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UNIT-5 Protein Engineering: Brief introduction to protein engineering,Use of microbes in industry, Production of enzymes-general considerations, Amylase,Catalase, peroxidase, Lipase Basic principles of genetic engineering

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UNIT-5 6th Sem B.PHARMA PHARMACEUTICAL BIOTECHNOLOGY) Protein Engineering: Brief introduction to protein engineering, Use of microbes in industry, Production of enzymes-general considerations, Amylase, Catalase, peroxidase, Lipase Basic principles of genetic engineering BY- SHYAM BASS

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UNIT V Protein Engineering: ā€¢Brief introduction to protein engineering, ā€¢Use of microbes in industry, ā€¢Production of enzymes-general considerations, Amylase,Catalase, peroxidase, Lipase ā€¢Basic principles of genetic engineering BIOTECHNOLOGY PRESENTED BY : SHYAM BASS LOVELY SCHOOL OF PHARMACEUTICAL SCIENCES B.SC. BIOTECHNOLOGY (HONS.), B.PHARMA
ā€¢ Protein Engineering can be deļ¬ned as the modiļ¬cation of the protein structure with Recombinant DNA Technology or chemical treatments to get a desirable function for the better use in medicine, industry and agriculture. ā€¢ It the manipulation of the structures of proteins so as to produce desired properties, or the synthesis of proteins with particular structures. OBJECTIVES OF PROTEIN ENGINEERING: ā€¢ To develop or designing of peptides(short protein structures) that can bind selectively to target proteins. ā€¢ To produce the enzyme in larger quantity. ā€¢ To produce the compounds superior to the natural ones(synthetic peptides, synthetic drugs, etc) ā€¢ To design the peptide or to modify the protein - with increased substrate speciļ¬city, - with increased stability to temperature, - with increased stability to pH etc. BASIC STEPS OF PROTEIN ENGINEERING : BRIEF INTRODUCTION TO PROTEIN ENGINEERING Isolation of desired gene sequence of that protein Modiļ¬cation in the gene sequence and development of new gene sequence Determination of 3D structures of protein of interest by using x-ray crystallography or NMR Expression of gene into new protein and assess the new or modiļ¬ed protein 1) 2) 3) 4)
BRIEF INTRODUCTION TO PROTEIN ENGINEERING APPLICATIONS OF PROTEIN ENGINEERING: ā€¢ Medical application: Pre-targeted radioimmunotherapy is one of the most prominent examples of protein engineering in the treatment of cancer. Antibodies are modiļ¬ed by protein engineering which is used to target the speciļ¬c antigen and the Development of peptide vaccines are few examples of the role of protein engineering in the medical application. ā€¢ Environmental applications: Protein engineering modify the gene expression regulation of micro-organisms by genetic methods and strategies to eliminate environmental pollutants and to survive in environmental stressed conditions. Many organic pollutants such as phenols, organophosphorus pesticides can be detoxiļ¬ed using enzymatic detoxiļ¬cation. ā€¢ Food industry application: There are enzymes like amylases, proteases, and lipase which are food processing enzymes that have been improved its quality or activity using DNA recombinant technology. Example- Microbial Protease enzymes are produced due to its low cost and high yields, Amylases is used to adjust softness and volume in ļ¬‚our and bread while baking, Lipase is used in stability of dough and Cheese ļ¬‚avor application. ā€¢ Application in Biopolymer production: Protein engineering is used to produce Peptide-based biomaterials such as silk, elastin, etc. ā€¢ Detergent industry: the technique is used to produce enzymes with high activity, high Thermo and pH stability. Example - lipase enzyme used to remove lipid stains and Protease enzyme used to remove protein stains.
BRIEF INTRODUCTION TO PROTEIN ENGINEERING METHODS OF PROTEIN ENGINEERING: Basically the following are two methods of protein engineering: CHEMICAL MODIFICATION OF ENZYMES Mutagenesis: ā€¢ It is the process of generation of mutation in the gene to develop a new or modiļ¬ed protein molecule. ā€¢ Example- Anthranilate Synthetase enzyme in E.coli is sensitive to tryptophan inhibitor but after mutation, the Anthranilate Synthetase enzyme in E.coli becomes insensitive to tryptophan inhibitor and helps in continuous synthesis of tryptophan. ā€¢ According to the central dogma of life, the DNA is translated to form RNA and RNA is the transcript to form a protein. ā€¢ Thus if the change occurs in the DNA or gene structure, the protein formed can be automatically changed. ā€¢ Therefore in the process of gene modiļ¬cation, there are two approaches: ā€¢ 1=> Invitro mutagenesis using synthetic oligonucleotides ā€¢ 2=> De novo synthesis of the complete modiļ¬ed gene. MUTAGENESIS
BRIEF INTRODUCTION TO PROTEIN ENGINEERING Fig 1.1 Oligonucleotide-directed mutagenesis 1=> Invitro mutagenesis using synthetic oligonucleotides ā€¢ Synthetic oligonucleotides (small DNA/RNA fragments) are used for in-vitro (outside the body) mutagenesis. ā€¢ A small Oligonucleotide primer is synthesized with the desired modiļ¬cation. ā€¢ Allow the hybridization of oligonucleotide primer at the appropriate site of the parent gene. (ļ¬g.1.1) ā€¢ Development of clone gene and replicate by using the DNA polymerase enzyme. (Fig 1.1) Allow the expression of the gene and assess the activity. 2=> De novo synthesis of the complete modiļ¬ed gene. ā€¢ De novo refers to the synthesis of complex molecules from simpler molecules. ā€¢ Thus, in the same way, some cases the genes are being designed or a complete gene is the arrangement of several Oligomers ( a molecular complex arranged in several units ) like genes of insulin +somatostatin+interferon are ligated in correct order to produce a complete gene. (ļ¬g 1.2) ā€¢ Therefore the sequence of synthetic genes is arranged in a particular fashion to get a desired functional protein. (ļ¬g 1.2) Oligomers Biocompatible Oligomers genes Fig 1.2 De novo synthesis of complex modiļ¬ed gene
BRIEF INTRODUCTION TO PROTEIN ENGINEERING Chemical Modiļ¬cation of enzymes: ā€¢ It is the modiļ¬cation of enzyme or protein by modifying the gene structure at a post-translational stage of the central dogma. Also called a post-translational modiļ¬cation. ā€¢ Here the introduction of a new chemical group before translation results in the formation of modiļ¬ed enzymes. ā€¢ For example- Polyethylene glycol (PEG) modiļ¬cation of enzyme L-asparaginase i.e PEG-L-asparaginase formation becomes more eļ¬€ective than its native enzyme(L-asparaginase). ā€¢ L-asparaginase has an anti-tumor eļ¬€ect but toxic while modiļ¬ed form improves biostability and non-allergic. ā€¢ Here the gene sequence is isolated from the L-asparaginase enzyme and traced with PEG to give mutant gene thus gene is expressed to give the PEG-L-asparaginase enzyme conjugate.
USE OF MICROBES IN INDUSTRY S.no. Micro-organism Enzyme/ product Uses 1 Bacillus licheniformis,Bacillus amyloliquefaciens Amylase Food, fermentation and textile industry 2 Pseudomonas species, Staphylococcus species Lipase In preparation of cheese, detergents, leather etc 3 Aspergillus niger, Bacillus subtiles Peroxydase Waste treatment, in ELISA test 4 E.coli, Nocardia species Catalase In treatment of milk, to remove traces of H2O2 from clothes 5 Aspergillus niger, Bacillus subtilis Protease Photographic industry 6 Penicillium notatum Penicillin Antibiotic
USE OF MICROBES IN INDUSTRY ā€¢ Bacteria, Fungi, Yeast, etc. are used commonly in the production of various fermented products like wine, yogurt, etc. ā€¢ Production of food and dairy products. Cheese, yogurt, alcoholic beverages, coļ¬€ee, tea, vitamins, etc are some of the examples. ā€¢ Production of vaccines is another important application of industrial microbiology. ā€¢ Antibiotics are another important product produced by using microorganisms. ā€¢ Production of antibodies and enzymes from important industrial micro-organisms including fungus and bacteria. ā€¢ Production of biofuels from algae and related organisms ā€¢ The production of biodiesel from biomass using micro-algae. ā€¢ The production of bioethanol from starch fermentation of yeast species. Use of microbes In industry Fig 1.3 Use of microbes In industry
PRODUCTION OF ENZYMES AND GENERAL CONSIDERATIONS AMYLASE Ī±-AMYLASE Ī²-AMYLASE Ī³ -AMYLASE ā€¢ Amylase catalyses the the Hydrolysis of starch into sugars. ā€¢ Following are the types of Amylase enzyme. ā€¢ Also called as 1,4-Ī±-D-glucan glucanohydrolase. ā€¢ Breaks Amylose to Maltose & Amylopectin to Dextrin and Glucose. ā€¢ Source: Human saliva, Pancreas, Plants, Fungi like Ascomycetes,Aspergillus niger, Bacteria like Bacillus Licheneformis , Bacterium subtilis etc. ā€¢ He enzyme is active at pH 6.7-7.0 ā€¢ Also called as 1,4-Ī±-D-glucan Maltohydrolase. ā€¢ During ripening of fruit it breaks starch into Maltose, which provide sweet ļ¬‚avour to fruit. ā€¢ Source: Plants , Bacteria and fungi. ā€¢ The enzyme is active at optimum pH 4-5. ā€¢ Ī± and Ī² amylase are mostly use in brewing industry for the preparation of beer. ā€¢ Also called as 1,4-Ī± glucosidase ā€¢ It breaks the amylose to Amylopectin. ā€¢ He enzyme is active at optimum pH 3.
PRODUCTION OF ENZYMES AND GENERAL CONSIDERATIONS AMYLASE Production process of Amylase enzyme is as follows: ā€¢ MEDIUM: Starch+ Corn steep liquor + Buļ¬€ering agent ā€¢ INOCULUM: Bacillus licheneformis Inoculum+Fermentation medium Incubate at 30-40ā„ƒ Incubation causes proper growth of Inoculum At 30-40ā„ƒ Allowed fermentation for 100hours This causes continuous fermentation of Amylase Filetration Discard the residue Filtrate- Precipitation with Acetone/ Alcohol/ Ammonium Sulphate Wash the precipitate and dry the content The application of Amylase are: ā€¢ Used in liquefaction of Starch. ā€¢ Use in Brewing industry. ā€¢ Production of bread. ā€¢ Production of candy of desired softness etc.
PRODUCTION OF ENZYMES AND GENERAL CONSIDERATIONS CATALASE ā€¢ It protects the cell from oxidative damage. ā€¢ One molecule of Catalase can convert 40,000 molecules of H2O2(Hydrogen Peroxide) to water and oxygen. ā€¢ Following are the types of Catalase enzyme. Heme Catalase Manganese Catalase Peroxidase Catalase ā€¢ The enzyme along with iron. ā€¢ The enzyme along with manganese. ā€¢ The enzyme found in peroxisomes of cell , neutralises the toxicity of H2O2 . ā€¢ Catalase is Tetrameric enzyme and is present in the cells of all aerobic organisms. ā€¢ Source:Catalase is produced mainly by extraction from bovine liver and, in recent years , from Aspergillus Niger , Micrococcus luteus , E.coli, Nocardia species etc. ā€¢ Sweet potato is a Good source of Catalase. ā€¢ The Applications Catalase enzyme are: ā€¢ H2O2 is used in textile industry fro Bleaching of clothes , Catalase enzyme is used to remove traces of H2O2 from clothes. ā€¢ Catalase is used for treatment of milk to remove H2O2 before cheese production. ā€¢ Used to degrade from industrial eļ¬„uent.
PRODUCTION OF ENZYMES AND GENERAL CONSIDERATIONS CATALASE Production process of Catalase enzyme is as follows: ā€¢ MEDIUM: Sucrose/Lactose/Fructose + Peptone/Beef extract + Ferrous sulphate/ Ammonium sulphate. ā€¢ STOCK SOLUTION: Nutrient broth+E.coli kept for 24hours at 30ā„ƒ. ā€¢ INOCULUM: E.coli. Fermentation medium + Inoculum Kept at 37 ā„ƒ for 24hours And centrifuged at 12000 rpm at 4ā„ƒ for 10min. SupernatantDiscard the residue Treated with Ammonium Sulphate Precipitates are washed , dried and Obtained the product.
PRODUCTION OF ENZYMES AND GENERAL CONSIDERATIONS PEROXIDASE ā€¢ Peroxidase are the group of enzymes that catalyses Oxidation-Reduction reactions. ā€¢ It is also called as Oxidoreductase. ā€¢ Peroxidase ise H2O2 as electron acceptor for catalysing diļ¬€erent oxidative reaction. ā€¢ Source: Fungi- Aspergillus niger , Bacteria- Bacillus subtilis. Production process of Catalase enzyme is as follows: 1st method ā€¢ MEDIUM: Glucose +yeast extract+Ammonium Nitrate + Magnesium sulphate +Dipotassium phosphate ā€¢ INOCULUM: Aspergillus niger ā€¢ STOCK: Stock culture is prepared by inoculating A.niger on potato dextrose agar slants at 4ā„ƒ for 24hours. Fermentation medium + Inoculum Incubate at 22dgree celcius on a rotatory shaker at 160 rpm For 7 days followed by Filterartion Discard the residue Filterate Centrifuge the ļ¬ltrate at 500rpm for 15min at 4ā„ƒ Discard the pellets Supernatant Added Ammonium sulphate Collected the ppt , washed , dried and collected the product
PRODUCTION OF ENZYMES AND GENERAL CONSIDERATIONS PEROXIDASE Production process of Catalase enzyme is as follows: 2nd method ā€¢ MEDIUM: Glucose +yeast extract+ Dipotassium Hydrogen phosphate ā€¢ INOCULUM: Bacillus subtilis Fermentation medium + Inoculum 37 ā„ƒ on a rotatory shaker incubator for 48 hours followed by Centrifugation Discard the pellets Supernatant Added Ammonium sulphate Collected the ppt , washed , dried and collected the product Centrifuge the fermentation medium at 500 rpm for 10min The applications of Peroxidase are: ā€¢ Mostly use for treatment of waste material ā€¢ Used in ELISA for detection of Antigen-Antibody (Ag-Ab) Reaction.
PRODUCTION OF ENZYMES AND GENERAL CONSIDERATIONS LIPASE Lipase is also called as Glycerol ester hydrolase. Lipase converts fat to mono/di - glycerides and fatty acids Source: Fungi: Aspergillus species, Penicillium species & Bacteria- Pseudomonas species, Staphylococcus species. Production process of Lipase enzyme is as follows: ā€¢ MEDIUM: Peptone +yeast extract+ olive oil +Dipotassium Hydrogen phosphate+ Manganese chloride + Ammonium sulphate + Calcium chloride ā€¢ INOCULUM: Pseudomonas aeruginosa ā€¢ pH maintained at 7.2 Fermentation medium + Inoculum Incubate at 35ā„ƒ with constant shaking at 125 rpm for 3days followed by Centrifugation Discard the residue at bottom Supernatant ļ¬‚uid Added Ammonium sulphate Collected the ppt , washed , dried and collected the product Centrifugation at 10,000 at 4ā„ƒfor 20min The applications of Lipase are: ā€¢ Used in dairy preparation like cheese , butter etc. ā€¢ Used in preparation of detergents to remove greasy stain. ā€¢ Also used in leather industry to clean leather.
BASIC PRINCIPLE OF GENETIC ENGINEERING ā€¢ Genetic Engineering involves manipulation of genetic material , this is alternately called Recombinant DNA technology or Gene Cloning. ā€¢ Manipulation or Alteration of gene ā€¢ Artiļ¬cial cutting a piece of DNA from one organism and going this piece of DNA into DNA of another organism. ā€¢ The basic principles are as follows: Fig 1.4 The principles of genetic engineering. A bacterial cell receives a human gene so it makes a human protein- The Hormone Insulin 1) DNA fragment of interest is obtained by cleaving chromosomes by Restriction endonuclease. 2) Cloning vector is cleaved with Restriction endonuclease. 3) Fragments are ligated to the prepared cloning vector. 4) Recombinant vector DNA is introduced into the host cell 5) Propagation (cloning) produces many copies of recombinant DNA 6) The gene is extracted and harvested the product.
ā€¢ https://www.slideshare.net/AkshayParmar22/application-of-protein-engineering ā€¢ https://nuclineers.com/microbes-used-industrial-biotechnology/ ā€¢ https://www.hindawi.com/journals/er/2011/615803/ ā€¢ https://www.biotecharticles.com/Biotech-Research-Article/Basic-Principles-of-Genetic- Engineering-827.html ā€¢ https://www.tandfonline.com/doi/abs/10.3109/03639048509055598?journalCode=iddi20 REFERENCES
THANK YOU PRESENTED BY : SHYAM BASS LOVELY SCHOOL OF PHARMACEUTICAL SCIENCES B.SC. BIOTECHNOLOGY (HONS.), B.PHARMA

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UNIT-5 Protein Engineering: Brief introduction to protein engineering,Use of microbes in industry, Production of enzymes-general considerations, Amylase,Catalase, peroxidase, Lipase Basic principles of genetic engineering

  • 1. UNIT V Protein Engineering: ā€¢Brief introduction to protein engineering, ā€¢Use of microbes in industry, ā€¢Production of enzymes-general considerations, Amylase,Catalase, peroxidase, Lipase ā€¢Basic principles of genetic engineering BIOTECHNOLOGY PRESENTED BY : SHYAM BASS LOVELY SCHOOL OF PHARMACEUTICAL SCIENCES B.SC. BIOTECHNOLOGY (HONS.), B.PHARMA
  • 2. ā€¢ Protein Engineering can be deļ¬ned as the modiļ¬cation of the protein structure with Recombinant DNA Technology or chemical treatments to get a desirable function for the better use in medicine, industry and agriculture. ā€¢ It the manipulation of the structures of proteins so as to produce desired properties, or the synthesis of proteins with particular structures. OBJECTIVES OF PROTEIN ENGINEERING: ā€¢ To develop or designing of peptides(short protein structures) that can bind selectively to target proteins. ā€¢ To produce the enzyme in larger quantity. ā€¢ To produce the compounds superior to the natural ones(synthetic peptides, synthetic drugs, etc) ā€¢ To design the peptide or to modify the protein - with increased substrate speciļ¬city, - with increased stability to temperature, - with increased stability to pH etc. BASIC STEPS OF PROTEIN ENGINEERING : BRIEF INTRODUCTION TO PROTEIN ENGINEERING Isolation of desired gene sequence of that protein Modiļ¬cation in the gene sequence and development of new gene sequence Determination of 3D structures of protein of interest by using x-ray crystallography or NMR Expression of gene into new protein and assess the new or modiļ¬ed protein 1) 2) 3) 4)
  • 3. BRIEF INTRODUCTION TO PROTEIN ENGINEERING APPLICATIONS OF PROTEIN ENGINEERING: ā€¢ Medical application: Pre-targeted radioimmunotherapy is one of the most prominent examples of protein engineering in the treatment of cancer. Antibodies are modiļ¬ed by protein engineering which is used to target the speciļ¬c antigen and the Development of peptide vaccines are few examples of the role of protein engineering in the medical application. ā€¢ Environmental applications: Protein engineering modify the gene expression regulation of micro-organisms by genetic methods and strategies to eliminate environmental pollutants and to survive in environmental stressed conditions. Many organic pollutants such as phenols, organophosphorus pesticides can be detoxiļ¬ed using enzymatic detoxiļ¬cation. ā€¢ Food industry application: There are enzymes like amylases, proteases, and lipase which are food processing enzymes that have been improved its quality or activity using DNA recombinant technology. Example- Microbial Protease enzymes are produced due to its low cost and high yields, Amylases is used to adjust softness and volume in ļ¬‚our and bread while baking, Lipase is used in stability of dough and Cheese ļ¬‚avor application. ā€¢ Application in Biopolymer production: Protein engineering is used to produce Peptide-based biomaterials such as silk, elastin, etc. ā€¢ Detergent industry: the technique is used to produce enzymes with high activity, high Thermo and pH stability. Example - lipase enzyme used to remove lipid stains and Protease enzyme used to remove protein stains.
  • 4. BRIEF INTRODUCTION TO PROTEIN ENGINEERING METHODS OF PROTEIN ENGINEERING: Basically the following are two methods of protein engineering: CHEMICAL MODIFICATION OF ENZYMES Mutagenesis: ā€¢ It is the process of generation of mutation in the gene to develop a new or modiļ¬ed protein molecule. ā€¢ Example- Anthranilate Synthetase enzyme in E.coli is sensitive to tryptophan inhibitor but after mutation, the Anthranilate Synthetase enzyme in E.coli becomes insensitive to tryptophan inhibitor and helps in continuous synthesis of tryptophan. ā€¢ According to the central dogma of life, the DNA is translated to form RNA and RNA is the transcript to form a protein. ā€¢ Thus if the change occurs in the DNA or gene structure, the protein formed can be automatically changed. ā€¢ Therefore in the process of gene modiļ¬cation, there are two approaches: ā€¢ 1=> Invitro mutagenesis using synthetic oligonucleotides ā€¢ 2=> De novo synthesis of the complete modiļ¬ed gene. MUTAGENESIS
  • 5. BRIEF INTRODUCTION TO PROTEIN ENGINEERING Fig 1.1 Oligonucleotide-directed mutagenesis 1=> Invitro mutagenesis using synthetic oligonucleotides ā€¢ Synthetic oligonucleotides (small DNA/RNA fragments) are used for in-vitro (outside the body) mutagenesis. ā€¢ A small Oligonucleotide primer is synthesized with the desired modiļ¬cation. ā€¢ Allow the hybridization of oligonucleotide primer at the appropriate site of the parent gene. (ļ¬g.1.1) ā€¢ Development of clone gene and replicate by using the DNA polymerase enzyme. (Fig 1.1) Allow the expression of the gene and assess the activity. 2=> De novo synthesis of the complete modiļ¬ed gene. ā€¢ De novo refers to the synthesis of complex molecules from simpler molecules. ā€¢ Thus, in the same way, some cases the genes are being designed or a complete gene is the arrangement of several Oligomers ( a molecular complex arranged in several units ) like genes of insulin +somatostatin+interferon are ligated in correct order to produce a complete gene. (ļ¬g 1.2) ā€¢ Therefore the sequence of synthetic genes is arranged in a particular fashion to get a desired functional protein. (ļ¬g 1.2) Oligomers Biocompatible Oligomers genes Fig 1.2 De novo synthesis of complex modiļ¬ed gene
  • 6. BRIEF INTRODUCTION TO PROTEIN ENGINEERING Chemical Modiļ¬cation of enzymes: ā€¢ It is the modiļ¬cation of enzyme or protein by modifying the gene structure at a post-translational stage of the central dogma. Also called a post-translational modiļ¬cation. ā€¢ Here the introduction of a new chemical group before translation results in the formation of modiļ¬ed enzymes. ā€¢ For example- Polyethylene glycol (PEG) modiļ¬cation of enzyme L-asparaginase i.e PEG-L-asparaginase formation becomes more eļ¬€ective than its native enzyme(L-asparaginase). ā€¢ L-asparaginase has an anti-tumor eļ¬€ect but toxic while modiļ¬ed form improves biostability and non-allergic. ā€¢ Here the gene sequence is isolated from the L-asparaginase enzyme and traced with PEG to give mutant gene thus gene is expressed to give the PEG-L-asparaginase enzyme conjugate.
  • 7. USE OF MICROBES IN INDUSTRY S.no. Micro-organism Enzyme/ product Uses 1 Bacillus licheniformis,Bacillus amyloliquefaciens Amylase Food, fermentation and textile industry 2 Pseudomonas species, Staphylococcus species Lipase In preparation of cheese, detergents, leather etc 3 Aspergillus niger, Bacillus subtiles Peroxydase Waste treatment, in ELISA test 4 E.coli, Nocardia species Catalase In treatment of milk, to remove traces of H2O2 from clothes 5 Aspergillus niger, Bacillus subtilis Protease Photographic industry 6 Penicillium notatum Penicillin Antibiotic
  • 8. USE OF MICROBES IN INDUSTRY ā€¢ Bacteria, Fungi, Yeast, etc. are used commonly in the production of various fermented products like wine, yogurt, etc. ā€¢ Production of food and dairy products. Cheese, yogurt, alcoholic beverages, coļ¬€ee, tea, vitamins, etc are some of the examples. ā€¢ Production of vaccines is another important application of industrial microbiology. ā€¢ Antibiotics are another important product produced by using microorganisms. ā€¢ Production of antibodies and enzymes from important industrial micro-organisms including fungus and bacteria. ā€¢ Production of biofuels from algae and related organisms ā€¢ The production of biodiesel from biomass using micro-algae. ā€¢ The production of bioethanol from starch fermentation of yeast species. Use of microbes In industry Fig 1.3 Use of microbes In industry
  • 9. PRODUCTION OF ENZYMES AND GENERAL CONSIDERATIONS AMYLASE Ī±-AMYLASE Ī²-AMYLASE Ī³ -AMYLASE ā€¢ Amylase catalyses the the Hydrolysis of starch into sugars. ā€¢ Following are the types of Amylase enzyme. ā€¢ Also called as 1,4-Ī±-D-glucan glucanohydrolase. ā€¢ Breaks Amylose to Maltose & Amylopectin to Dextrin and Glucose. ā€¢ Source: Human saliva, Pancreas, Plants, Fungi like Ascomycetes,Aspergillus niger, Bacteria like Bacillus Licheneformis , Bacterium subtilis etc. ā€¢ He enzyme is active at pH 6.7-7.0 ā€¢ Also called as 1,4-Ī±-D-glucan Maltohydrolase. ā€¢ During ripening of fruit it breaks starch into Maltose, which provide sweet ļ¬‚avour to fruit. ā€¢ Source: Plants , Bacteria and fungi. ā€¢ The enzyme is active at optimum pH 4-5. ā€¢ Ī± and Ī² amylase are mostly use in brewing industry for the preparation of beer. ā€¢ Also called as 1,4-Ī± glucosidase ā€¢ It breaks the amylose to Amylopectin. ā€¢ He enzyme is active at optimum pH 3.
  • 10. PRODUCTION OF ENZYMES AND GENERAL CONSIDERATIONS AMYLASE Production process of Amylase enzyme is as follows: ā€¢ MEDIUM: Starch+ Corn steep liquor + Buļ¬€ering agent ā€¢ INOCULUM: Bacillus licheneformis Inoculum+Fermentation medium Incubate at 30-40ā„ƒ Incubation causes proper growth of Inoculum At 30-40ā„ƒ Allowed fermentation for 100hours This causes continuous fermentation of Amylase Filetration Discard the residue Filtrate- Precipitation with Acetone/ Alcohol/ Ammonium Sulphate Wash the precipitate and dry the content The application of Amylase are: ā€¢ Used in liquefaction of Starch. ā€¢ Use in Brewing industry. ā€¢ Production of bread. ā€¢ Production of candy of desired softness etc.
  • 11. PRODUCTION OF ENZYMES AND GENERAL CONSIDERATIONS CATALASE ā€¢ It protects the cell from oxidative damage. ā€¢ One molecule of Catalase can convert 40,000 molecules of H2O2(Hydrogen Peroxide) to water and oxygen. ā€¢ Following are the types of Catalase enzyme. Heme Catalase Manganese Catalase Peroxidase Catalase ā€¢ The enzyme along with iron. ā€¢ The enzyme along with manganese. ā€¢ The enzyme found in peroxisomes of cell , neutralises the toxicity of H2O2 . ā€¢ Catalase is Tetrameric enzyme and is present in the cells of all aerobic organisms. ā€¢ Source:Catalase is produced mainly by extraction from bovine liver and, in recent years , from Aspergillus Niger , Micrococcus luteus , E.coli, Nocardia species etc. ā€¢ Sweet potato is a Good source of Catalase. ā€¢ The Applications Catalase enzyme are: ā€¢ H2O2 is used in textile industry fro Bleaching of clothes , Catalase enzyme is used to remove traces of H2O2 from clothes. ā€¢ Catalase is used for treatment of milk to remove H2O2 before cheese production. ā€¢ Used to degrade from industrial eļ¬„uent.
  • 12. PRODUCTION OF ENZYMES AND GENERAL CONSIDERATIONS CATALASE Production process of Catalase enzyme is as follows: ā€¢ MEDIUM: Sucrose/Lactose/Fructose + Peptone/Beef extract + Ferrous sulphate/ Ammonium sulphate. ā€¢ STOCK SOLUTION: Nutrient broth+E.coli kept for 24hours at 30ā„ƒ. ā€¢ INOCULUM: E.coli. Fermentation medium + Inoculum Kept at 37 ā„ƒ for 24hours And centrifuged at 12000 rpm at 4ā„ƒ for 10min. SupernatantDiscard the residue Treated with Ammonium Sulphate Precipitates are washed , dried and Obtained the product.
  • 13. PRODUCTION OF ENZYMES AND GENERAL CONSIDERATIONS PEROXIDASE ā€¢ Peroxidase are the group of enzymes that catalyses Oxidation-Reduction reactions. ā€¢ It is also called as Oxidoreductase. ā€¢ Peroxidase ise H2O2 as electron acceptor for catalysing diļ¬€erent oxidative reaction. ā€¢ Source: Fungi- Aspergillus niger , Bacteria- Bacillus subtilis. Production process of Catalase enzyme is as follows: 1st method ā€¢ MEDIUM: Glucose +yeast extract+Ammonium Nitrate + Magnesium sulphate +Dipotassium phosphate ā€¢ INOCULUM: Aspergillus niger ā€¢ STOCK: Stock culture is prepared by inoculating A.niger on potato dextrose agar slants at 4ā„ƒ for 24hours. Fermentation medium + Inoculum Incubate at 22dgree celcius on a rotatory shaker at 160 rpm For 7 days followed by Filterartion Discard the residue Filterate Centrifuge the ļ¬ltrate at 500rpm for 15min at 4ā„ƒ Discard the pellets Supernatant Added Ammonium sulphate Collected the ppt , washed , dried and collected the product
  • 14. PRODUCTION OF ENZYMES AND GENERAL CONSIDERATIONS PEROXIDASE Production process of Catalase enzyme is as follows: 2nd method ā€¢ MEDIUM: Glucose +yeast extract+ Dipotassium Hydrogen phosphate ā€¢ INOCULUM: Bacillus subtilis Fermentation medium + Inoculum 37 ā„ƒ on a rotatory shaker incubator for 48 hours followed by Centrifugation Discard the pellets Supernatant Added Ammonium sulphate Collected the ppt , washed , dried and collected the product Centrifuge the fermentation medium at 500 rpm for 10min The applications of Peroxidase are: ā€¢ Mostly use for treatment of waste material ā€¢ Used in ELISA for detection of Antigen-Antibody (Ag-Ab) Reaction.
  • 15. PRODUCTION OF ENZYMES AND GENERAL CONSIDERATIONS LIPASE Lipase is also called as Glycerol ester hydrolase. Lipase converts fat to mono/di - glycerides and fatty acids Source: Fungi: Aspergillus species, Penicillium species & Bacteria- Pseudomonas species, Staphylococcus species. Production process of Lipase enzyme is as follows: ā€¢ MEDIUM: Peptone +yeast extract+ olive oil +Dipotassium Hydrogen phosphate+ Manganese chloride + Ammonium sulphate + Calcium chloride ā€¢ INOCULUM: Pseudomonas aeruginosa ā€¢ pH maintained at 7.2 Fermentation medium + Inoculum Incubate at 35ā„ƒ with constant shaking at 125 rpm for 3days followed by Centrifugation Discard the residue at bottom Supernatant ļ¬‚uid Added Ammonium sulphate Collected the ppt , washed , dried and collected the product Centrifugation at 10,000 at 4ā„ƒfor 20min The applications of Lipase are: ā€¢ Used in dairy preparation like cheese , butter etc. ā€¢ Used in preparation of detergents to remove greasy stain. ā€¢ Also used in leather industry to clean leather.
  • 16. BASIC PRINCIPLE OF GENETIC ENGINEERING ā€¢ Genetic Engineering involves manipulation of genetic material , this is alternately called Recombinant DNA technology or Gene Cloning. ā€¢ Manipulation or Alteration of gene ā€¢ Artiļ¬cial cutting a piece of DNA from one organism and going this piece of DNA into DNA of another organism. ā€¢ The basic principles are as follows: Fig 1.4 The principles of genetic engineering. A bacterial cell receives a human gene so it makes a human protein- The Hormone Insulin 1) DNA fragment of interest is obtained by cleaving chromosomes by Restriction endonuclease. 2) Cloning vector is cleaved with Restriction endonuclease. 3) Fragments are ligated to the prepared cloning vector. 4) Recombinant vector DNA is introduced into the host cell 5) Propagation (cloning) produces many copies of recombinant DNA 6) The gene is extracted and harvested the product.
  • 17. ā€¢ https://www.slideshare.net/AkshayParmar22/application-of-protein-engineering ā€¢ https://nuclineers.com/microbes-used-industrial-biotechnology/ ā€¢ https://www.hindawi.com/journals/er/2011/615803/ ā€¢ https://www.biotecharticles.com/Biotech-Research-Article/Basic-Principles-of-Genetic- Engineering-827.html ā€¢ https://www.tandfonline.com/doi/abs/10.3109/03639048509055598?journalCode=iddi20 REFERENCES
  • 18. THANK YOU PRESENTED BY : SHYAM BASS LOVELY SCHOOL OF PHARMACEUTICAL SCIENCES B.SC. BIOTECHNOLOGY (HONS.), B.PHARMA