PhD Assistance in Industrial microbiology Industrial microbiology Publication Assistance Industrial microbiology Projects Industrial microbiology Training Industrial microbiology Inplant Training Industrial microbiology Summer Training Industrial microbiology Winter Training Industrial microbiology Internship Industrial microbiology Summer Internship Industrial microbiology Winter Internship Industrial microbiology Publication Projects Industrial microbiology Research Projects Industrial microbiology Industrial Training Industrial microbiology Course Finishers Training Industrial microbiology Job Oriented Training Industrial microbiology Research Training Online or Virtual Internship in Industrial microbiology Industrial microbiology Workshops
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Careers in Industrial microbiology Industrial microbiology Resources Industrial microbiology Journals List Industrial microbiology Professional List Industrial microbiology Institutions List Industrial microbiology Abstract and Indexing Services Industrial microbiology Journal Updates Medical Applications of Industrial microbiology Industrial Applications of Industrial microbiology Diagnostic Applications of Industrial microbiology Industrial microbiology Global Updates Research Guides in Industrial microbiology Industrial microbiology NTHRYS Journal of Life Updates Pharmaceutical Applications of Industrial microbiology Multidisciplinary and Interdisciplinary fields that include Industrial microbiology
The primary sectors of focus for research in industrial microbiology encompass major product categories
- Enzymes
- Antibiotics
- Industrial Fermentation Products
- Biofuels
- Microbial Biopolymers
- Probiotics
- Microbial Pesticides
- Biosurfactants
Enzymes+Enzymes play a pivotal role in various industrial processes, serving as catalysts for biochemical reactions. Their versatility and specificity make them indispensable in numerous applications. Active research in enzyme technology is crucial for advancing industrial processes and sustainability. NTHRYS Biotech Labs channels its research efforts towards industrially crucial enzymes, emphasizing active investigation into their applications for optimizing industrial processes and advancing diverse product development:
- Proteases
- Lipases
- Cellulases
- Amylases
- Polymerases
- Isomerases
- Kinases
- Dehydrogenases
- Hydrolases
- Lyases
- Nucleases
- Phosphatases
- Transferases
- Oxidoreductases
- Restriction enzymes
- Coenzymes
- Glycosyltransferases
- Synthetases
- Decarboxylases
- Methyltransferases
- Halogenases
- Isomerase
- Epimerases
- DNA ligases
- Alcohol dehydrogenases
- Amidases
- Carboxylases
- Glucosidases
- Galactosidases
- Ureases
- Carbonic anhydrases
- Deaminases
- Endonucleases
- Exonucleases
- Acetyltransferases
- Chitinases
- Xylanases
- Protein kinases
- Acid phosphatases
- Alkaline phosphatases
- Endopeptidases
- Laccases
- Monooxygenases
- Peroxidases
- Sialidases
- Superoxide dismutases
- Transaminases
Antibiotics+Antibiotics are crucial in combating bacterial infections and have played a pivotal role in healthcare. Ongoing research is vital to discover new antibiotics, overcome resistance, and improve therapeutic options. NTHRYS Biotech Labs places a strategic emphasis on active research into industrially significant antibiotics, targeting advancements in various applications to address antibiotic resistance and enhance therapeutic options in industrial and healthcare sectors:
- Penicillins
- Cephalosporins
- Tetracyclines
- Macrolides
- Quinolones
- Aminoglycosides
- Sulfonamides
- Glycopeptides
- Carbapenems
- Monobactams
- Lincosamides
- Oxazolidinones
- Streptogramins
- Polymyxins
- Cyclic lipopeptides
- Rifamycins
- Lipoglycopeptides
- Ansamycins
- Phenicols
- Nitrofurans
- Glycolipopeptides
- Ketolides
- Phosphonic acids
- Thiopeptides
- Actinomycins
- Streptothricins
- Polypeptides
- Beta-lactamase inhibitors
- Anti-mycobacterial antibiotics
- Antifungal antibiotics
- Antiviral antibiotics
- Antiparasitic antibiotics
- Antineoplastic antibiotics
- Antibacterial peptides
- Marine-derived antibiotics
- Modified antibiotics
- Semi-synthetic antibiotics
- Antibiotic adjuvants
- Antibiotic resistance inhibitors
- Phage therapy
- Combination antibiotic therapies
- Novel antibiotic delivery systems
- Antibiotic stewardship strategies
- Probiotic and prebiotic approaches to combat antibiotic resistance
- Ecological and environmental aspects of antibiotic production
Industrial Fermentation Products+Industrial fermentation is a key process in the production of various products. Ongoing research focuses on optimizing fermentation processes, exploring novel substrates, and improving product yields. NTHRYS Biotech Labs directs its research focus towards industrially crucial fermentation products, emphasizing active investigation into their applications for optimizing industrial processes and advancing diverse product development:
- Alcohol (Ethanol)
- Acetic Acid
- Lactic Acid
- Citric Acid
- Butanol
- Amino Acids (e.g., L-glutamate, L-lysine)
- Enzymes (e.g., Amylase, Protease)
- Organic Acids (e.g., Fumaric Acid)
- Polysaccharides (e.g., Xanthan Gum)
- Vitamins (e.g., Biotin)
- Antibiotics (e.g., Penicillin)
- Biopolymers (e.g., Polyhydroxyalkanoates)
- Biosurfactants
- Monosodium Glutamate (MSG)
- Industrial Gases (e.g., Methane, Hydrogen)
- Flavor Compounds
- Fuel Ethanol
- Glycerol
- Industrial Enzymes (e.g., Cellulases, Lipases)
- Microbial Biomass
- Organic Solvents (e.g., Acetone, Butanol)
- Polyols (e.g., Sorbitol)
- Single Cell Proteins
- Specialty Chemicals
- Statins (e.g., Lovastatin)
- Surfactants
- Terpenes
- Vanillin
- Biofuels (e.g., Biodiesel)
- Biopharmaceuticals
- Coenzyme Q10 (Ubiquinone)
- Gamma-Aminobutyric Acid (GABA)
- Isoprenoids
- Neutraceuticals
- Omega-3 Fatty Acids
- Pharmaceutical Intermediates
- Probiotics
- Secondary Metabolites
- Succinic Acid
- Therapeutic Proteins
- Unsaturated Fatty Acids
- Wine and Beer
Biofuels in Industrial Microbiology+Biofuels produced through microbial processes are gaining prominence in the quest for sustainable energy sources. Industrial microbiology plays a crucial role in optimizing microbial strains, fermentation processes, and downstream processing for efficient biofuel production. NTHRYS Biotech Labs prioritizes research on industrially critical biofuels and their precursors, focusing on active exploration to advance sustainable energy solutions and foster innovation in various industrial applications:
- Biodiesel
- Ethanol
- Butanol
- Methane (Biogas)
- Hydrogen
- Algal Biofuels
- Syngas (Synthetic Gas)
- Hydrocarbons
- Isobutanol
- Fatty Acid Methyl Esters (FAME)
- Bioethanol from lignocellulosic biomass
- Advanced Biofuels
- Microbial Electrofuels
- Butyric Acid
- Gaseous Biofuels
- Pyrolysis Oil
- Biomethane
- Biohydrogen from Microorganisms
- Cellulosic Ethanol
- Renewable Diesel
- Biobutanol
- Isoprenoids for Biofuel Production
- Biomass Gasification for Bioenergy
- Lignin-Derived Biofuels
- Microbial Lipids for Biofuel Feedstock
- Waste-to-Energy
- Renewable Jet Fuels
- Biorefinery Processes
- Sustainable Aviation Fuels (SAFs)
- Microbial Oil Production
- Biogenic Methane Production
- Biochemical Conversion of Biomass
- Renewable Natural Gas (RNG)
- Thermochemical Conversion of Biomass
- Biocatalysts for Biofuel Synthesis
- Microbial Fuel Cells
- Photosynthetic Microorganisms for Biofuel Production
- Bioenergy Crops
- Microalgal Biotechnology for Biofuels
- Bioprocess Optimization for Biofuel Production
- Carbon Capture and Utilization in Biofuel Processes
- Biofuel Policy and Sustainability
Microbial Biopolymers in Industrial Microbiology+Microbial biopolymers are essential in various industrial applications, and their production through microbial processes is a key focus of industrial microbiology research. This involves optimizing microbial strains, fermentation conditions, and downstream processing for efficient biopolymer production. NTHRYS Biotech Labs channels its research efforts towards industrially significant microbial biopolymers, emphasizing active investigation into their applications to drive advancements in various industries:
- Polyhydroxyalkanoates (PHAs)
- Exopolysaccharides (EPS)
- Polysaccharides
- Polylactic Acid (PLA)
- Polysaccharide-Protein Complexes
- Polyglucosamines
- Microbial Cellulose
- Alginate
- Chitin and Chitosan
- Xanthan Gum
- Gellan Gum
- Dextran
- Pullulan
- Curdlan
- Levan
- Pullulan
- Hydrogels from Microbial Polymers
- Protein-Based Biopolymers
- Collagen-Like Proteins
- Biopolymer Nanocomposites
- Bacterial Nanocellulose
- Microbial Biopolymers for Drug Delivery
- Biopolymers in Food Industry
- Biopolymer Coatings
- Biopolymer Blends
- Microbial Biopolymer Production from Industrial Waste
- Biodegradable Microbial Polymers
- Biopolymer Characterization and Modification
- Biopolymer Sensors
- Microbial Biopolymer Applications in Agriculture
- Biopolymer-Based Tissue Engineering
- Biopolymers in Personal Care Products
- Biopolymer Composites
- Microbial Polyesters
- Biopolymer Microcapsules
- Biopolymers for Water Treatment
- Biopolymer Additives for Plastics
- Microbial Biopolymer Market Trends
- Regulatory Aspects of Microbial Biopolymers
- Sustainability in Microbial Biopolymer Production
- Biopolymer-Based 3D Printing
- Biopolymer-Based Drug Delivery Systems
- Microbial Biopolymer Engineering
- Biopolymer-Based Packaging
Probiotics in Industrial Microbiology+Probiotics, live microorganisms with health benefits, are a significant focus of industrial microbiology research. This involves the identification, optimization, and application of probiotic strains for various health and industrial purposes. NTHRYS Biotech Labs strategically directs its research towards industrially vital probiotics, emphasizing active exploration of their applications for diverse industrial purposes and health benefits:
- Lactic Acid Bacteria (LAB)
- Bifidobacteria
- Yeast Probiotics
- Spore-Forming Probiotics
- Non-Lactic Acid Bacteria Probiotics
- Probiotic Mixtures
- Psychobiotics
- Probiotics for Gut Health
- Probiotics in Dairy Products
- Probiotics in Functional Foods
- Probiotics in Beverages
- Probiotics in Nutraceuticals
- Probiotics for Animal Feed
- Probiotics for Aquaculture
- Probiotics in Fermented Foods
- Probiotics in Cosmetics
- Probiotics in Pharmaceuticals
- Probiotics in Oral Health
- Probiotics in Women s Health
- Probiotics in Pediatric Health
- Probiotics in Immune Support
- Probiotics for Allergies
- Probiotics and Mental Health
- Probiotics and Cardiovascular Health
- Probiotics and Weight Management
- Probiotics and Diabetes Management
- Probiotics and Inflammatory Bowel Disease
- Probiotics and Irritable Bowel Syndrome
- Probiotics and Antimicrobial Resistance
- Probiotics and Sports Nutrition
- Probiotics and Aging
- Genetically Modified Probiotics
- Probiotic Delivery Systems
- Probiotic Stability and Viability
- Probiotic Interaction with Host Microbiome
- Probiotic Metabolic Engineering
- Regulatory Aspects of Probiotics
- Safety and Quality of Probiotic Products
- Synbiotics (Probiotics with Prebiotics)
- Microbial Consortia as Probiotics
- Probiotic Market Trends
- Sustainable Production of Probiotics
- Probiotics and Public Health
Microbial Pesticides in Industrial Microbiology+Microbial pesticides, derived from microorganisms, play a crucial role in sustainable agriculture and pest management. Ongoing research in industrial microbiology focuses on identifying, optimizing, and applying microbial strains for effective pest control. NTHRYS Biotech Labs directs its research focus towards industrially crucial microbial pesticides, emphasizing active investigation into their diverse applications for effective pest management in various industries:
- Bacillus thuringiensis (Bt) Based Insecticides
- Beauveria bassiana-based Biofungicides
- Metarhizium anisopliae-based Bioinsecticides
- Trichoderma spp. as Biofungicides
- Pseudomonas fluorescens-based Biopesticides
- Nematode-based Biopesticides
- Bacterial Bioherbicides
- Fungal Bioherbicides
- Microbial Larvicides
- Microbial Acaricides
- Microbial Nematicides
- Microbial Viricides
- Microbial Rodenticides
- Microbial Molluscicides
- Microbial Pesticide Mixtures
- Microbial Pesticides for Crop Protection
- Microbial Pesticides for Ornamental Plants
- Microbial Pesticides for Turf Management
- Microbial Pesticides for Forestry
- Microbial Pesticides for Stored Product Protection
- Microbial Pesticides for Vector Control
- Microbial Pesticides for Animal Health
- Microbial Pesticides for Aquatic Environments
- Microbial Pesticides for Public Health
- Microbial Pesticides for Urban Pest Management
- Microbial Pesticides for Post-Harvest Protection
- Microbial Pesticide Formulations
- Microbial Pesticide Delivery Systems
- Microbial Pesticide Resistance Management
- Microbial Pesticides and Integrated Pest Management (IPM)
- Microbial Pesticides and Crop Rotation Strategies
- Microbial Pesticides and Biorational Pest Control
- Microbial Pesticides and Environmental Impact
- Microbial Pesticide Regulation and Registration
- Microbial Pesticide Market Trends
- Microbial Pesticides and Sustainable Agriculture
- Microbial Pesticides and Climate Change Adaptation
- Microbial Pesticides and Global Food Security
- Microbial Pesticides in Developing Countries
Biosurfactants in Industrial Microbiology+Biosurfactants, produced by microorganisms, are valuable in various industrial applications, offering environmentally friendly alternatives to synthetic surfactants. Ongoing research in industrial microbiology focuses on identifying, optimizing, and applying microbial strains for efficient biosurfactant production. NTHRYS Biotech Labs prioritizes research projects on industrially significant biosurfactants to enhance their applications in various industries:
- Rhamnolipids
- Sophorolipids
- Surfactin
- Manosylerythritol Lipids (MELs)
- Lipopeptides
- Glycolipids
- Phospholipids
- Fatty Acids and Esters
- Polymeric Biosurfactants
- Terpenoid Biosurfactants
- Biosurfactant-Metal Interactions
- Biosurfactants in Enhanced Oil Recovery (EOR)
- Biosurfactants in Bioremediation
- Biosurfactants in Agriculture
- Biosurfactants in Food Industry
- Biosurfactants in Cosmetics
- Biosurfactants in Pharmaceutical Industry
- Biosurfactants in Textile Industry
- Biosurfactants in Detergent Formulations
- Biosurfactants in Personal Care Products
- Biosurfactants in Paints and Coatings
- Biosurfactants in Metalworking Fluids
- Biosurfactants in Biomedical Applications
- Biosurfactants in Wastewater Treatment
- Biosurfactant-Enhanced Biodegradation
- Biosurfactant Stability and Compatibility
- Biosurfactant Production Optimization
- Biosurfactant Fermentation Processes
- Biosurfactant Extraction and Purification
- Biosurfactant Characterization Techniques
- Biosurfactant Genetic Engineering
- Biosurfactant Formulation Development
- Biosurfactant Market Trends
- Biosurfactants and Green Chemistry
- Biosurfactants and Biocompatibility
- Biosurfactants and Microbial Ecology
- Biosurfactants and Antimicrobial Properties
- Biosurfactants and Soil Health
- Biosurfactants and Marine Applications
- Biosurfactants and Industrial Biotechnology
Note: NTHRYS currently operates through three registered entities: NTHRYS BIOTECH LABS (NBL), NTHRYS OPC PVT LTD (NOPC), and NTHRYS Project Greenshield (NPGS).