1,694 results
Search Results
2. Production of eco-friendly and better-quality sugarcane bagasse paper using crude xylanase and pectinase biopulping strategy
- Author
-
Sharma, Divya, Agrawal, Sharad, Nagpal, Raksha, Mishra, O. P., Bhardwaj, Nishikant, and Mahajan, Ritu
- Published
- 2023
- Full Text
- View/download PDF
3. Prospects of crude enzymes in replacing pure enzymes for dissolving pulp production
- Author
-
Kaur, Prabhjot, Sharma, Jitender, Bhardwaj, Nishi Kant, Bhardwaj, Shubhang, Kaur, Daljeet, Singh, Amarjit, and Kumar, Ashish
- Published
- 2024
- Full Text
- View/download PDF
4. Valorisation of wheat straw into paper with improved quality characteristics using ultrafiltered xylano-pectinolytic pulping approach
- Author
-
Sharad Agrawal, Divya Sharma, Raksha Nagpal, Amanjot Kaur, Nishikant Bhardwaj, and Ritu Mahajan
- Subjects
Environmental Science (miscellaneous) ,Agricultural and Biological Sciences (miscellaneous) ,Biotechnology - Published
- 2023
5. Production of eco-friendly and better-quality sugarcane bagasse paper using crude xylanase and pectinase biopulping strategy
- Author
-
Divya Sharma, Sharad Agrawal, Raksha Nagpal, O. P. Mishra, Nishikant Bhardwaj, and Ritu Mahajan
- Subjects
Environmental Science (miscellaneous) ,Agricultural and Biological Sciences (miscellaneous) ,Biotechnology - Published
- 2023
6. Optimizing laccase selection for enhanced outcomes: a comprehensive review.
- Author
-
Abdi Dezfouli, Ramin and Esmaeilidezfouli, Ensieh
- Subjects
LACCASE ,BACILLUS pumilus ,BACILLUS licheniformis ,ORGANIC solvents ,BACILLUS (Bacteria) ,PAPER pulp ,ENZYME kinetics - Abstract
Despite their widespread applications in sectors such as pulp and paper, textile, food and beverage, pharmaceuticals, and biofuel production, laccases encounter challenges related to their activity and stability under varying reaction conditions. This review accumulates data on the complex interplay between laccase characteristics and reaction conditions for maximizing their efficacy in diverse biotechnological processes. Benefits of organic media such as improved substrate selectivity and reaction control, and their risks such as enzyme denaturation and reduced activity are reported. Additionally, the effect of reaction conditions such as pH and temperature on laccase activity and stability are gathered and reported. Sources like Bacillus pumilus, Alcaligenes faecalis, Bacillus clausii, and Bacillus tequilensis SN4 are producing laccases that are both thermo-active and alkali-active. Additionally, changes induced by the presence of various substances within reaction media such as metals, inhibitors, and organic solvents are also reported. Bacillus pumilus and Bacillus licheniformis LS04 produce the most resistant laccases in this case. Finally, the remarkable laccases have been highlighted and the proper laccase source for each industrial application is suggested. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
7. Isolation of Halomicroarcula pellucida strain GUMF5, an archaeon from the Dead Sea-Israel possessing cellulase.
- Author
-
Malik, Alisha D. and Furtado, Irene J.
- Subjects
CELLULASE ,GEL permeation chromatography ,MOLECULAR weights ,FILTER paper - Abstract
A strain designated GUMF5 was isolated in Goa-India from sediments of Dead Sea-Israel and identified as haloarchaeon Halomicroarcula pellucida based on 16S rRNA gene analysis similarity value of 99.84%. Strain GUMF5 grew on mineral salts medium with 20% NaCl and 0.5% carboxymethyl cellulose-sodium (CMC-Na) as a sole source of carbon and produced haloextremozyme cellulase. The enzyme was concentrated using Sephadex G20, precipitated with ethanol, dialyzed and retentate purified using Sephadex G200, the size exclusion chromatography. A yield of 78.53% cellulase with an activity of 131.13 U/mg and 1.24-fold purity was obtained. The purified cellulase had optimum activity at 20% NaCl, at 40 ºC, 0.5% CMC-Na, pH 7 and 150 rpm. SDS-PAGE combined with zymographic analysis revealed the molecular weight of cellulase as 240 kDa, 40 kDa and 17.4 kDa. The activity of the enzyme was stimulated by metallic cations in the order of Ca
+2 > Mn+2 > Mg+2 > SO4 2− > NH4 + and was inhibited by Ag+ > Fe+2 > Cu+2 . Methanol and ethanol enhanced the cellulase activity by 6% and 26%, respectively. The haloextremozyme cellulase degraded Whatman No. 1 filter paper indicated in scanning electron micrographs, exposure of open pores and fibers without any intra connectivity corresponding to paperase activity and implicating the possible use of enzyme to bio-convert cellulosic waste. Conclusively, Halomicroarcula pellucida GUMF5 (Accession number: MH244431), globally, is the only Halomicroarcula pellucida isolated from the sediments of Dead Sea producing haloextremozyme cellulase, and hence is an important biotechnological resource. [ABSTRACT FROM AUTHOR]- Published
- 2022
- Full Text
- View/download PDF
8. Isolation of Halomicroarcula pellucida strain GUMF5, an archaeon from the Dead Sea-Israel possessing cellulase.
- Author
-
Malik, Alisha D. and Furtado, Irene J.
- Subjects
CELLULASE ,GEL permeation chromatography ,MOLECULAR weights ,FILTER paper - Abstract
A strain designated GUMF5 was isolated in Goa-India from sediments of Dead Sea-Israel and identified as haloarchaeon Halomicroarcula pellucida based on 16S rRNA gene analysis similarity value of 99.84%. Strain GUMF5 grew on mineral salts medium with 20% NaCl and 0.5% carboxymethyl cellulose-sodium (CMC-Na) as a sole source of carbon and produced haloextremozyme cellulase. The enzyme was concentrated using Sephadex G20, precipitated with ethanol, dialyzed and retentate purified using Sephadex G200, the size exclusion chromatography. A yield of 78.53% cellulase with an activity of 131.13 U/mg and 1.24-fold purity was obtained. The purified cellulase had optimum activity at 20% NaCl, at 40 ºC, 0.5% CMC-Na, pH 7 and 150 rpm. SDS-PAGE combined with zymographic analysis revealed the molecular weight of cellulase as 240 kDa, 40 kDa and 17.4 kDa. The activity of the enzyme was stimulated by metallic cations in the order of Ca
+2 > Mn+2 > Mg+2 > SO4 2− > NH4 + and was inhibited by Ag+ > Fe+2 > Cu+2 . Methanol and ethanol enhanced the cellulase activity by 6% and 26%, respectively. The haloextremozyme cellulase degraded Whatman No. 1 filter paper indicated in scanning electron micrographs, exposure of open pores and fibers without any intra connectivity corresponding to paperase activity and implicating the possible use of enzyme to bio-convert cellulosic waste. Conclusively, Halomicroarcula pellucida GUMF5 (Accession number: MH244431), globally, is the only Halomicroarcula pellucida isolated from the sediments of Dead Sea producing haloextremozyme cellulase, and hence is an important biotechnological resource. [ABSTRACT FROM AUTHOR]- Published
- 2021
- Full Text
- View/download PDF
9. Metagenomic mining of Indian river confluence reveal functional microbial community with lignocelluloytic potential.
- Author
-
Rajput, Vinay, Samson, Rachel, Yadav, Rakeshkumar, Dastager, Syed, Khairnar, Krishna, and Dharne, Mahesh
- Subjects
METAGENOMICS ,MICROBIAL communities ,HEMICELLULOSE ,PECTINS ,MICROBIAL enzymes ,MINES & mineral resources ,PAPER industry - Abstract
Microbial carbohydrate-active enzymes (CAZyme) can be harnessed for valorization of Lignocellulosic biomass (LCB) to value-added chemicals/products. The two Indian Rivers Ganges and the Yamuna having different origins and flow, face accumulation of carbon-rich substrates due to the discharge of wastewater from adjoining paper and pulp industries, which could potentially contribute to the natural enrichment of LCB utilizing genes, especially at their confluence. We analyzed CAZyme diversity in metagenomic datasets across the sacred confluence of the Rivers Ganges and Yamuna. Functional annotation using CAZyme database identified a total of 77,815 putative genes with functional domains involved in the catalysis of carbohydrate degradation or synthesis of glycosidic bonds. The metagenomic analysis detected ~ 41% CAZymes catalyzing the hydrolysis of lignocellulosic biomass polymers- cellulose, hemicellulose, lignin, and pectin. The Beta diversity analysis suggested higher CAZyme diversity at downstream region of the river confluence, which could be useful niche for culture-based studies. Taxonomic origin for CAZymes revealed the predominance of bacteria (97%), followed by archaea (1.67%), Eukaryota (0.63%), and viruses (0.7%). Metagenome guided CAZyme diversity of the microflora spanning across the confluence of Ganges-Yamuna River, could be harnessed for biomass and bioenergy applications. [ABSTRACT FROM AUTHOR]
- Published
- 2022
- Full Text
- View/download PDF
10. Enhancement of catalytic activity and alkaline stability of cellobiohydrolase by structure-based protein engineering
- Author
-
Prabmark, Kanoknart, Boonyapakron, Katewadee, Bunterngsook, Benjarat, Arunrattanamook, Nattapol, Uengwetwanit, Tanaporn, Chitnumsub, Penchit, and Champreda, Verawat
- Published
- 2022
- Full Text
- View/download PDF
11. Optimization of a simple, low-cost one-step reverse transcription recombinase polymerase amplification method for real-time detection of potato virus A in potato leaves and tubers.
- Author
-
Kumar, Ravinder, Kaundal, Priyanka, Tiwari, Rahul Kumar, Lal, Milan Kumar, Kumari, Hema, Kumar, Rakesh, Sagar, Vinay, and Singh, Brajesh
- Subjects
POTATOES ,TUBERS ,POTATO virus X ,POTATO virus Y ,VEGETATIVE propagation ,RECOMBINASES - Abstract
Vegetative propagation of potatoes makes it possible for potato viruses to be transmitted through tubers. Potato virus A (PVA) is one of these viruses, which belongs to the Potyvirus genus in the Potyviridae family. Potato tuber yield can be reduced by 30–40% by PVA alone. Losses can be further exacerbated by potato virus X and/or potato virus Y infection. PVA is transmitted primarily by several species of aphids in non-persistent manner. With the aim of resolving this problem, we developed one-step reverse transcription-recombinase polymerase amplification (RT-RPA), a highly sensitive and cost-effective method for detecting PVA in both potato tubers and leaves. Detection and amplification are performed using isothermal conditions in this method. There was good amplification of the coat protein gene in PVA with all three primers tested. To conduct this study, a primer set that can amplify specific 185 base pair (bp) product was selected. PVA detection was optimized by 30-min amplification reactions, which showed no cross-reactivity with other potato viruses. A simple heating block or water bath was used to amplify PVA product using RT-RPA at a temperature range of 38–42 °C. In comparison to conventional reverse transcription-polymerase chain reaction (RT-PCR), the newly developed RT-RPA protocol exhibited high sensitivity for both potato leaves and tuber tissues. Using cellular paper-based simple RNA extraction procedure, the virus was detected in leaf samples as efficiently as purified total RNA. We also found that combining LiCl-based RNA precipitation with cellular paper discs allowed us to successfully optimize RNA extraction for one-step RT-RPA for detecting PVA in tubers. Tests using this simplified one-step RT-RPA method were successfully applied to 300 samples of both leaves and tubers from various potato cultivars. In our knowledge, this is the first report of an RT-RPA assay utilizing simple RNA obtained from either cellular disc paper or LiCl coupled with cellular disc paper to detect PVA. As a result, this method was equally sensitive and specific for detecting PVA in potatoes. The developed RT-RPA assay is more versatile, durable, and do not require highly purified RNA templates, thus providing an effective alternative to RT-PCR assays for screening of germplasm, certifying planting materials, breeding for virus resistance, and real-time monitoring of PVA. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
- View/download PDF
12. Engineered E. coli for D-pantothenic acid production with an acetolactate isomeroreductase mutant.
- Author
-
Zhang, Bo, Zhang, Yu-Qiong, He, Zhou-Lin, Xiao, Yun-Ying, Tang, Meng-Na, Zhou, Jun-Ping, Liu, Zhi-Qiang, and Zheng, Yu-Guo
- Subjects
- *
ESCHERICHIA coli , *ACETOLACTATE synthase , *ORGANIC acids , *INTERMOLECULAR forces , *PYRUVATES , *STERIC hindrance , *ACIDS - Abstract
D-Pantothenic acid, as a momentous vitamin, is extensively applied to feed, medicine, cosmetics and other fields. However, there are still limitations to produce D-pantothenic acid by microbial fermentation at present. In this paper, we constructed a recombinant strain for D-pantothenic acid production by blocking the organic acid pathway, boosting pyruvate biosynthesis, relieving feedback inhibition of acetolactate synthase, improving glucose intake capacity, and modifying essential genes in the metabolic pathway. In addition, a new acetolactate isomeroreductase mutant V412A origin from Escherichia coli (EcAHAIR) encoded by ilvC was obtained to explore its substrate promiscuity. Compared with the wild type, the variant EcAHAIR-V412A has reduced steric hindrance and enhanced intermolecular forces, resulting in a high affinity for 2-acetolactate. Eventually, the fermentation production of the final strain DPAN19/trc-ilvCV412A reached 4.65 g/L, increased by 192.5% compared with strain DPA8 in shake flask cultivation and produced 62.82 g/L D-pantothenic acid in a 5 L bioreactor. The metabolic engineering strategies and enzyme modification approaches described in this paper provide a particular perspective for the bio-manufacturing of D-pantothenic acid, branched-chain amino acids and its derivates. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
13. A review of the role of liposome-encapsulated phytochemicals targeting PPAR Ɣ and associated pathways to combat obesity.
- Author
-
Shaji, Athira and Jayasri, M. A.
- Subjects
CLINICAL trial registries ,CHILDHOOD obesity ,PEROXISOME proliferator-activated receptors ,PHYTOCHEMICALS ,DRUG utilization ,LIPOSOMES ,OBESITY - Abstract
A limited number of studies have directly examined the effects of liposomal encapsulated phytochemicals and their anti-obesity effects in adults. This study aimed to summarize the evidence on the effect of liposomal encapsulated phytochemicals and their role in regulating major pathways involved in the anti-obesity mechanism. A systematic search was performed using several search engines like Science Direct, Google Scholar, and other online journals, focusing on laboratory research, systematic reviews, clinical trials, and meta-analysis that focused on liposomal encapsulated phytochemicals with anti-obesity properties, and followed the preferred reporting terms for this systematic review. An initial search provided a result of 1810 articles, and 93 papers were selected after the inclusion and exclusion criteria. Very few studies have been conducted on the liposomal encapsulation of phytochemicals or its synergistic study to combat obesity; hence this review paves the way for future obesity research and is mainly helpful for the pediatric obesity population. Liposomal encapsulation of phytochemicals has improved the efficiency of freely administered phytochemicals. Targeted delivery improved drug utilization and regulated the anti-obesity pathways. PPARƔ is a major therapeutic target for obesity as it inhibits adipocyte differentiation and maintains energy homeostasis. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
- View/download PDF
14. Isothermal nucleic acid amplification and its uses in modern diagnostic technologies.
- Author
-
Srivastava, Pulkit and Prasad, Dinesh
- Subjects
NUCLEIC acids ,NUCLEIC acid amplification techniques ,PATHOGENIC fungi ,FUNGAL viruses ,MICROFLUIDICS - Abstract
Nucleic acids are prominent biomarkers for diagnosing infectious pathogens using nucleic acid amplification techniques (NAATs). PCR, a gold standard technique for amplifying nucleic acids, is widely used in scientific research and diagnosis. Efficient pathogen detection is a key to adequate food safety and hygiene. However, using bulky thermal cyclers and costly laboratory setup limits its uses in developing countries, including India. The isothermal amplification methods are exploited to develop miniaturized sensors against viruses, bacteria, fungi and other pathogenic organisms and have been applied for in situ diagnosis. Isothermal amplification techniques have been found suitable for POC techniques and follow WHO's ASSURED criteria. LAMP, NASBA, SDA, RCA and RPA are some of the isothermal amplification techniques which are preferable for POC diagnostics. Furthermore, methods such as WGA, CPA, HDA, EXPAR, SMART, SPIA and DAMP were introduced for even more accuracy and robustness. Using recombinant polymerases and other nucleic acid-modifying enzymes has dramatically broadened the detection range of target pathogens under the scanner. The coupling of isothermal amplification methods with advanced technologies such as CRISPR/Cas systems, fluorescence-based chemistries, microfluidics and paper-based sensors has significantly influenced the biosensing and diagnosis field. This review comprehensively analyzed isothermal nucleic acid amplification methods, emphasizing their advantages, disadvantages and limitations. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
- View/download PDF
15. Role and uptake of metal-based nanoconstructs as targeted therapeutic carriers for rheumatoid arthritis
- Author
-
Dwivedi, Shradha Devi, Bhoi, Anita, Pradhan, Madhulika, Sahu, Keshav Kant, Singh, Deependra, and Singh, Manju Rawat
- Published
- 2024
- Full Text
- View/download PDF
16. Ellagic acid: insight into its protective effects in age-associated disorders.
- Author
-
Deepika and Maurya, Pawan Kumar
- Subjects
ELLAGIC acid ,FREE radicals ,CELL anatomy ,OXIDATIVE stress ,CARDIOVASCULAR diseases - Abstract
The disparity in the free radical generation and the production of antioxidants to counteract its effect is known as oxidative stress. Oxidative stress causes damage to the macromolecules such as lipids, carbohydrates, proteins, and DNA and RNA. The oxidative damage to the cellular components leads to a process of aging and various age-associated disorders. The literature survey for this review was done using PubMed, Google Scholar, and Science Direct. The papers showing the studies related to aging and age-associated disorders have been selected for reviewing this paper. Ellagic acid has been used as the keyword, and more emphasis has been put on papers from the last 10 years. However, some papers with significant studies prior to 10 years have also been considered. Almost 250 papers have been studied for reviewing this paper, and about 135 papers have been cited. Ellagic acid (EA) is present in high quantities in pomegranate and various types of berries. It is known to possess the antioxidant potential and protects from the harmful effects of free radicals. Various studies have shown its effect to protect cardiovascular, neurodegenerative, cancer, and diabetes. The present review focuses on the protective effect of ellagic acid in age-associated disorders. The effect of EA has been studied in various chronic disorders but the scope of this review is limited to cancer, diabetes, cardiovascular and neurodegenerative disorders. All the disease aspects have not been addressed in this particular review. [ABSTRACT FROM AUTHOR]
- Published
- 2022
- Full Text
- View/download PDF
17. Novel archetype in cancer therapeutics: exploring prospective of phytonanocarriers.
- Author
-
Yadav, Nisha, Singh, Deependra, Rawat, Manju, and Sangwan, Neelam
- Subjects
BIOAVAILABILITY ,METAL nanoparticles ,PLANT products ,CELL cycle ,CELL communication ,PLANT extracts - Abstract
This paper reports various types of cancer, their incidence, and prevalence all over the globe. Along with the discovery of novel natural drugs for cancer treatment, these present a promising option which are eco-friendly, safe, and provide better acceptability in comparison to synthetic agents that carries multiple side effects. This paper provides an idea about various nanocarriers and phytochemicals, along with how their solubility and bioavailability can be enhanced in nanocarrier system. This report combines the data from various literature available on public domain including PubMed on research articles, reviews, and along with report from various national and international sites. Specialized metabolites (polyphenols, alkaloids, and steroids etc) from medicinal plants are promising alternatives to existing drugs. Studies have suggested that the treatment of cancer using plant products could be an alternative and a safe option. Studies have shown with the several cell lines as well as animal models, that phytomolecules are important in preventing/treating cancer. Phytochemicals often outperform chemical treatments by modulating a diverse array of cellular signaling pathways, promoting cell cycle arrest, apoptosis activation, and metastatic suppression, among others. However, limited water solubility, bioavailability, and cell penetration limit their potential clinical manifestations. The development of plant extract loaded nanostructures, rendering improved specificity and efficacy at lower concentrations could prove effective. Nanocarriers, such as liposomes, nanostructured lipids, polymers, and metal nanoparticles, have been tested for the delivery of plant products with enhanced effects. Recent advances have achieved improvement in the the stability, solubility, bioavailability, circulation time, and target specificity by nanostructure-mediated delivery of phytochemicals. Nanoparticles have been considered and attempted as a novel, targeted, and safe option. Newer approaches such as phyto-nanocarriers with carbohydrates, lignin, and polymers have been considered even more selective and effective modes of drug delivery in biomedical or diagnostic applications. [ABSTRACT FROM AUTHOR]
- Published
- 2022
- Full Text
- View/download PDF
18. Current status of research on endophytes of traditional Tibetan medicinal plant and their metabolites.
- Author
-
Hu, Danni, Long, Xintong, Luobu, Tudan, and Wang, Qi
- Subjects
PLANT metabolites ,TIBETANS ,ENDOPHYTES ,CULTIVARS ,MEDICINAL plants ,SCIENTIFIC community - Abstract
The Qinghai–Tibet Plateau, known as the "Third Pole of the World," has a rich variety of medicinal plants that play an important role in the field of medicine due to its unique geographical environment. However, due to the limited resources of Tibetan medicinal plants and the fragility of the ecological environment of the Qinghai–Tibet Plateau, more and more Tibetan medicinal plants are on the verge of extinction. As a reservoir of biologically active metabolites, endophytes of medicinal plants produce a large number of compounds with potential applications in modern medicine (including antibacterial, immunosuppressive, antiviral, and anticancer) and are expected to be substitutes for Tibetan medicinal plants. This paper reviews 12 Tibetan medicinal plants from the Qinghai–Tibet Plateau, highlighting the diversity of their endophytes, the diversity of their metabolites and their applications. The results show that the endophytes of Tibetan medicinal plants are remarkably diverse, and the efficacy of their metabolites involves various aspects, such as antioxidant, anti-disease and anti-parasitic. In addition, conservation measures for the resources of Tibetan medicinal plants are summarised to provide a reference for an in-depth understanding of the endophytes of Tibetan medicinal plants and to stimulate the scientific community to bioprospect for the endophytes of Tibetan medicinal plants, as well as to provide ideas for their rational exploitation. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
- View/download PDF
19. Nanoparticle-mediated amelioration of drought stress in plants: a systematic review.
- Author
-
Chandrashekar, Harsha K., Singh, Gunjan, Kaniyassery, Arya, Thorat, Sachin Ashok, Nayak, Roopa, Murali, Thokur Sreepathy, and Muthusamy, Annamalai
- Subjects
DROUGHT tolerance ,MULTIWALLED carbon nanotubes ,DROUGHTS ,REACTIVE oxygen species ,PHOTOSYNTHETIC rates ,STRESS management - Abstract
Drought stress remains one of the most detrimental environmental constraints that hampers plant growth and development resulting in reduced yield and leading to economic losses. Studies have highlighted the beneficial role of carbon-based nanomaterials (NMs) such as multiwalled carbon nanotubes (MWNTs), single-walled carbon nanotubes (SWNTs), graphene, fullerene, and metal-based nanoparticles (NPs) (Ag, Au, Cu, Fe
2 O3 , TiO2 , and ZnO) in plants under unfavorable conditions such as drought. NPs help plants cope with drought by improving plant growth indices and enhancing biomass. It improves water and nutrient uptake and utilization. It helps retain water by altering the cell walls and regulating stomatal closure. The photosynthetic parameters in NP-treated plants reportedly improved with the increase in pigment content and rate of photosynthesis. Due to NP exposure, the activation of enzymatic and nonenzymatic antioxidants has reportedly improved. These antioxidants play a significant role in the defense system against stress. Studies have reported the accumulation of osmolytes and secondary metabolites. Osmolytes scavenge reactive oxygen species, which can cause oxidative stress in plants. Secondary metabolites are involved in the water retention process, thus improving plant coping strategies with stress. The deleterious effects of drought stress are alleviated by reducing malondialdehyde resulting from lipid peroxidation. Reactive oxygen species accumulation is also controlled with NP treatment. Furthermore, NPs have been reported to regulate the expression of drought-responsive genes and the biosynthesis of phytohormones such as abscisic acid, auxin, gibberellin, and cytokinin, which help plants defend against drought stress. This study reviewed 72 journal articles from 192 Google Scholar, ScienceDirect, and PubMed papers. In this review, we have discussed the impact of NP treatment on morphological, physio-biochemical, and molecular responses in monocot and dicot plants under drought conditions with an emphasis on NP uptake, transportation, and localization. [ABSTRACT FROM AUTHOR]- Published
- 2023
- Full Text
- View/download PDF
20. Pseudomonas rhizophila S211 as a microbial cell factory for direct bioconversion of waste cooking oil into medium-chain-length polyhydroxyalkanoates
- Author
-
Hammami, Khouloud, Souissi, Yasmine, Souii, Amal, Gorrab, Afwa, Hassen, Wafa, Chouchane, Habib, Masmoudi, Ahmed Slaheddine, Cherif, Ameur, and Neifar, Mohamed
- Published
- 2024
- Full Text
- View/download PDF
21. DL-TCNN: Deep Learning-based Temporal Convolutional Neural Network for prediction of conformational B-cell epitopes.
- Author
-
Angaitkar, Pratik, Janghel, Rekh Ram, and Sahu, Tirath Prasad
- Subjects
CONVOLUTIONAL neural networks ,B cells ,DEEP learning ,FEATURE extraction ,EPITOPES ,MACHINE learning - Abstract
Prediction of conformational B-cell epitopes (CBCE) is an essential phase for vaccine design, drug invention, and accurate disease diagnosis. Many laboratorial and computational approaches have been developed to predict CBCE. However, laboratorial experiments are costly and time consuming, leading to the popularity of Machine Learning (ML)-based computational methods. Although ML methods have succeeded in many domains, achieving higher accuracy in CBCE prediction remains a challenge. To overcome this drawback and consider the limitations of ML methods, this paper proposes a novel DL-based framework for CBCE prediction, leveraging the capabilities of deep learning in the medical domain. The proposed model is named Deep Learning-based Temporal Convolutional Neural Network (DL-TCNN), which hybridizes empirical hyper-tuned 1D-CNN and TCN. TCN is an architecture that employs causal convolutions and dilations, adapting well to sequential input with extensive receptive fields. To train the proposed model, physicochemical features are firstly extracted from antigen sequences. Next, the Synthetic Minority Oversampling Technique (SMOTE) is applied to address the class imbalance problem. Finally, the proposed DL-TCNN is employed for the prediction of CBCE. The model's performance is evaluated and validated on a benchmark antigen–antibody dataset. The DL-TCNN achieves 94.44% accuracy, and 0.989 AUC score for the training dataset, 78.53% accuracy, and 0.661 AUC score for the validation dataset; and 85.10% accuracy, 0.855 AUC score for the testing dataset. The proposed model outperforms all the existing CBCE methods. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
- View/download PDF
22. Recent updates to microbial production and recovery of polyhydroxyalkanoates.
- Author
-
de Melo, Rafaela Nery, de Souza Hassemer, Guilherme, Steffens, Juliana, Junges, Alexander, and Valduga, Eunice
- Subjects
POLYHYDROXYALKANOATES ,BIODEGRADABLE plastics ,BIOPOLYMERS ,INDUSTRIAL costs ,POLYMERS ,PLASTICS ,POLYESTERS - Abstract
The increasing use of synthetic polymers and their disposal has raised concern due to their adverse effects on the environment. Thus, other sustainable alternatives to synthetic plastics have been sought, such as polyhydroxyalkanoates (PHAs), which are promising microbial polyesters, mainly due to their compostable nature, biocompatibility, thermostability, and resilience, making this biopolymer acceptable in several applications in the global market. The large-scale production of PHAs by microorganisms is still limited by the high cost of production compared to conventional plastics. This review reports some strategies mentioned in the literature aimed at production and recovery, paving the way for the bio-based economy. For this, some aspects of PHAs are addressed, such as synthesis, production systems, process control using by-products from industries, and advances and challenges in the downstream. The bioplastics properties made them a prime candidate for food, pharmaceutical, and chemical industrial applications. With this paper, it is possible to see that biodegradable polymers are promising materials, mainly for reducing the pollution produced by polymers derived from petroleum. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
- View/download PDF
23. Whole genome sequencing of a novel chitinolytic Streptomyces sp. RB7AG reveals it's chitosan production potential: optimization of the process through Taguchi experimental design.
- Author
-
Behera, Subhransu Sekhar, Nivedita, Suchismita, Das, Smrutiranjan, Behera, Himadri Tanaya, Mojumdar, Abhik, and Ray, Lopamudra
- Subjects
WHOLE genome sequencing ,CHITOSAN ,STREPTOMYCES ,CHITIN ,EXPERIMENTAL design ,LAKE sediments ,YEAST extract - Abstract
This study reports about the De novo whole genome sequencing and analysis of a bacterial isolate Streptomyces sp. Strain. RB7AG, isolated from the sediments of Chilika Lake, Odisha, India. The genome report in this paper highlights a size of 7,708,681 bp and a GC content of 72.3%. It also consists of 7274 coding sequence, 66 tRNA and 4 rRNA. Furthermore, carbohydrate active enzyme analysis revealed that the strain RB7AG has 127 glycoside hydrolase family genes, which is well known for hydrolysis of glycosidic bond in complex sugars. Thus, exploiting these microorganisms for the production of chitosan can be an appropriate waste disposal method of choice. Chitosan being an important biomolecule that has various industrial applications. Hence, the study also sought to improve the culture conditions for the Streptomyces sp. strain RB7AG for generation, recovery, and characterization of chitosan. Utilizing the isolate, various low-cost nitrogen sources, including peptone, yeast extract, ammonium chloride, urea along with pH, media, metal ions and surfactant were assessed for chitosan synthesis. In this context, traditional methods such as One Factor One Time are more time consuming and expensive too. The current work aims to establish a methodology to optimize the degradation of chitin by the chitinolytic Streptomyces sp. strain RB7AG, isolated from lake sediment for the production of chitosan. More than one factor was considered at the time of experiments, and the knowledge was integrated into Taguchi statistical design to determine the contribution of the most important factors required to achieve the desired end product i.e. chitosan. Highest chitosan production (2.188 µg/ml) was observed in MSM media, 1.0% NaCl (w/v), 0.5% Yeast extract, 1% Ca
2+ and 0.1% Tween 80 at pH 9. The whole genome analysis of RB7AG would help in determining the mechanism involved in the breakdown activity. [ABSTRACT FROM AUTHOR]- Published
- 2023
- Full Text
- View/download PDF
24. X-ray crystallography of mutant GDSL esterase S12A of Photobacterium marinum J15.
- Author
-
Rahman, Nor Najihah Abdul, Sharif, Fairolniza Mohd, Kamarudin, Nor Hafizah Ahmad, Ali, Mohd Shukuri Mohamad, Aris, Sayangku Nor Ariati Mohamad, Jonet, Mohd Anuar, Rahman, Raja Noor Zaliha Raja Abd, Sabri, Suriana, and Leow, Thean Chor
- Subjects
X-ray crystallography ,LIPOLYTIC enzymes ,PHOTOBACTERIUM ,BUTYRIC acid ,HYDROLYSIS ,CRYSTAL structure ,RACEMIC mixtures - Abstract
GDSL esterase is designated as a member of Family II of lipolytic enzymes known to catalyse the synthesis and hydrolysis of ester bonds. The enzyme possesses a highly conserved motif Ser-Gly-Asn-His in the four conserved blocks I, II, III and V respectively. The enzyme characteristics, such as region-, chemo-, and enantioselectivity, help in resolving the racemic mixture of single-isomer chiral drugs. Recently, crystal structure of GDSL esterase from Photobacterium J15 has been reported (PDB ID: 5XTU) but not in complex with substrate. Therefore, GDSL in complex with substrate could provide insights into the binding mode of substrate towards inactive form of GDSL esterase (S12A) and identify the hot spot residues for the designing of a better binding pocket. Insight into molecular mechanisms is limited due to the lack of crystal structure of GDSL esterase–substrate complex. In this paper, the crystallization of mutant GDSL esterase (S12A) (PDB ID: 8HWO) and its complex with butyric acid (PDB ID: 8HWP) are reported. The optimized structure would be vital in determining hot spot residue for GDSL esterase. This preliminary study provides an understanding of the interactions between enzymes and hydrolysed p-nitro-phenyl butyrate. The information could guide in the rational design of GDSL esterase in overcoming the medical limitations associated with racemic mixture. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
- View/download PDF
25. Deciphering variations, identification of marker–trait associations and candidate genes for seed oil content under terminal heat stress in Indian mustard (Brassica juncea L. Czern & Coss) germplasm stock.
- Author
-
Pal, Lalit, Sandhu, Surinder K., Kaur, Jasneet, and Bhatia, Dharminder
- Subjects
- *
BRASSICA juncea , *OILSEEDS , *GENES , *GERMPLASM , *LIPID metabolism , *BIOSYNTHESIS , *HEAT shock proteins - Abstract
This research paper investigates the variability in seed oil content (SOC) in Indian mustard (Brassica juncea L.) under terminal heat stress (THS) conditions. A genetic stock of 488 genotypes of B. juncea was evaluated over two years and grouped into five classes based on the reduction in oil content under THS compared to normal sown crop. Based on heat susceptibility index (HSI), a diverse panel of 96 genotypes was selected and evaluated under THS. Twenty-two heat-tolerant donor genotypes were identified, including introgression lines derived from B. tournefortii, B. carinata and Erucastrum cardaminoides. This study is the first to report on marker–trait associations for SOC in B. juncea under THS using a GWAS approach. Furthermore, candidate genes associated with abiotic stress tolerance and lipid metabolism were identified near the significant SNPs, emphasizing their role in SOC regulation under stress. Notable candidate genes include BjuA003240 (encoding for alcohol-forming fatty acyl-CoA reductase), BjuA003242 (involving in lipid biosynthesis), BjuA003244 (associated with mitochondrial functions and stress tolerance), and BjuA003245 (related to MYB transcription factors regulating lipid biosynthesis). This study provides valuable insights into the genetic basis of SOC variation under THS in B. juncea, highlighting potential breeding targets for improved heat stress resilience in Indian mustard cultivation. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
26. Unraveling the potential of uninvestigated thermoalkaliphilic lipases by molecular docking and molecular dynamic simulation: an in silico characterization study
- Author
-
Tütüncü, Havva Esra, Durmuş, Naciye, and Sürmeli, Yusuf
- Published
- 2024
- Full Text
- View/download PDF
27. Heterologous expression of cyclodextrin glycosyltransferase from Bacillus stearothermophilus in Bacillus subtilis and its application in glycosyl rutin production.
- Author
-
Song, Wen, Zhang, Mengjie, Li, Xiaojun, Zhang, Yinjun, and Zheng, Jianyong
- Subjects
GEOBACILLUS stearothermophilus ,GENE expression ,CYCLODEXTRINS ,BACILLUS subtilis ,RUTIN ,AFFINITY chromatography ,BIOSURFACTANTS ,POLYACRYLAMIDE gel electrophoresis - Abstract
In this paper, the cgt gene encoding cyclodextrin glycosyltransferase (CGTase) from Bacillus stearothermophilus was cloned into pWB980 plasmid for extracellular expression in Bacillus subtilis SCK6. Through adding a six-histidine affinity tag fused to the C-terminus, the recombinant CGTase could be purified by nickel ion affinity chromatography, and its molecular weight was approximately 76 kDa on SDS-PAGE. Then, the enzymatic properties were determined, and results were as follows: the optimum temperature and pH were identified as 40 ℃ and pH 5.0, respectively. CGTase had good tolerance to metal ions of Mn
2+ , Ca2+ , and Mg2+ . The enzyme activity was activated by Na+ , Al3+ , Fe3+ , and Ni+ , and it was remarkably inhibited by Cu2+ and Zn2+ . To improve the aqueous solubility of rutin, CGTase was used to catalyze the transglycosylation reaction, and the conversion rate could reach as high as 80.13% under optimal conditions. Furthermore, the reaction mixture was treated with glucoamylase and microporous adsorbent resin. The yield of glycosyl-rutin was 56.1%, and its purity was 74.3%, which further improved the value of the product. [ABSTRACT FROM AUTHOR]- Published
- 2023
- Full Text
- View/download PDF
28. Extraction, characterization, antioxidant and α-amylase inhibitory activities of (1 → 3)(1 → 6)-β-D-glucogalactan from Aspergillus niger ATCC 1004.
- Author
-
Mendes, Tátilla P. S., Santana, Romário A., Cedro, Pâmala Évelin P., Miranda, Alana Caise A., Junior, Baraquizio B. Nascimento, and Júnior, Gildomar L. Valasques
- Subjects
POLYSACCHARIDES ,ASPERGILLUS niger ,AMYLASES ,AMYLOLYSIS ,RESPONSE surfaces (Statistics) ,HYDROXYL group ,FACTORIAL experiment designs ,ANTIOXIDANTS - Abstract
The optimization of extraction, chemical characterization, and the evaluation of antioxidant activity and α-amylase inhibition capacities of the cell wall polysaccharides extracted from Aspergillus niger ATCC 1004 were studied in this paper. The response surface methodology through a factorial design of three levels indicated the optimal conditions for extraction: pH 13 and 180 min. Characterization results showed that the polysaccharide is glucogalactan, consisting of β-D-galactose-linked units (1 → 6) and β-D-linked glucose (1 → 3). The antioxidant activity was evaluated through three in vitro assays. It could effectively scavenge DPPH, ABTS and hydroxyl radicals with inhibition rates of 82.12%, 75.87% and 79.24, respectively, at 6.4 mg/mL, which were higher than those of the other polysaccharides. For inhibitory activity against α-amylase, a blocking effect of 53.7% was observed at a concentration of 2 mg/mL. Therefore, the cell wall polysaccharides of Aspergillus niger, (1 → 3)(1 → 6)-β-D-glucogalactan, seem to be a promising source for use as an antioxidant, in addition to holding an in vitro hypoglycemic potential. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
- View/download PDF
29. Integration of agricultural residues as biomass source to saccharification bioprocess and for the production of cellulases from filamentous fungi.
- Author
-
Castro-Ochoa, Lelie Denise, Hernández-Leyva, Sandy Rocío, Medina-Godoy, Sergio, Gómez-Rodríguez, Javier, Aguilar-Uscanga, María Guadalupe, and Castro-Martínez, Claudia
- Subjects
AGRICULTURAL wastes ,FILAMENTOUS fungi ,CORN stover ,WHEAT bran ,BIOMASS ,MOLECULAR weights ,BETA-glucosidase - Abstract
The production of second-generation bioethanol has several challenges, among them finding cheap and efficient enzymes for a sustainable process. In this work, we analyzed two native fungi, Cladosporium cladosporioides and Penicillium funiculosum, as a source of cellulolytic enzyme production, and corn stover, wheat bran, chickpeas, and bean straw as a carbon source in two fermentation systems: submerged and solid fermentation. Corn stover was selected for cellulase production in both fermentation systems, because we found the highest enzymatic activities when carboxymethyl cellulase activity (CMCase) was assessed using CMC as substrate. C. cladosporioides showed the highest CMCase activity (1.6 U/mL), while P. funiculosum had the highest filter paper activity (Fpase) (0.39 U/mL). The ß-glucosidase activities produced by both fungi were similar in submerged fermentation using corn stover as substrate. Through in-gel zymography, three polypeptides with cellulolytic activities were identified in each fungus: with molecular weights of ~ 38, 45 and 70 kDa in C. cladosporioides and ~ 21, 63 and 100 kDa in P. funiculosum. The best results for saccharification (10.11 g/L of reducing sugars) of diluted acid pretreated corn stover were obtained after 36 h of the hydrolytic process at pH 5 and 50 °C using the enzyme extract of P. funiculosum. This is the first report of cellulase identification in C. cladosporioides and the saccharification of corn stover using enzymes of this fungus. Enzymatic extracts of C. cladosporioides and P. funiculosum obtained from low-cost lignocellulosic biomass have great potential for use in the production of second-generation bioethanol. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
- View/download PDF
30. Identification, characterization, and genome sequencing of Brevibacterium sediminis MG-1 isolate with growth-promoting properties.
- Author
-
Lutfullin, Marat Tafkilevich, Lutfullina, Guzel Fanisovna, Pudova, Dasha Sergeevna, Akosah, Yaw Abayie, Shagimardanova, Elena Ilyasovna, Vologin, Semyon Germanovich, Sharipova, Margarita Rashidovna, and Mardanova, Ayslu Mirkasymovna
- Subjects
NUCLEOTIDE sequencing ,EFFECT of salt on plants ,AEROBIC bacteria ,PLANT growth-promoting rhizobacteria ,BREVIBACTERIUM ,CELL suspensions ,PLANT growth - Abstract
In recent years, plant growth-promoting rhizobacteria (PGPR) have received increased attention due to their prospective use as biofertilizers for the enhancement of crop growth and yields. However, there is a growing need to identify new PGPR isolates with additional beneficial properties. In this paper, we describe the identification of a new strain of a non-sporulating Gram-positive bacterium isolated from the rhizosphere of potato plants, classified as Brevibacterium sediminis MG-1 based on whole-genome sequencing. The bacteria are aerobic; they grow in a pH range of 6.0–10.0 (optimum 6.0), and a temperature range of 20–37 °C (optimum 30 °C). At 96 h of cultivation, strain MG-1 synthesizes 28.65 µg/ml of indole-3-acetic acid (IAA) when 500 µg/ml of l-tryptophan is added. It is a producer of catechol-type siderophores and ACC deaminase (213 ± 12.34 ng/ml) and shows halotolerance. Treatment of pea, rye, and wheat seeds with a suspension of MG-1 strain cells resulted in the stimulation of stem and root biomass accumulation by 12–26% and 6–25% (P < 0.05), respectively. Treatment of seeds with bacteria in the presence of high salt concentration reduced the negative effects of salt stress on plant growth by 18–50%. The hypothetical gene lin, encoding the bacteriocin Linocin-M18, RIPP-like proteins, and polyketide synthase type III (T3PKS) loci, gene clusters responsible for iron acquisition and metabolism of siderophores, as well as gene clusters responsible for auxin biosynthesis, were identified in the B. sediminis MG-1 genome. Thus, the rhizosphere-associated strain B. sediminis MG-1 has growth-stimulating properties and can be useful for the treatment of plants grown on soils with high salinity. [ABSTRACT FROM AUTHOR]
- Published
- 2022
- Full Text
- View/download PDF
31. Recent advances in the bio-application of microalgae-derived biochemical metabolites and development trends of photobioreactor-based culture systems.
- Author
-
Khaligh, Seyedeh Farzaneh and Asoodeh, Ahmad
- Subjects
LIFE cycles (Biology) ,ALTERNATIVE fuels ,METABOLITES ,BIODIESEL fuels ,COVID-19 pandemic - Abstract
Microalgae are microscopic algae in sizes ranging from a few micrometers to several hundred micrometers. On average, half of the oxygen in the atmosphere is produced by the photosynthetic process of microalgae, so the role of these microorganisms in the life cycle of the planet is very significant. Pharmaceutical products derived from microalgae and commercial developments of a variety of supplements extracted from them originate from a variety of their specific secondary metabolites. Many of these microalgae are a reservoir of unique biological compounds including carotenoids, antioxidants, fatty acids, polysaccharides, enzymes, polymers, peptides, pigments, toxins and sterols with antimicrobial, antiviral, antifungal, antiparasitic, anticoagulant, and anticancer properties. The present work begins with an introduction of the importance of microalgae in renewable fuels and biodiesel production, the development of healthy food industry, and the creation of optimal conditions for efficient biomass yield. This paper provides the latest research related to microalgae-derived substances in the field of improving drug delivery, immunomodulatory, and anticancer attributes. Also, the latest advances in algal biocompounds to combat the COVID-19 pandemic are presented. In the subject of cultivation and growth of microalgae, the characteristics of different types of photobioreactors, especially their latest forms, are fully discussed along with their advantages and obstacles. Finally, the potential of microalgae biomass in biotechnological applications, biofuel production, as well as various biomass harvesting methods are described. [ABSTRACT FROM AUTHOR]
- Published
- 2022
- Full Text
- View/download PDF
32. Response surface optimization of cellulase production by Aspergillus stellatus NFCCI 5299 in shake flask submerged fermentation using wheat bran.
- Author
-
Thakur, Geetika, Sutaoney, Priya, Joshi, Veenu, and Ghosh, Prabir
- Subjects
- *
WHEAT bran , *CELLULASE , *ASPERGILLUS , *RESPONSE surfaces (Statistics) , *FERMENTATION , *SCANNING electron microscopy - Abstract
The expense of cellulase enzymes is the main barrier to the enzymatic saccharification of biomass. Numerous tactics, such as the utilizing inexpensive lignocellulosic substrates as well as economically feasible fermentation techniques for the production of the enzyme may reduce the cost of cellulases. The present investigation was aimed to improve cellulase production employing potential cellulolytic soil fungi, Aspergillus stellatus NFCCI 5299 using wheat bran as substrate. Employing response surface methodology (RSM) with central composite design (CCD), the most efficient process parameters were determined. The ideal conditions for the synthesis of carboxy methyl cellulase (CMCase) and filter paper cellulase activity (FPase) were 6 days of incubation, inoculum size of 4 mycelial disc, 125 rpm of agitation, and 3.5% of wheat bran. The significant mycelial development and enzymatic digestion of wheat bran were discovered by scanning electron microscopy (SEM) and fourier transform infrared (FTIR) analysis. The findings suggested that it can be practicable to use wheat bran as substrate under submerged fermentation utilizing Aspergillusstellatus NFCCI 5299 for efficient cellulase production. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
- View/download PDF
33. Exploring the potential of a new thermotolerant xylanase from Rasamsonia composticola (XylRc): production using agro-residues, biochemical studies, and application to sugarcane bagasse saccharification.
- Author
-
Franco, Daniel Guerra, de Almeida, Aline Pereira, Galeano, Rodrigo Mattos Silva, Vargas, Isabela Pavão, Masui, Douglas Chodi, Giannesi, Giovana Cristina, Ruller, Roberto, and Zanoelo, Fabiana Fonseca
- Subjects
- *
POLYACRYLAMIDE gel electrophoresis , *BAGASSE , *LIGNOCELLULOSE , *XYLANS , *SUGARCANE , *XYLANASES , *ORGANIC solvents , *THERMOPHILIC fungi - Abstract
Xylanases from thermophilic fungi have a wide range of commercial applications in the bioconversion of lignocellulosic materials and biobleaching in the pulp and paper industry. In this study, an endoxylanase from the thermophilic fungus Rasamsonia composticola (XylRc) was produced using waste wheat bran and pretreated sugarcane bagasse (PSB) in solid-state fermentation. The enzyme was purified, biochemically characterized, and used for the saccharification of sugarcane bagasse. XylRc was purified 30.6-fold with a 22% yield. The analysis using sodium dodecyl sulphate–polyacrylamide gel electrophoresis revealed a molecular weight of 53 kDa, with optimal temperature and pH values of 80 °C and 5.5, respectively. Thin-layer chromatography suggests that the enzyme is an endoxylanase and belongs to the glycoside hydrolase 10 family. The enzyme was stimulated by the presence of K+, Ca2+, Mg2+, and Co2+ and remained stable in the presence of the surfactant Triton X-100. XylRc was also stimulated by organic solvents butanol (113%), ethanol (175%), isopropanol (176%), and acetone (185%). The Km and Vmax values for oat spelt and birchwood xylan were 6.7 ± 0.7 mg/mL, 2.3 ± 0.59 mg/mL, 446.7 ± 12.7 µmol/min/mg, and 173.7 ± 6.5 µmol/min/mg, respectively. XylRc was unaffected by different phenolic compounds: ferulic, tannic, cinnamic, benzoic, and coumaric acids at concentrations of 2.5–10 mg/mL. The results of saccharification of PSB showed that supplementation of a commercial enzymatic cocktail (Cellic® CTec2) with XylRc (1:1 w/v) led to an increase in the degree of synergism (DS) in total reducing sugar (1.28) and glucose released (1.05) compared to the control (Cellic® HTec2). In summary, XylRc demonstrated significant potential for applications in lignocellulosic biomass hydrolysis, making it an attractive alternative for producing xylooligosaccharides and xylose, which can serve as precursors for biofuel production. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
- View/download PDF
34. Use of biochar and a post-coagulation effluent as an adsorbent of malachite green, beneficial bacteria carrier, and seedling substrate for plants belonging to the poaceae family.
- Author
-
Plaza-Rojas, Christy A., Amaya-Orozco, Nelson A., Rivera-Hoyos, Claudia M., Montaña-Lara, José S., Páez-Morales, Adriana, Salcedo-Reyes, Juan Carlos, Castillo-Carvajal, Laura C., Martínez-Urrútia, Wilmar, Díaz-Ariza, Lucía Ana, and Pedroza-Rodríguez, Aura M.
- Subjects
- *
MALACHITE green , *BIOCHAR , *PLANT growing media , *SEWAGE disposal plants , *GRASSES , *WASTEWATER treatment - Abstract
Wastewater treatment plants produce solid and semi-solid sludge, which treatment minimises secondary environmental pollution because of wastewater treatment and obtaining new bioproducts. For this reason, in this paper, the co-pyrolysis of biogenic biomasses recovered from a biological reactor with immobilised fungal and bacterial biomass and a tertiary reactor with Chlorella sp. used for dye-contaminated wastewater treatment was carried out. Biogenic biomasses mixed with pine bark allowed the production and characterisation of two types of biochar. The raw material and biochar were on the "in vitro" germination of Lolium sp. seeds, followed by adsorption studies for malachite green (MG) dye using the raw material and the biochar. Results showed that using 60 mg L−1 of a cationic coagulant at pH 6.5 allowed for the recovery of more than 90% of the microalgae after 50 min of processing. Two biochar resulted: BC300, at pH 5.08 ± 0.08 and BC500, at pH 6.78 ± 0.01. The raw material and both biochars were co-inoculated with growth-promoting bacteria; their viabilities ranged from 1.7 × 106 ± 1.0 × 101 to 7.5 × 108 ± 6.0 × 102 CFU g−1 for total heterotrophic, nitrogen-fixing and phosphate-solubilising bacteria. Re-use tests on Lolium sp. seed germination showed that with the post-coagulation effluent, the germination was 100%, while with the biochar, with and without beneficial bacteria, the germination was 98 and 99%, respectively. Finally, BC500 adsorbed the highest percentage of malachite green at pH 4.0, obtaining qecal values of 0.5249 mg g−1 (R2: 0.9875) with the pseudo-second-order model. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
- View/download PDF
35. Recent advances in biodecolorization and biodegradation of environmental threatening textile finishing dyes.
- Author
-
Sehar, Shama, Rasool, Tabassum, Syed, Hasnain M., Mir, M. Amin, Naz, Iffat, Rehman, Abdul, Shah, Mir Sadiq, Akhter, Mohammad Salim, Mahmood, Qaisar, and Younis, Adnan
- Subjects
TEXTILE finishing ,BIOTIC communities ,DRINKING water ,BIODEGRADATION ,ORGANIC dyes ,REMANUFACTURING ,DYES & dyeing - Abstract
Organic nature of dyes and their commercially made products are widely utilized in many industries including paper, cosmetics, pharmaceuticals, photography, petroleum as well as in textile manufacturing. The textile industry being the top most consumer of a large variety of dyes during various unit processes operation generates substantial amount of wastewater; hence, nominated as "Major Polluter of Potable Water". The direct discharge of such effluents into environment poses serious threats to the functioning of biotic communities of natural ecosystems. The detection of these synthetic dyes is considered as relatively easy, however, it is extremely difficult to completely eliminate them from wastewater and freshwater ecosystems. Aromatic chemical structure seems to be the main reason behind low biodegradability of these dyes. Currently, various physiochemical and biological methods are employed for their remediation. Among them, microbial degradation has attracted greater attention due to its sustainability, high efficiency, cost effectiveness, and eco-friendly nature. The current review presents recent advances in biodegradation of industrial dyes towards a sustainable and tangible technological innovative solutions as an alternative to existing conventional physicochemical treatment processes. [ABSTRACT FROM AUTHOR]
- Published
- 2022
- Full Text
- View/download PDF
36. Recent advances in microbial co-culture for production of value-added compounds.
- Author
-
Thuan, Nguyen Huy, Tatipamula, Vinay Bharadwaj, Canh, Nguyen Xuan, and Van Giang, Nguyen
- Subjects
NATURAL products ,FLAVONOIDS ,CELL growth ,ANTIFUNGAL agents ,BIOACTIVE compounds - Abstract
Micro-organisms have often been used to produce bioactive compounds as antibiotics, antifungals, and anti-tumors, etc. due to their easy and applicable culture, genetic manipulation, and extraction, etc. Mainly, microbial mono-cultures have been applied to produce value-added compounds and gotten numerous valuable results. However, mono-culture also has several complicated problems, such as metabolic burdens affecting the growth and development of the host, leading to a decrease in titer of the target compound. To circumvent those limitations, microbial co-culture has been technically developed and gained much interest compared to mono-culture. For example, co-culture simplifies the design of artificial biosynthetic pathways and restricts the recombinant host's metabolic burden, causing increased titer of desired compounds. This paper summarizes the recent advanced progress in applying microbial platform co-culture to produce natural products, such as flavonoid, terpenoid, alkaloid, etc. Furthermore, importantly different strategies for enhancing production, overcoming the metabolic burdens, building autonomous modulation of cell growth rate and culture composition in response to a quorum-sensing signal, etc., were also described in detail. [ABSTRACT FROM AUTHOR]
- Published
- 2022
- Full Text
- View/download PDF
37. Chemical alternative for cell identification and cross-contamination detection.
- Author
-
Msalbi, Dhouha, Elloumi-Mseddi, Jihene, Hakim, Bochra, Sahli, Emna, and Aifa, Sami
- Subjects
CELL cycle ,CELL proliferation ,CELL lines ,CELL culture ,CANCER cells - Abstract
Misidentification of human cell lines has previously led to confusing results during cell culture experiments. Although several enzymatic as well as molecular analysis approaches have been developed for cell-line authentication, these methods remain costly. In the present paper, we describe a simple chemical alternative based on known compound cell cytotoxicity. In addition to cisplatin, a pool of eight tamoxifen derivative compounds was used to compare the cytotoxic effects on three different breast cancer cell lines: MCF-7, T47D and MDA-MB-231. Our results show that four out of the eight cytotoxic-related compounds allowed to distinguish the different cell lines based on their IC
50 (the half maximal inhibitory concentration) values which are cell type dependent. The remaining chemicals, particularly the most cytotoxic P15, showed close IC50 values for all the cell lines. Interestingly, flow cytometry experiments have identified notable differences among the three cell lines treated with P15. T47D and MDA-MB231 cells were blocked in SubG1 phase and S phase, respectively, while no significant change in cell cycle profile was noticed for MCF-7 cells. Differences were also noted at the level of caspase-3 activity and cell proliferation in P15-treated cells. [ABSTRACT FROM AUTHOR]- Published
- 2022
- Full Text
- View/download PDF
38. Delineation of mechanistic approaches of rhizosphere microorganisms facilitated plant health and resilience under challenging conditions.
- Author
-
Dukare, Ajinath, Mhatre, Priyank, Maheshwari, Hemant S., Bagul, Samadhan, Manjunatha, B. S., Khade, Yogesh, and Kamble, Umesh
- Subjects
CRISPRS ,DISASTER resilience ,RHIZOSPHERE ,PLANT growth ,PLANT health ,RHIZOBACTERIA - Abstract
Sustainable agriculture demands the balanced use of inorganic, organic, and microbial biofertilizers for enhanced plant productivity and soil fertility. Plant growth-enhancing rhizospheric bacteria can be an excellent biotechnological tool to augment plant productivity in different agricultural setups. We present an overview of microbial mechanisms which directly or indirectly contribute to plant growth, health, and development under highly variable environmental conditions. The rhizosphere microbiomes promote plant growth, suppress pathogens and nematodes, prime plants immunity, and alleviate abiotic stress. The prospective of beneficial rhizobacteria to facilitate plant growth is of primary importance, particularly under abiotic and biotic stresses. Such microbe can promote plant health, tolerate stress, even remediate soil pollutants, and suppress phytopathogens. Providing extra facts and a superior understanding of microbial traits underlying plant growth promotion can stir the development of microbial-based innovative solutions for the betterment of agriculture. Furthermore, the application of novel scientific approaches for facilitating the design of crop-specific microbial biofertilizers is discussed. In this context, we have highlighted the exercise of "multi-omics" methods for assessing the microbiome's impact on plant growth, health, and overall fitness via analyzing biochemical, physiological, and molecular facets. Furthermore, the role of clustered regularly interspaced short palindromic repeats (CRISPR) based genome alteration and nanotechnology for improving the agronomic performance and rhizosphere microbiome is also briefed. In a nutshell, the paper summarizes the recent vital molecular processes that underlie the different beneficial plant–microbe interactions imperative for enhancing plant fitness and resilience under-challenged agriculture. [ABSTRACT FROM AUTHOR]
- Published
- 2022
- Full Text
- View/download PDF
39. Influence of mechanical operation on the biodelignification of Leucaena leucocephala by xylanase treatment.
- Author
-
Pandey, Laxman Kumar, Kumar, Amit, Dutt, Dharm, and Singh, S. P.
- Subjects
LEAD tree ,WOOD chips ,SULFATE pulping process ,XYLANASES ,WOOD-pulp - Abstract
This study aimed at energy reduction during pulping of L. leucocephala by passing the wood chips through an impressafiner followed by xylanase pretreatment. An impressafiner compressed the chips and converted them into spongy materials. Wood chips of L. leucocephala with or without de-structuring and de-structured wood chips followed by enzymatic treatment were subjected to Kraft pulping at different temperatures varying from 135 to 170 °C and active alkali varying from 12 to 20% (as Na
2 O) to observe effect on screened pulp yield and kappa number. The de-structured wood chips followed by enzymatic treatment produced a pulp yield of 48.2% and kappa number 18.6. L. leucocephala without de-structuring produced a pulp yield of 50.1% and kappa number 23.7. When the pulp was subjected to oxygen delignification to reduce kappa number in the vicinity of 18.6, pulp showed shrinkage by 6.64% compared to Kraft pulp of de-structured wood chips followed by enzymatic treatment. Kraft pulp produced from de-structured wood chips of L. leucocephala followed by enzymatic treatment showed net saving of US$ 163.15 per digester over Kraft pulp produced without de-structuring of wood chips of L. leucocephala. Moreover, the pulp obtained by de-structuring followed by enzymatic treatment showed improvement in pulp brightness and physical strength properties including tensile, tear, and burst index significantly compared to pulp obtained without de-structuring. [ABSTRACT FROM AUTHOR]- Published
- 2021
- Full Text
- View/download PDF
40. Strategies for single base gene editing in an immortalized human cell line by CRISPR/Cas9 technology
- Author
-
Corrado, Alda, Aceto, Romina, Miglietta, Simona, Silvestri, Roberto, Dell’Anno, Irene, Lepori, Irene, Ricci, Benedetta, Romei, Cristina, Giovannoni, Roberto, Poliseno, Laura, Evangelista, Monica, Vitiello, Marianna, Cipollini, Monica, Elisei, Rossella, Landi, Stefano, and Gemignani, Federica
- Published
- 2024
- Full Text
- View/download PDF
41. Wheat bran as an efficient agro-process waste for enhanced yellow laccase production by Lentinus tigrinus SSB_W2 and its application in anthraquinone dye degradation
- Author
-
Bhoyar, Seema S., Chaudhari, Ashvini U., Desai, Mangesh A., Latpate, Raosaheb V., Sartale, Shrikrishna D., and Kodam, Kisan M.
- Published
- 2024
- Full Text
- View/download PDF
42. Response surface optimization of cellulase production by Aspergillus stellatus NFCCI 5299 in shake flask submerged fermentation using wheat bran
- Author
-
Thakur, Geetika, Sutaoney, Priya, Joshi, Veenu, and Ghosh, Prabir
- Published
- 2024
- Full Text
- View/download PDF
43. Exploring the potential of a new thermotolerant xylanase from Rasamsonia composticola (XylRc): production using agro-residues, biochemical studies, and application to sugarcane bagasse saccharification
- Author
-
Franco, Daniel Guerra, de Almeida, Aline Pereira, Galeano, Rodrigo Mattos Silva, Vargas, Isabela Pavão, Masui, Douglas Chodi, Giannesi, Giovana Cristina, Ruller, Roberto, and Zanoelo, Fabiana Fonseca
- Published
- 2024
- Full Text
- View/download PDF
44. Nanomaterial conjugated lignocellulosic waste: cost-effective production of sustainable bioenergy using enzymes.
- Author
-
Kaur, Parneet, Thakur, Meenu, Tondan, Divya, Bamrah, Gurpreet Kaur, Misra, Shambhavi, Kumar, Pradeep, Pandohee, Jessica, and Kulshrestha, Saurabh
- Subjects
RENEWABLE energy sources ,ENERGY consumption ,NANOSTRUCTURED materials ,FOOD waste ,FOSSIL fuels ,BIOCONVERSION - Abstract
The demand for novel and renewable sources of energy has increased as a result of rapid population growth, limited sources of bioenergy, and environmental pollution, caused by excessive use of fossil fuels. The need to meet future energy demands have motivated researchers to search for alternative and sustainable sources of energy. The bioconversion of lignocellulosic waste (agricultural and food waste) into biofuels shows competitive promises. Lignocellulosic waste is easily accessible and has a large enzyme system that can be immobilised onto nano-matrices. Consequently, resulting in higher biofuel production and process efficiency. However, the excessive production cost of the current procedures, which involve physical, chemical, and enzymatic reactions, is limited. The use of nanomaterials has recently been shown to concentrate lignocellulosic waste, therefore, reviewing the quest for efficient production of sustainable and cost-effective development of bioenergy from lignocellulosic wastes. This review paper explores the advanced strategies of using nanobiotechnology to combine enzyme-conjugated nanosystems for the cost-effective production of sustainable bioenergy solutions. This research will help to develop an inexpensive, eco-friendly technology for biofuels production and also help overcome the environmental burden of lignocellulosic waste worldwide. [ABSTRACT FROM AUTHOR]
- Published
- 2021
- Full Text
- View/download PDF
45. Calcium carbonate nano- and microparticles: synthesis methods and biological applications.
- Author
-
Fadia, Preksha, Tyagi, Simona, Bhagat, Stuti, Nair, Abhishek, Panchal, Pooja, Dave, Harsh, Dang, Sadev, and Singh, Sanjay
- Subjects
CALCIUM carbonate ,BIOSYNTHESIS ,FILLER materials ,CARBONATION (Chemistry) ,POLYMERIZATION ,PLASTICS ,TISSUE engineering - Abstract
Calcium carbonate micro- and nanoparticles are considered as chemically inert materials. Therefore, they are widely considered in the field of biosensing, drug delivery, and as filler material in plastic, paper, paint, sealant, and adhesive industries. The unusual properties of calcium carbonate-based nanomaterials, such as biocompatibility, high surface-to-volume ratio, robust nature, easy synthesis, and surface functionalization, and ability to exist in a variety of morphologies and polymorphs, make them an ideal candidate for both industrial and biomedical applications. Significant research efforts have been devoted for developing novel synthesis methods of calcium carbonate particles in micrometer and nanometer dimensions. This review highlights different approaches of the synthesis of calcium carbonate micro- and nanoparticles, such as precipitation, slow carbonation, emulsion, polymer-mediated method, including in-situ polymerization, mechano-chemical, microwave-assisted method, and biological methods. The applications of these versatile calcium carbonate micro- and nanoparticles in the biomedical field (such as in drug delivery, therapeutics, tissue engineering, antimicrobial activity, biosensing applications), in industries, and environmental sector has also been comprehensively covered. [ABSTRACT FROM AUTHOR]
- Published
- 2021
- Full Text
- View/download PDF
46. Sesamol combats diabetogenic effects of atorvastatin through GLUT-4 expression and improved pancreatic viability
- Author
-
Keni, Raghuvir, Nayak, Pawan Ganesh, Kumar, Nitesh, Kishore, Anoop, Alnasser, Sulaiman Mohammed, Begum, Farmiza, Gourishetti, Karthik, and Nandakumar, Krishnadas
- Published
- 2023
- Full Text
- View/download PDF
47. Engineered E. colifor D-pantothenic acid production with an acetolactate isomeroreductase mutant
- Author
-
Zhang, Bo, Zhang, Yu-Qiong, He, Zhou-Lin, Xiao, Yun-Ying, Tang, Meng-Na, Zhou, Jun-Ping, Liu, Zhi-Qiang, and Zheng, Yu-Guo
- Abstract
D-Pantothenic acid, as a momentous vitamin, is extensively applied to feed, medicine, cosmetics and other fields. However, there are still limitations to produce D-pantothenic acid by microbial fermentation at present. In this paper, we constructed a recombinant strain for D-pantothenic acid production by blocking the organic acid pathway, boosting pyruvate biosynthesis, relieving feedback inhibition of acetolactate synthase, improving glucose intake capacity, and modifying essential genes in the metabolic pathway. In addition, a new acetolactate isomeroreductase mutant V412A origin from Escherichia coli(EcAHAIR) encoded by ilvCwas obtained to explore its substrate promiscuity. Compared with the wild type, the variant EcAHAIR-V412A has reduced steric hindrance and enhanced intermolecular forces, resulting in a high affinity for 2-acetolactate. Eventually, the fermentation production of the final strain DPAN19/trc-ilvCV412Areached 4.65 g/L, increased by 192.5% compared with strain DPA8 in shake flask cultivation and produced 62.82 g/L D-pantothenic acid in a 5 L bioreactor. The metabolic engineering strategies and enzyme modification approaches described in this paper provide a particular perspective for the bio-manufacturing of D-pantothenic acid, branched-chain amino acids and its derivates.
- Published
- 2024
- Full Text
- View/download PDF
48. Advances in the stimuli-responsive mesoporous silica nanoparticles as drug delivery system nanotechnology for controlled release and cancer therapy
- Author
-
Zhu, Yameng, Bai, Yu, He, Jun, and Qiu, Xilong
- Published
- 2023
- Full Text
- View/download PDF
49. Long-term consumption of different doses of Grifola frondosa affects immunity and metabolism: correlation with intestinal mucosal microbiota and blood lipids
- Author
-
Liu, Jing, Wu, Yi, Cai, Ying, Tan, Zhoujin, and Deng, Na
- Published
- 2023
- Full Text
- View/download PDF
50. The diarrheal mechanism of mice with a high-fat diet in a fatigued state is associated with intestinal mucosa microbiota
- Author
-
Liu, Jing, Qiao, Bo, Deng, Na, Wu, Yi, Li, Dandan, and Tan, Zhoujin
- Published
- 2023
- Full Text
- View/download PDF
Discovery Service for Jio Institute Digital Library
For full access to our library's resources, please sign in.