111.2 ± 5.4 IU gds(-1), 8.9 ± 0.50 IU gds(-1), 2593.5 ± 78.9 IU gds(-1), 79.4 ± 4.3 IU gds(-1), 180.8 ± 9.3 IU gds(-1), and 288.7 ± 11.8 IU gds(-1), respectively, were obtained through solid-state fermentation during the validation studies. Hydrolysis of alkali-treated rice straw with crude cellulases resulted in about 84% glucan to glucose, 89% xylan to xylose, and 91% arabinan to arabinose conversions, indicating potential for biomass hydrolysis by the crude cellulase consortium obtained in this study.

Published

2013

39. Proteome-based profiling of hypercellulase-producing strains developed through interspecific protoplast fusion between Aspergillus nidulans and Aspergillus tubingensis.

Author

Kaur B, Sharma M, Soni R, Oberoi HS, and Chadha BS

Subjects

Species Specificity, Aspergillus classification, Aspergillus growth & development, Cell Fusion methods, Cellulase genetics, Fungal Proteins genetics, Proteome genetics, Protoplasts physiology

Abstract

Thirty heterokaryons, formed by protoplast fusion of Aspergillus nidulans and Aspergillus tubingensis, were selected on the basis of their ability to grow on 2-deoxyglucose (0.2 %, w/v) and intermediate spore color. These heterokaryons were studied for cellulase production using shake flask and solid substrate cultures at 40 °C. Fusants 51 and 28 exhibited appreciably higher levels of endoglucanase, cellobiohydrolase, β-glucosidase, and FPase activities when compared with parental strains. Employing proteomic-based approaches, the differential expression of proteins in secretome of fusants and parental strains were analyzed using two-dimensional electrophoresis. The expression of some of the proteins in the fusants was found to be up/downregulated. The upregulated proteins in the fusant 51 were identified by liquid chromatography-mass spectroscopy as endoxylanase, endochitinase, β-glucosidase, as well as hypothetical proteins. The cellulases produced by fusants 28 and 51 showed improved saccharification of alkali treated rice straw when compared with the parental strains.

Published

2013

40. acetylcholinesterase inhibitory potential and insecticidal activity of an endophytic Alternaria sp. from Ricinus communis.

Author

Singh B, Thakur A, Kaur S, Chadha BS, and Kaur A

Subjects

Acetylcholinesterase chemistry, Animals, Endophytes isolation & purification, Fungi chemistry, Ricinus chemistry, Spodoptera drug effects, Alternaria chemistry, Alternaria pathogenicity, Cholinesterase Inhibitors chemistry, Cholinesterase Inhibitors isolation & purification, Cholinesterase Inhibitors pharmacology, Endophytes chemistry, Insecticides chemistry, Insecticides isolation & purification

Abstract

Keeping in view the vast potential of endophytic fungi to produce bioactive molecules, this study aimed at isolating and screening endophytes for the production of acetylcholinesterase inhibitors. Fifty-four endophytic fungi were isolated from Ricinus communis and screened for their AChE inhibitory activity using Ellman's colorimetric assay method. Six isolates were found to possess AChE inhibitory activity with maximum inhibition of 78 % being evinced by culture Cas1 which was identified to be Alternaria sp. on the basis of molecular as well as microscopic methods. Optimization of inhibitor production was carried out using one factor at a time approach. Maximum production of inhibitor was obtained on potato dextrose broth after 10 days incubation. The IC(50) of the chloroform extract was observed to be 40 μg/ml. The extract was purified on silica gel and eluted stepwise with a gradient of chloroform/methanol. The insecticidal potential of the extract was evaluated by feeding the larvae of Spodoptera litura on diet containing varying concentrations of the extract. It was observed that with increase in the concentration of the extract, mortality of the larvae increased. The culture has the potential of being exploited in medicine as well as a biocontrol agent.

Published

2012

41. Ethanol production from alkali-treated rice straw via simultaneous saccharification and fermentation using newly isolated thermotolerant Pichia kudriavzevii HOP-1.

Author

Oberoi HS, Babbar N, Sandhu SK, Dhaliwal SS, Kaur U, Chadha BS, and Bhargav VK

Subjects

Cellulase metabolism, Fermentation, Hydrolysis, Pichia isolation & purification, Pichia ultrastructure, Saccharomyces cerevisiae metabolism, beta-Glucosidase metabolism, Biofuels, Ethanol metabolism, Industrial Microbiology, Oryza metabolism, Pichia physiology

Abstract

In this study, simultaneous saccharification and fermentation (SSF) was employed to produce ethanol from 1% sodium hydroxide-treated rice straw in a thermostatically controlled glass reactor using 20 FPU gds⁻¹ cellulase, 50 IU gds⁻¹ β-glucosidase, 15 IU gds⁻¹ pectinase and a newly isolated thermotolerant Pichia kudriavzevii HOP-1 strain. Scanning electron micrograph images showed that the size of the P. kudriavzevii cells ranged from 2.48 to 6.93 μm in diameter while the shape of the cells varied from oval, ellipsoidal to elongate. Pichia kudriavzevii cells showed extensive pseudohyphae formation after 5 days of growth and could assimilate sugars like glucose, sucrose, galactose, fructose, and mannose but the cells could not assimilate xylose, arabinose, cellobiose, raffinose, or trehalose. In addition, the yeast cells could tolerate up to 40% glucose and 5% NaCl concentrations but their growth was inhibited at 1% acetic acid and 0.01% cyclohexamide concentrations. Pichia kudriavzevii produced about 35 and 200% more ethanol than the conventional Saccharomyces cerevisiae cells at 40 and 45°C, respectively. About 94% glucan in alkali-treated rice straw was converted to glucose through enzymatic hydrolysis within 36 h. Ethanol concentration of 24.25 g l⁻¹ corresponding to 82% theoretical yield on glucan basis and ethanol productivity of 1.10 g l⁻¹ h⁻¹ achieved using P. kudriavzevii during SSF hold promise for scale-up studies. An insignificant amount of glycerol and no xylitol was produced during SSF. To the best of our knowledge, this is the first study reporting ethanol production from any lignocellulosic biomass using P. kudriavzevii.

Published

2012

42. Molecular and functional characterization of endophytic fungi from traditional medicinal plants.

Author

Bhagat J, Kaur A, Sharma M, Saxena AK, and Chadha BS

Subjects

Anti-Bacterial Agents metabolism, Anti-Bacterial Agents pharmacology, Antifungal Agents metabolism, Antifungal Agents pharmacology, Cluster Analysis, DNA, Fungal chemistry, DNA, Fungal genetics, DNA, Ribosomal chemistry, DNA, Ribosomal genetics, DNA, Ribosomal Spacer chemistry, DNA, Ribosomal Spacer genetics, Endophytes classification, Endophytes genetics, Fungi classification, Fungi genetics, Genes, rRNA, India, Molecular Sequence Data, Ocimum microbiology, Phylogeny, RNA, Fungal genetics, RNA, Ribosomal, 5.8S genetics, Sapindus microbiology, Sequence Analysis, DNA, Endophytes isolation & purification, Endophytes metabolism, Fungi isolation & purification, Fungi metabolism, Plants, Medicinal microbiology

Abstract

This study reports the isolation of 63 endophytic fungal isolates from two traditional medicinal plants, Ocimum sanctum and Sapindus detergens from different locations of Amritsar, India. The functional characterization of the fungi for their ability to produce anti bacterial and anti cancer agent was carried out. Sixteen strains were characterized at molecular level by sequencing the amplified ITSI-5.8-ITSII region of rDNA. The phylogenetic tree resolved the endophytic fungi into different clades. The fungal endophytes belonging to order Pleosporales (Alternaria sp., Phoma sojicola and Exserohilum sp.) were functionally versatile as they produced diverse biomolecules including antibacterial agent active against Mycobacterium smegmatis, as well as cytotoxic activity against different human cancer cell lines of lung, ovary, breast, prostrate, neuroblastoma and colon.

Published

2012

43. Evaluation of glycosyl hydrolases in the secretome of Aspergillus fumigatus and saccharification of alkali-treated rice straw.

Author

Sharma M, Soni R, Nazir A, Oberoi HS, and Chadha BS

Subjects

Cellulases metabolism, Electrophoresis, Gel, Two-Dimensional, Hydrolysis, Protein Isoforms metabolism, Alkalies chemistry, Aspergillus fumigatus enzymology, Glycoside Hydrolases metabolism, Oryza chemistry

Abstract

A thermotolerant Aspergillus fumigatus strain isolated from composting pile of mixed industrial waste was found to produce a spectrum of cellulase and hemicellulases when cultured on rice straw solidified substrate. The two-dimensional electrophoresis (2DE) resolved the secretome into 57 distinct protein spots. The zymograms developed against 2DE gels identified the presence of three β-glucosidases and five CBHI/EGI isoforms in the secretome. The peptide mass fingerprinting of 17 protein spots by liquid chromatography mass spectrometry characterized the secretome into different glycosyl hydrolase families. The enzyme cocktail produced by A. fumigatus was capable of efficient hydrolysis of alkali pretreated rice straw (at 7% and 10% w/v) resulting in 95% and 91% saccharification, respectively.

Published

2011

44. Response surface methodology for lovastatin production by Aspergillus terreus GD13 strain.

Author

Kaur H, Kaur A, Saini HS, and Chadha BS

Subjects

Aspergillus genetics, Aspergillus growth & development, Biomass, Carbon, Culture Media, Fermentation, Lactose metabolism, Nitrogen, Soil Microbiology, Aspergillus metabolism, Lovastatin biosynthesis, Mycology methods, Glycine max

Abstract

A wild type Aspergillus terreus GD13 strain, chosen after extensive screening, was optimized for lovastatin production using statistical Box-Behnken design of experiments. The interactive effect of four process parameters, i.e. lactose and soybean meal, inoculum size (spore concentration) and age of the spore culture, on the production of lovastatin was evaluated employing response surface methodology (RSM). The model highlighted the positive effect of soybean meal concentration and inoculum level for achieving maximal level of lovastatin (1342 mg/l). The optimal fermentation conditions improved the lovastatin titre by 7.0-folds when compared to the titres obtained under unoptimized conditions.

Published

2010

45. Purification and characterization of two thermostable xylanases from Malbranchea flava active under alkaline conditions.

Author

Sharma M, Chadha BS, and Saini HS

Subjects

Endo-1,4-beta Xylanases isolation & purification, Enzyme Stability, Hydrogen-Ion Concentration, Temperature, Alkalies chemistry, Ascomycota enzymology, Endo-1,4-beta Xylanases chemistry, Endo-1,4-beta Xylanases metabolism

Abstract

Two xylanases, MFX I and MFX II, from the thermophilic fungus Malbranchea flava MTCC 4889 with molecular masses of 25.2 and 30kDa and pIs of 4.5 and 3.7, respectively were purified to homogeneity. The xylanases were optimally active at pH 9.0 and at 60 degrees C, exhibited a half-life of 4h at 60 degrees C, and showed distinct mode of action and product profiles when applied to birchwood, oat spelt, and larchwood xylan, and to wheat and rye arabinoxylan. The xylanases were most active on larchwood xylan with K(m) values of 1.25 and 3.7mg/ml. K(cat)/K(m) values suggested that the xylanases preferentially hydrolyzed rye arabinoxylan. LC-MS/MS (liquid chromatography/mass spectrometry) analysis of tryptic digests of MFX I and MFX II revealed similarity with known fungal xylanases and suggests that that they belonged to the GH 11 and 10 glycosyl hydrolase super families, respectively. These xylanases can potentially be used in enzyme-assisted bleaching of the pulp derived from agro-residues, as well as production of xylooligosaccharides for pre-biotic functional food applications.

Published

2010

46. Profiling differential expression of cellulases and metabolite footprints in Aspergillus terreus.

Author

Nazir A, Soni R, Saini HS, Kaur A, and Chadha BS

Subjects

Aspergillus metabolism, Cellulase metabolism, Down-Regulation, Isoenzymes analysis, Isoenzymes metabolism, Substrate Specificity, Up-Regulation, beta-Glucosidase metabolism, Aspergillus chemistry, Cellulase analysis, beta-Glucosidase analysis

Abstract

This study reports differential expression of endoglucanase (EG) and beta-glucosidase (betaG) isoforms of Aspergillus terreus. Expression of multiple isoforms was observed, in presence of different carbon sources and culture conditions, by activity staining of poly acrylamide gel electrophoresis gels. Maximal expression of four EG isoforms was observed in presence of rice straw (28 U/g DW substrate) and corn cobs (1.147 U/ml) under solid substrate and shake flask culture, respectively. Furthermore, the sequential induction of EG isoforms was found to be associated with the presence of distinct metabolites (monosaccharides/oligosaccharides) i.e., xylose (X), G(1), G(3) and G(4) as well as putative positional isomers (G(1)/G(2), G(2)/G(3)) in the culture extracts sampled at different time intervals, indicating specific role of these metabolites in the sequential expression of multiple EGs. Addition of fructose and cellobiose to corn cobs containing medium during shake flask culture resulted in up-regulation of EG activity, whereas addition of mannitol, ethanol and glycerol selectively repressed the expression of three EG isoforms (Ia, Ic and Id). The observed regulation profile of betaG isoforms was distinct when compared to EG isoforms, and addition of glucose, fructose, sucrose, cellobiose, mannitol and glycerol resulted in down-regulation of one or more of the four betaG isoforms.

Published

2010

47. Cytotoxic and apoptotic activity of essential oil from Ocimumviride towards COLO 205 cells.

Author

Sharma M, Agrawal SK, Sharma PR, Chadha BS, Khosla MK, and Saxena AK

Subjects

Annexin A5 metabolism, Cell Cycle drug effects, Cell Line, Tumor, Cell Survival drug effects, DNA biosynthesis, DNA genetics, DNA Fragmentation, Humans, Membrane Potentials drug effects, Microscopy, Electron, Scanning, Microscopy, Fluorescence, Mitochondrial Membranes drug effects, Mitochondrial Membranes ultrastructure, Phosphatidylserines metabolism, Antineoplastic Agents, Phytogenic pharmacology, Apoptosis drug effects, Ocimum chemistry, Plant Oils pharmacology

Abstract

We investigated the apoptosis inducing effect of essential oil (EO) from aerial parts of Ocimumviride in human colorectal adenocarcinoma cells (COLO 205 cell line). The COLO 205 cells were exposed to 0.0125-0.1 microl/ml of EO for 24, 48 and 72h. Growth inhibition was determined by sulphorhodamine B (SRB) assay. Double staining with acridine orange and ethidium bromide for nuclear changes was performed. Cell cycle analysis and change in mitochondrial membrane potential was quantified by flow cytometry. Subsequently, using annexin V/PI assay, the proportion of cells actively undergoing apoptosis was determined. Changes in DNA were observed by DNA ladder assay. Eventually the surface morphology of apoptotic cells was studied by scanning electron microscopy. EO is cytotoxic to COLO 205 cells in dose and time-dependent manner, as is evident by SRB assay. This observed cell death was due to apoptosis, as established by annexin V/PI assay, DNA ladder formation and scanning electron microscopy. Our results reveal that EO has apoptosis inducing effect against COLO 205 cells in vitro and is a promising candidate for further anti-cancer study., (Copyright 2009 Elsevier Ltd. All rights reserved.)

Published

2010

48. Aqueous phase partitioning of hexachlorocyclohexane (HCH) isomers by biosurfactant produced by Pseudomonas aeruginosa WH-2.

Author

Sharma S, Singh P, Raj M, Chadha BS, and Saini HS

Subjects

Emulsifying Agents chemistry, Environmental Monitoring methods, Environmental Restoration and Remediation, Hot Temperature, Hydrogen-Ion Concentration, Micelles, Protein Isoforms, Salts chemistry, Soil Pollutants chemistry, Temperature, Biodegradation, Environmental, Hexachlorocyclohexane chemistry, Pseudomonas aeruginosa metabolism, Surface-Active Agents chemistry

Abstract

The different isomers of technical-grade hexachlorocyclohexane (t-HCH) including the insecticidal gamma-isomer, commonly known as lindane, have been reported to be toxic, carcinogenic and endocrine disrupters. The spatial arrangements of the chlorine atoms on different isomers and low aqueous phase solubility contribute to their persistence in environment, beta-HCH being the most resistance to transformation. The biosurfactant preparation of Pseudomonas aeruginosa isolate WH-2 was evaluated for its ability to improve the aqueous phase partitioning of different isomers of HCH-muck. Further, the ability of biosurfactant preparation to emulsify HCH and n-hexadecane was checked under different conditions, usually characteristic of sites contaminated with pollutants viz. wide range of pH, temperature, and salinity. The data obtained from this study will be helpful in designing suitable bioremediation strategies for huge stock piles of HCH-muck and sites polluted by reckless use/disposal of HCH-isomers.

Published

2009

49. Biosurfactant production by Pseudomonas sp. and its role in aqueous phase partitioning and biodegradation of chlorpyrifos.

Author

Singh PB, Sharma S, Saini HS, and Chadha BS

Subjects

Biotransformation, Chlorpyrifos chemistry, Chromatography, Gas, Chromatography, High Pressure Liquid, Glycolipids isolation & purification, Glycolipids metabolism, Solubility, Surface-Active Agents isolation & purification, Chlorpyrifos metabolism, Pseudomonas metabolism, Surface-Active Agents metabolism

Abstract

Aim: To study the effect of biosurfactant on aqueous phase solubility and biodegradation of chlorpyrifos., Methods and Results: A Pseudomonas sp. (ChlD), isolated from agricultural soil by enrichment culture technique in the presence of chlorpyrifos, was capable of producing biosurfactant (rhamnolipids) and degrading chlorpyrifos (0.01 g l(-1)). The partially purified rhamnolipid biosurfactant preparation, having a CMC of 0.2 g l(-1), was evaluated for its ability to enhance aqueous phase partitioning and degradation of chlorpyrifos (0.01 g l(-1)) by ChlD strain. The best degradation efficiency was observed at 0.1 g l(-1) supplement of biosurfactant, as validated by GC and HPLC studies., Conclusion: The addition of biosurfactant at 0.1 g l(-1) resulted in more than 98% degradation of chlorpyrifos when compared to 84% in the absence of biosurfactant after 120-h incubation., Significance and Impact of the Study: This first report, to the best of our knowledge, on enhanced degradation of chlorpyrifos in the presence of biosurfactant(s), would help in developing bioremediation protocols to counter accumulation of organophosphates to toxic/carcinogenic levels in environment.

Published

2009

50. Screening and selection of lovastatin hyper-producing mutants of Aspergillus terreus using cyclic mutagenesis.

Author

Kaur H, Kaur A, Saini HS, and Chadha BS

Subjects

Aspergillus drug effects, Enzyme Inhibitors pharmacology, Ethylmaleimide pharmacology, Iodoacetamide pharmacology, Lovastatin genetics, Lovastatin pharmacology, Mutagenesis, Soil Microbiology, Aspergillus genetics, Aspergillus isolation & purification, Hydroxymethylglutaryl-CoA Reductase Inhibitors metabolism, Lovastatin biosynthesis

Abstract

134 fungal cultures isolated from different soil samples were screened for lovastatin production. Of these, 38 isolates produced different levels of lovastatin. An Aspergillus terreus strain GD13, producing 190 mg/l of lovastatin was selected and subjected to a rational mutation-selection programme based on the resistance to lovastatin and fatty acid synthase (FAS) inhibitors, viz., iodoacetamide and N-ethylmaleimide. After three cycles of mutagenesis, a hyper-producing mutant (EM19) exhibiting 7.5-fold (1424 mg/l) higher levels of lovastatin when compared to wild type parent strain was obtained.

Published

2009