Dear everyone of biotechnology department of stpious
Here by iam happy to creat a blog for our dept kindly use the bolg for sending your assignments and views.
Here by iam happy to creat a blog for our dept kindly use the bolg for sending your assignments and views.
hi ma'am this is devayani.thanks for creating such nice blog for us.it wll be very use full for us.
ReplyDeleteBiotechnology is always non-polluting and, often, labour intensive. Biotechnology make use of replenishable natural resources and help their conservation. They help, directly or indirectly, in saving energy. The cost of products produced through a biotechnological process is almost always less than that of the same product product produced, say, through a chemical synthetic route.
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ReplyDeleteBIOTECHNOLOGY is that part of science whose advantages are beyond man's thinking
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ReplyDeletebiotechnology seminar topics
ReplyDelete1. Homology Modeling
2. Nanobiotechnology
3. Applications of Polymerase Chain Reaction (PCR)
4. Phylogenetic Analysis
5. Plant Biotechnology
6. Adavcanced Techniques in Molecular Microbiology
7. Gel Electrophoresis (Zymogram)
8. Enzymology
9. Drug Discovery
10. Protein-Protein Interactions
11. Biosafety and IPR issues in biotechnology research
12. Tissue Engineering
13. Computational Genome Sequence Analysis
14. DNA chips
15. Lab-on a chip
16. Micro System Technology in tissue engineering
17. Microfluidistic devices in medical devices
18. Chips for proteomics
19. Body implanted Micro System Technology
20. Micro System Technology in human eyes
21. Latest technology incorporated in ventilator
22. Bio-medical equipment maintenance,
23. Comparative molecular field analysis Artificial intelligence,
24. Molecular Modeling,
25. Genomics and proteomics,
26. Neural networks,
27. Docking and Virtual screening,
28. Hidden markov models,
29. World-wide biologic databases,
30. Isolation of genomic DNA,
31. Protein structure prediction,
32. Protein Folding,
33. Isolation of plasmid,
34. Downstream Processing,
35. Pharmacology,
36. Rational screening,
37. Protein Sequence Analysis,
38. Recombinant DNA Techniques
39. Cellular Neurobiolology
40. Neurophysiology
41. Mathematical Biology
42. Molecular modeling
43. Computer Aided DrugDesign
44. Phylogenetic analysis
45. Genomics
46. Environmental Biotechnology
47. Proteomics
48. Upstream Processing
49. Immunology
Biotechnology is a field of applied biology that involves the use of living organisms and bioprocesses in engineering, technology, medicine and other fields requiring bioproducts. Biotechnology also utilizes these products for manufacturing purpose. Modern use of similar terms includes genetic engineering as well as cell- and tissue culture technologies. The concept encompasses a wide range of procedures (and history) for modifying living organisms according to human purposes — going back to domestication of animals, cultivation of plants, and "improvements" to these through breeding programs that employ artificial selection and hybridization
ReplyDeletecomment on BT Brinjal
ReplyDeleteThe Bt brinjal is a suite of transgenic brinjals (also known as an eggplant or aubergine) created by inserting a crystal gene (Cry1Ac) from the soil bacterium Bacillus thuringiensis into the genome of various brinjal cultivars. The insertion of the gene, along with other genetic elements like promoters, terminators and an antibiotic resistance marker gene into the brinjal plant is accomplished using Agrobacterium-mediated recombination. The Bt brinjal has been developed to give resistance against lepidopteron insects, in particular the Brinjal Fruit and Shoot Borer
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ReplyDeleteDevelopment
ReplyDeleteMahyco developed the DNA construct that contains a modified insecticidal cry1Ac gene obtained from Monsanto and two supporting genes (nptII and aad). The cry1Ac gene is under the transcriptional control of an enhanced Cauliflower mosaic virus 35S (CaMV35S) promoter, which ensures the gene is expressed in all the brinjals tissue throughout its complete life cycle. NptII and aad are selectable marker genes, nptII is used to identify transgenic plants from non-transgenic and aad is used to identify the transformed bacteria used during the development of the construct. Aad contains a bacterial promoter and is not expressed in the Bt Brinjal. The completed construct was inserted into young cotyledons from the brinjal plants using agrobacterium-mediated techniques. Agrobacterium naturally inserts DNA into plants from its Ti plasmid and scientists use this to insert their genes of interest into various plants. The transformed plants were regenerated and analyzed for the presence of the gene through Southern blotting. The plants progeny were also analyzed to identify lines segregating in a Mendelian fashion.[2]
welcome...
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