18 results on '"Ajay Kumar Manhar"'
Search Results
2. Dark Fermentative Hydrogen Production from Lignocellulosic Agro-waste by a Newly Isolated Bacteria Staphylococcus Epidermidis B-6
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Devabrata Saikia, Kuldeep Gupta, Ajay Kumar Manhar, Manabendra Mandal, Dhrubajyoti Nath, and Payal Mazumder
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biology ,food and beverages ,Biomass ,Dark fermentation ,Xylose ,biology.organism_classification ,Hydrolysate ,chemistry.chemical_compound ,chemistry ,Staphylococcus epidermidis ,Fermentative hydrogen production ,Biohydrogen ,Food science ,Mesophile - Abstract
The potential of mesophilic fermentative hydrogen-producing soil bacterium, Staphylococcus epidermidis B-6, was investigated to produce hydrogen from xylose and rice straw. This strain has the capability to utilize a variety of nitrogen and carbon sources for growth and H2 production. The better contrivance of H2 production was observed with carbon source xylose, a major fraction of lignocellulosic hydrolysate. The ambience for bio-H2 production was optimized. The maximum H2 yield was observed as 1.6 mol H2/mol xylose with a production rate of 345 mL H2/L.Day. The practical conversion of waste biomass to H2 by the strain was also investigated by batch fermentation of the acid hydrolysate of rice straw. The maximum H2 yield of 30 L/kg of rice straw was obtained from the hydrolysate prepared by treating 1% (w/v) rice straw with 0.5% (v/v) H2SO4. Thus, from this study, we found that the isolated strain Staphylococcus epidermidis B-6 is a potential candidate for fermentative H2 production and is used for the first time for the conversion of waste biomass into energy.
- Published
- 2020
3. Assessment of goat milk-derived potential probiotic L. lactis AMD17 and its application for preparation of dahi using honey
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Devabrata Saikia, Anindhya Sundar Das, Charu Lata Mahanta, Rupak Mukhopadhyay, Raju Roy, Kuldeep Gupta, Anjan Borah, Ajay Kumar Manhar, and Manabendra Mandal
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0301 basic medicine ,Taste ,medicine.medical_treatment ,Biology ,medicine.disease_cause ,Applied Microbiology and Biotechnology ,Microbiology ,law.invention ,03 medical and health sciences ,chemistry.chemical_compound ,Probiotic ,0404 agricultural biotechnology ,Listeria monocytogenes ,law ,medicine ,Food science ,Pathogen ,Nisin ,Lactococcus lactis ,food and beverages ,04 agricultural and veterinary sciences ,Antimicrobial ,biology.organism_classification ,040401 food science ,030104 developmental biology ,chemistry ,Adjuvant - Abstract
Lactococcus lactis AMD17 isolated from free range goat milk was screened for potential probiotic attributes based on functional traits such as resistance to simulated gastric acid and bile salts, antimicrobial activity and inhibition of pathogen adhesion to intestinal epithelium cell line Caco-2. The isolate significantly reduced the adherence of foodborne pathogen Listeria monocytogenes AMDK2 (47.46 ± 0.17 %) to Caco-2 cells. Honey was used as an adjuvant of L. lactis AMD17 for preparation of dahi (curd) from buffalo milk and was found to support its survivability during storage (P
- Published
- 2016
4. Phytosynthesized iron nanoparticles: effects on fermentative hydrogen production by Enterobacter cloacae DH-89
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Manabendra Mandal, Ajay Kumar Manhar, Dhrubajyoti Nath, Devabrata Saikia, Kuldeep Gupta, and Shymal Kumar Das
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Aqueous solution ,Materials science ,biology ,Nanoparticle ,Dark fermentation ,biology.organism_classification ,Mechanics of Materials ,Fermentative hydrogen production ,Yield (chemistry) ,General Materials Science ,Biohydrogen ,Fermentation ,Enterobacter cloacae ,Nuclear chemistry - Abstract
In recent years the application of metal nanoparticles is gaining attention in various fields. The present study focuses on the additive effect of ‘green’ synthesized iron nanoparticles (FeNPs) on dark fermentative hydrogen (H2) production by a mesophilic soil bacterium Enterobacter cloacae. The FeNPs were synthesized by a rapid green method from FeSO4 using aqueous leaf extract of Syzygium cumini. The synthesized FeNPs showed a characteristic surface plasmon resonance peak at 267 nm. The transmission electron microscopy images confirm that the formation of FeNPs was mainly porous and irregular in shape, with an average particle size of 20–25 nm. The presence of iron (Fe) in the synthesized FeNPs was confirmed by energy-dispersive X-ray spectroscopy. The comparative effect of FeSO4 and FeNPs on batch fermentative H2 production from glucose was investigated. The fermentation experiments reveal that the percentage and yield of H2 in FeNPs supplementation were increased significantly than the control (no supplementation) and FeSO4 containing media. The maximum H2 yield of 1.9 mol mol−1 glucose utilized was observed in 100 mg l−1 FeNPs supplementation, with two-fold increase in glucose conversion efficiency. Thus, the result suggests that FeNPs supplementation in place of FeSO4 could improve the bioactivity of H2 producing microbes for enhanced H2 yield and glucose consumption.
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- 2015
5. Inhibition of
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Kuldeep, Gupta, Salam Pradeep, Singh, Ajay Kumar, Manhar, Devabrata, Saikia, Nima D, Namsa, Bolin Kumar, Konwar, and Manabendra, Mandal
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Original Research Article - Abstract
Syzygium cumini L. Skeels (Myretacae family) is a native plant of the Indian subcontinent which has wide socio-economical importance and is well known for its ant diabetic activity. The present study aimed to investigate the antibiofilm activity of purified fraction (EA) from S. cumini leaf extract against P. aeruginosa and S. aureus. The EA did not show any effect on growth of P. aeruginosa and S. aureus at the concentration of 900 µg/ml. At this concentration EA showed biofilm inhibition up to 86 ± 1.19% (***P
- Published
- 2018
6. Cloning and extracellular expression of a raw starch digesting α-amylase (Blamy-I) and its application in bioethanol production from a non-conventional source of starch
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Ajay Kumar Manhar, Dhrubajyoti Nath, Ashis K. Mukherjee, Jetendra Kumar Roy, and Manabendra Mandal
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chemistry.chemical_classification ,biology ,Starch ,General Medicine ,biology.organism_classification ,Applied Microbiology and Biotechnology ,Enzyme assay ,chemistry.chemical_compound ,Hydrolysis ,Enzyme ,Biochemistry ,chemistry ,biology.protein ,Amylase ,Bacillus licheniformis ,Alpha-amylase ,Thermostability - Abstract
The aim of this study was to clone and efficiently express a raw starch-digesting α-amylase enzyme in the culture media and also to investigate the potential application of this recombinant enzyme in the digestion of non-conventional raw starch for bioethanol production. A raw starch digesting α-amylase gene isolated from Bacillus licheniformis strain AS08E was cloned and extracellularly expressed in E. coli cells using the native signal peptide. The mature recombinant α-amylase (Blamy-I) consisting of 483 amino acid residues was found to be homogenous with a mass of 55.3 kDa (by SDS-PAGE analysis) and a predicted pI of 6.05. Structural and functional analysis of Blamy-I revealed the presence of an extra Ca(2+) -binding region between the A and C domains responsible for higher thermostability of this enzyme. The statistical optimization of E. coli culture conditions resulted in an approximately eightfold increase in extracellular expression of Blamy-I as compared to its production under non-optimized conditions. Blamy-I demonstrated optimum enzyme activity at 80 °C and pH 10.0, and efficiently hydrolyzed raw starch isolated from a non-conventional, underutilized jack fruit seeds. Further utilization of this starch for bioethanol production using Blamy-I and Saccharomyces cerevisiae also proved to be highly promising.
- Published
- 2015
7. Evaluation Of Antioxidant And Antibacterial Activity Of Various Aspect Ratio Gold (Au) Nanorods
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Swapan Kumar Dolui, Manabendra Mandal, Ajay Kumar Manhar, Pritom J. Bora, and Shyamalima Sharma
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Antioxidant ,biology ,Chemistry ,DPPH ,medicine.medical_treatment ,Gram-positive bacteria ,Analytical chemistry ,Nanoparticle ,biology.organism_classification ,chemistry.chemical_compound ,medicine ,General Materials Science ,Nanorod ,Agar diffusion test ,Antibacterial activity ,Antibacterial agent ,Nuclear chemistry - Abstract
In the current scenario, metal nanoparticles acquire much attention in terms of their diverse applications because of their extremely small size and large surface to volume ratio. Hence, our present study deals with the investigation of antioxidant and antibacterial activity of gold (Au) nanoparticles. First, anisotropic Au nanorods with various aspect ratios have been synthesized by a standard seeded growth method using CTAB-coated Au seed nanoparticles with size less than 10 nm as nucleation centre. Characterization of synthesized nanorods is made using UV-visible and TEM analysis. The antioxidant and antibacterial activities of Au nanorods have been investigated using 1,1-diphenyl-2-picrylhydrazyl (DPPH) as free radical source and Agar- well diffusion assay. The radical scavenging reaction of nanorods was monitored by a UV-visible spectrophotometer and found that Au nanorods show better antioxidant activity than spherical seeds due to the presence of more number of atoms as well as active sites for interaction with the free radical of DPPH. For a set of nanorods DPPH scavenging percentage is 80-90, while for seeds it is only 30. Again, very less amount (volume) of high aspect ratio nanorods is required for efficient scavenging. A linear relationship is observed between DPPH scavenging percentage and volume of Au nano-dispersions. The synthesized Au nanoparticles also have potent antibacterial activity, the maximum zone of inhibition (20 mm) is observed for longer nanorods, against indicator strains due to the interaction of more number of Au + cations to the negatively charged bacterial cell wall that causes rupturing of the cell wall and finally death. The minimum inhibitory concentration (MIC) for nanorods is lower when tested against gram negative bacteria viz. Y. enterocolitica (12.5μg/ml), S. enterica typhimurium (15 μg/ml), and K. pneumoniae (10 μg/ml) as compared to gram positive bacteria viz. S. aureus (20 μg/ml), L. monocytogenes AMDK2 (20 μg/ml) and B. cereus AMDK1 (25 μg/ml). From this study, it is concluded that high aspect ratio Au nanorods can act as an effective antioxidant and antibacterial agent and it makes the nanoparticles as an alternative for the development of new biomedical drugs in near future. Copyright © 2015 VBRI press.
- Published
- 2015
8. Hypocholesterolemic activity of indigenous probiotic isolate Saccharomyces cerevisiae ARDMC1 in a rat model
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Manabendra Mandal, Kuldeep Gupta, Bhagyashree Deka, Raju Roy, Devabrata Saikia, Pronobesh Chattopadhyay, Nima D. Namsa, Robin Doley, and Ajay Kumar Manhar
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0106 biological sciences ,0301 basic medicine ,cholesterol lowering ,Hypercholesterolemia ,Rat model ,Saccharomyces cerevisiae ,lcsh:TX341-641 ,01 natural sciences ,Cell Line ,law.invention ,03 medical and health sciences ,Probiotic ,chemistry.chemical_compound ,Starter ,Stress, Physiological ,law ,Probiotic yeast ,010608 biotechnology ,Animals ,Humans ,Food science ,Pharmacology ,biology ,Triglyceride ,Cholesterol ,Anticholesteremic Agents ,Probiotics ,lcsh:RM1-950 ,biology.organism_classification ,Lipids ,Intestinal epithelium ,atherogenic index ,Rats ,Disease Models, Animal ,lcsh:Therapeutics. Pharmacology ,030104 developmental biology ,chemistry ,Cell culture ,Dietary Supplements ,in vivo model ,lcsh:Nutrition. Foods and food supply ,Hydrophobic and Hydrophilic Interactions ,Food Science - Abstract
The aim of this study was to investigate probiotic attributes of Saccharomyces cerevisiae ARDMC1 isolated from traditional rice beer starter cake and its hypocholesterolemic effects on Wistar rats fed a high-cholesterol diet. The indigenous isolate ARDMC1 showed potential probiotic characteristics such as tolerance to simulated gastrointestinal stress conditions, autoaggregation properties, and adhesion to intestinal epithelium Caco-2 cell line. In addition, ARDMC1 isolate exhibited in vitro cholesterol assimilation properties in media supplemented with cholesterol. Furthermore, administration of probiotic isolate to rats fed a hypercholesterolemic diet resulted in significant reduction of serum total cholesterol, low-density lipoprotein cholesterol, and triglyceride at the end of 42 days. The present study envisages ARDMC1 as a promising starter culture for the preparation of functional foods with properties to combat cardiovascular diseases.
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- 2017
- Full Text
- View/download PDF
9. Biocompatible carboxymethylcellulose-g-poly(acrylic acid)/OMMT nanocomposite hydrogel for in vitro release of vitamin B12
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Monalisha Boruah, Manabendra Mandal, Ajay Kumar Manhar, Swapan Kumar Dolui, Momina Khannam, and Pronob Gogoi
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Nanocomposite ,General Chemical Engineering ,technology, industry, and agriculture ,macromolecular substances ,General Chemistry ,Dynamic mechanical analysis ,Potassium persulfate ,complex mixtures ,chemistry.chemical_compound ,Polymerization ,chemistry ,Chemical engineering ,Self-healing hydrogels ,Polymer chemistry ,medicine ,Swelling ,medicine.symptom ,Fourier transform infrared spectroscopy ,Acrylic acid - Abstract
The present work describes the preparation of a biocompatible nanocomposite hydrogel based on CMC-g-PAA and organo-MMT nanoclay by using methylene bis-acrylamide (MBA) as a cross-linker and potassium persulfate (KPS) as an initiator through radical graft polymerization. The nanocomposite hydrogels were characterized by using techniques such as FTIR, SEM and XRD analysis. The effects of various parameters on the swelling behaviour of the hydrogels were studied. The mechanical strength of the nanocomposite hydrogels was determined by dynamic mechanical analysis (DMA) and all the samples showed an increase in the storage modulus (G′) with an increase in cross-linker amount. The in vitro biocompatibility of the nanocomposite hydrogels showed that the presence of nanoclay in the nanocomposite hydrogel enhanced the in vitro blood compatibility. The vitamin B12 release mechanism has been studied during different time periods using a UV-visible spectrophotometer. The drug release kinetics revealed that release of vitamin B12 follows a non-Fickian diffusion mechanism.
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- 2014
10. Green silver nanoparticles: enhanced antimicrobial and antibiofilm activity with effects on DNA replication and cell cytotoxicity
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Nima D. Namsa, Kuldeep Gupta, Shaswat Barua, Niranjan Karak, Vipin Chandra Kalia, Ajay Kumar Manhar, Shabiha Nudrat Hazarika, Dhrubajyoti Nath, Manabendra Mandal, and Rupak Mukhopadhyay
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Membrane permeability ,biology ,Chemistry ,General Chemical Engineering ,Biofilm ,Nanotechnology ,General Chemistry ,Bacillus subtilis ,Antimicrobial ,biology.organism_classification ,Silver nanoparticle ,Biochemistry ,biology.protein ,Surface plasmon resonance ,Bovine serum albumin ,Cytotoxicity - Abstract
Biofabricated metal nanoparticles are biocompatible, inexpensive and eco-friendly. They find immense utility in the domain of biomedical and materials science. The present work focuses on the ‘green’ synthesis of silver nanoparticles (AgNPs) using the methanolic extract of Syzygium cumini leaf. AgNPs showed the characteristic surface plasmon resonance peak at 442 nm. The XRD pattern confirmed the formation of face centered cubic AgNPs. The nanoparticles were uniformly distributed within a narrow size range of 10–20 nm. The particles exhibited significant antimicrobial activity against a panel of pathogens like Staphylococcus aureus, Escherichia coli, Bacillus subtilis, Klebsiella pneumoniae, Pseudomonas aeruginosa, Mycobacterium smegmatis, Trichophyton rubrum, Aspergillus sp and Candida albicans. Alterations in membrane permeability of AgNP treated microbial cells were evident from scanning electron microscope images. The replication fidelity of small (1500 bp) DNA fragments in the presence of AgNPs was compromised in a dose-dependent fashion and addition of bovine serum albumin (BSA) to PCR reactions reversed the effect of AgNPs. Besides, the prepared nanoparticles inhibited biofilm formation in a wide range of AgNP concentrations. Significantly, cytotoxicity assays showed good compatibility of AgNPs with human embryonic kidney cells (HEK 293). In summary, the study suggests an eco-friendly, cost effective and biocompatible approach for synthesizing AgNPs, which may act as a potential template for designing novel antibacterial, antifungal and antibiofilm agents.
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- 2014
11. Effect of maleylation on physicochemical and functional properties of rapeseed protein isolate
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Ajay Kumar Manhar, Manabendra Mandal, Charu Lata Mahanta, Manashi Das Purkayastha, Sougata Saha, and Anuj Kumar Borah
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0301 basic medicine ,030109 nutrition & dietetics ,Rapeseed ,Chromatography ,Chemistry ,04 agricultural and veterinary sciences ,040401 food science ,Dissociation (chemistry) ,Acylation ,Surface tension ,03 medical and health sciences ,Ingredient ,0404 agricultural biotechnology ,Functional food ,Emulsion ,Original Article ,Cytotoxicity ,Food Science - Abstract
Influence of maleylation on the physicochemical and functional properties of rapeseed protein isolate was studied. Acylation increased whiteness value and dissociation of proteins, but reduced free sulfhydryl and disulfide content (p
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- 2016
12. Nanotechnological Applications in Food Packaging, Sensors and Bioactive Delivery Systems
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Ajay Kumar Manhar and Manashi Das Purkayastha
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Food packaging ,Lower incidence ,0404 agricultural biotechnology ,Computer science ,010401 analytical chemistry ,Chemical contaminants ,Active packaging ,Nanotechnology ,04 agricultural and veterinary sciences ,040401 food science ,01 natural sciences ,0104 chemical sciences - Abstract
The development of nanomaterial-based products has boosted research in food science. Packaging has been the core subject of research in food nanotechnology. The mechanical and barrier performance of packaging are improved by nanocomposites. Intelligent packaging with communication functions is currently being developed using indicators of oxygen, humidity and freshness. However the concern of nanoparticle migration into the food must be addressed prior to commercial use. For biosensors, functionalized nanomaterials act as catalytic or immobilization platform or as electro-optical labels for enhancing the sensitivity and selectivity of the detection. Other functions of nanomaterials include encapsulation, protection, and enhancement of the solubility and bioavailability of active food ingredients. This review describes nanocomposites as high barrier packaging material, nano-sensors to achieve safer foods with lower incidence of chemical contaminants or adulterants or pathogenic microorganisms, and nanoencapsulation strategies as innovative delivery systems of bioactive compounds. The technical aspects of these topics are discussed with respect to synthesis, mode of action and functional performance.
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- 2016
13. Cellulolytic potential of probiotic Bacillus Subtilis AMS6 isolated from traditional fermented soybean (Churpi): An in-vitro study with regards to application as an animal feed additive
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Dhrubajyoti Nath, Bolin Kumar Konwar, Manabendra Mandal, Rahul Kumar, Devabrata Saikia, Ajay Kumar Manhar, Yasir Bashir, Kuldeep Gupta, and Nima D. Namsa
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0301 basic medicine ,Paper ,Salmonella typhimurium ,Cellulase ,Bacillus subtilis ,Microbiology ,Polymerase Chain Reaction ,Zea mays ,Bacterial Adhesion ,law.invention ,Bile Acids and Salts ,03 medical and health sciences ,Probiotic ,chemistry.chemical_compound ,law ,Hydrolase ,Antibiosis ,Animals ,Humans ,Glycosyl ,Cellulose ,biology ,Plant Stems ,Hydrolysis ,Probiotics ,Temperature ,Epithelial Cells ,Sequence Analysis, DNA ,Hydrogen-Ion Concentration ,Cellulose binding ,biology.organism_classification ,Animal Feed ,030104 developmental biology ,chemistry ,Biochemistry ,biology.protein ,Food Additives ,Soybeans ,Caco-2 Cells ,Antibacterial activity ,Digestion - Abstract
The aim of the present study is to evaluate the probiotic attributes of Bacillus subtilis AMS6 isolated from fermented soybean (Churpi). This isolate exhibited tolerance to low pH (pH 2.0) and bile salt (0.3%), capability to autoaggregate and coaggregate. AMS6 also showed highest antibacterial activity against the pathogenic indicator strain Salmonella enterica typhimurium (MTCC 1252) and susceptibility towards different antibiotics tested. The isolate was effective in inhibiting the adherence of food borne pathogens to Caco-2 epithelial cell lines, and was also found to be non-hemolytic which further strengthen the candidature of the isolate as a potential probiotic. Further studies revealed B. subtilis AMS6 showed cellulolytic activity (0.54±0.05 filter paper units mL(-1)) at 37°C. The isolate was found to hydrolyze carboxymethyl cellulose, filter paper and maize (Zea mays) straw. The maize straw digestion was confirmed by scanning electron microscopy studies. The isolate was able to degrade filter paper within 96h of incubation. A full length cellulase gene of AMS6 was amplified using degenerate primers consisting of 1499 nucleotides. The ORF encoded for a protein of 499 amino acids residues with a predicted molecular mass of 55.04kDa. The amino acids sequence consisted of a glycosyl hydrolase family 5 domain at N-terminal; Glycosyl hydrolase catalytic core and a CBM-3 cellulose binding domain at its C terminal. The study suggests potential probiotic B. subtilis AMS6 as a promising candidate envisaging its application as an animal feed additive for enhanced fiber digestion and gut health of animal.
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- 2015
14. Corrigendum to 'Cellulolytic potential of probiotic Bacillus Subtilis AMS6 isolated from traditional fermented soybean (Churpi): An in-vitro study with regards to application as an animal feed additive' [Microbiol. Res. 186–187 (2016) 62–70]
- Author
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Devabrata Saikia, Manabendra Mandal, Yasir Bashir, Rahul Kumar, Kuldeep Gupta, Dhrubajyoti Nath, Bolin Kumar Konwar, Ajay Kumar Manhar, and Nima D. Namsa
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biology ,business.industry ,Animal feed additive ,Bacillus subtilis ,biology.organism_classification ,Microbiology ,Biotechnology ,law.invention ,Probiotic ,law ,In vitro study ,Fermentation ,Food science ,business - Published
- 2017
15. In vitro evaluation of celluloytic Bacillus amyloliquefaciens AMS1 isolated from traditional fermented soybean (Churpi) as an animal probiotic
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Ajay Kumar Manhar, Bolin Kumar Konwar, Devabrata Saikia, Manabendra Mandal, Yasir Bashir, Reba K. Mech, and Dhrubajyoti Nath
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DNA, Bacterial ,Bacillus amyloliquefaciens ,Animal feed ,Microorganism ,Molecular Sequence Data ,Bacillus ,Cellulase ,law.invention ,Microbiology ,Probiotic ,law ,RNA, Ribosomal, 16S ,Animals ,Food science ,Phylogeny ,General Veterinary ,biology ,Probiotics ,Sequence Analysis, DNA ,biology.organism_classification ,Antimicrobial ,Animal Feed ,Cell aggregation ,Diet ,Fermentation ,biology.protein ,Animal Nutritional Physiological Phenomena ,Soybeans - Abstract
A microorganism showing probiotic attributes and hydrolyzing carboxymethylcellulose was isolated from traditional fermented soybean (Churpi) and identified as Bacillus amyloliquefaciens by analysis of 16S rRNA gene sequence and named as B. amyloliquefaciens AMS1. The potentiality of this isolate as probiotic was investigated in vitro and it showed gastrointestinal transit tolerance, cell surface hydrophobicity, cell aggregation and antimicrobial activity. The isolate was found to be non-hemolytic which further strengthens its candidature as a potential probiotic. The maize straw digestion was confirmed by scanning electron microscopy studies. The isolate was able to degrade filter paper within 96 hours of incubation. This study explores the possibility of combining the cellulase degrading ability of a microbe with its probiotic attributes to enhance gut health of animal and digestibility of the feed.
- Published
- 2014
16. Antioxidative, hemocompatible, fluorescent carbon nanodots from an 'end-of-pipe' agricultural waste: exploring its new horizon in the food-packaging domain
- Author
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Manashi Das Purkayastha, Vijay Kumar Das, Manabendra Mandal, Charu Lata Mahanta, Anjan Borah, Ashim Jyoti Thakur, and Ajay Kumar Manhar
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Waste Products ,Nanocomposite ,Materials science ,Plant Extracts ,Brassica rapa ,Food Packaging ,Agriculture ,General Chemistry ,Antioxidant potential ,Pulp and paper industry ,Fluorescence ,Carbon ,Food packaging ,Agricultural waste ,Hydrothermal carbonization ,Carbon nanodots ,Nanoparticles ,Waste recycling ,Recycling ,General Agricultural and Biological Sciences ,Oxidation-Reduction - Abstract
The attention of researchers is burgeoning toward oilseed press-cake valorization for its high protein content. Protein removal from oil-cakes generates large quantities of fibrous residue (oil-and-protein spent meal) as a byproduct, which currently has very limited practical utility. In the wake of increasing awareness in waste recycling, a simple environmentally benign hydrothermal carbonization process to convert this "end-of-pipe" waste (spent meal) into antioxidative, hemocompatible, fluorescent carbonaceous nanoparticles (FCDs) has been described. In the present investigation, an interesting application of FCDs in fabricating low-cost rapeseed protein-based fluorescent film, with improved antioxidant potential (17.5-19.3-fold) and thermal stability has been demonstrated. The nanocomposite film could also be used as forgery-proof packaging due to its photoluminescence property. For assessing the feasibility of antioxidative FCDs in real food systems, a comparative investigation was further undertaken to examine the effect of such nanocarbon-loaded composite film on the oxidative shelf life of rapeseed oil. Oil samples packed in nanocomposite film sachets showed significant delay in oxidative rancidity compared to those packed in pristine protein-film sachet (free fatty acids, peroxide value, and thiobarbituric acid-reactive substances reduced up to 1.4-, 2-, and 1.2-fold, respectively). The work presents a new concept of biobased fluorescent packaging and avenues for harnessing this potent waste.
- Published
- 2014
17. Industrial Waste-Derived Nanoparticles and Microspheres Can Be Potent Antimicrobial and Functional Ingredients
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Manabendra Mandal, Charu Lata Mahanta, Manashi Das Purkayastha, and Ajay Kumar Manhar
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chemistry.chemical_compound ,Residue (chemistry) ,Hydrothermal carbonization ,chemistry ,Chemical engineering ,Article Subject ,Acetone ,Nanoparticle ,Organic chemistry ,Antimicrobial ,Industrial waste ,Nanomaterials ,Microsphere - Abstract
Rapeseed oilcake or press-cake is generated as bulk waste during oil extraction from oilseeds. Owing to its high protein content, further processing of oilcakes into vegetable protein generates large quantities of fibrous residue (“oil-and-protein” spent meal) as by-product, which currently has very limited practical utility. Here, we report hydrothermal carbonization of this industrial waste to convert it into carbon nanoparticles, bestowed with multitude of functionalities. We demonstrate that these nanoparticles can be assembled into micrometer-sized spheres when precipitated from water by acetone. These microspheres, with their added feature of hemocompatibility, can be potentially utilized as an encapsulation vehicle for the protection of thermolabile compounds (such as protein); however, the secondary and tertiary features of the protein were marginally perturbed by the encapsulation process. The synthesized carbon nanoparticle was found to be an effective biocidal agent, exhibiting bacterial cellular damage and complex formation with the bacterial plasmid (evident from ethidium bromide exclusion assay), which are critical for cell survival. The results show the ability to convert industrial biowaste into useful nanomaterials for use in food industries and also suggest new scalable and simple approaches to improve environmental sustainability in industrial processes.
- Published
- 2014
- Full Text
- View/download PDF
18. Preparation and characterization of zinc oxide and nanoclay reinforced crosslinked starch/jute green nanocomposites
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Ajay Kumar Manhar, Tarun K. Maji, Murshid Iman, and Manabendra Mandal
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Thermogravimetric analysis ,Nanocomposite ,Materials science ,Scanning electron microscope ,General Chemical Engineering ,Intercalation (chemistry) ,Composite number ,Nanoparticle ,General Chemistry ,chemistry.chemical_compound ,chemistry ,Chemical engineering ,Transmission electron microscopy ,Glutaraldehyde - Abstract
In the present work, ZnO nanoparticles (ZNP) and ZNP in combination with nanoclays are reported as reinforcing agents for the preparation of ‘Green’ nanocomposites based on glutaraldehyde (GA) crosslinked starch/jute fabric. A solution-induced intercalation method has been used for the successful fabrication of the nanocomposites. Both ZNP and nanoclay are successfully incorporated into the composite as revealed by X-ray diffractometry (XRD), transmission electron microscopy (TEM), scanning electron microscopy (SEM), and Fourier-transform infrared spectroscopy (FT-IR). The thermal and mechanical properties of the nanocomposites are studied using thermogravimetric analysis (TGA) and mechanical tests, respectively. The study reveals significant changes in the observed properties of the synthesized composites with the amount of nanofillers. Interestingly, the flame retarding properties, UV-resistance, and dimensional stability of the nanoparticle filled composites are found to be much better than those of the unfilled one. The study reveals a strong interfacial interaction between the filler and the matrix within the synthesized green nanocomposites.
- Published
- 2014
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