1 / 28

Biotechnology: Human Health

Biotechnology: Human Health. Prof. B. D Lakhchaura. State Biotechnology Programme, Govt. of Uttaranchal Biotech Bahavan, Haldi, U.S. Nagar . Recombinant DNA Technology ushered a revolution in Biotechnology. US Biotech Company “Genetech” cloned Human Insulin gene in E-coli 1978 .

ivory
Télécharger la présentation

Biotechnology: Human Health

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Biotechnology: Human Health Prof. B. D Lakhchaura State Biotechnology Programme, Govt. of Uttaranchal Biotech Bahavan, Haldi, U.S. Nagar

  2. Recombinant DNA Technology ushered a revolution in Biotechnology • US Biotech Company “Genetech” cloned Human Insulin gene in E-coli 1978

  3. Molecular Biotechnology can be exploited for application in Medical Science for the following: 1. Development of rapid and accurate diagnostic methods against infectious and non-infectious ailments. 2. Development of prophylactics and therapeutics for prevention and treatment of the disease

  4. Production of various Recombinant Proteins by Prokaryotic and Eukaryotic cells Recombinant proteins produced by S. cerevisiae expression system

  5. Recombinant Baculo viruses have been used with insect cell lines for producing high yield of recombinant proteins which can be used as diagnostics, prophylactics & therapeutics

  6. Similarly number of mammalian cell lines have been used for producing proteins consisting of multi peptides

  7. Production of molecular diagnostics ELISA a simple but highly sensitive immuno diagnostic assay system

  8. Discovery of Hybridoma technology for producing monoclonal antibody added the much needed specificity dimension to immuno-diagnostic procedures

  9. Few immuno diagnostic procedures using monoclonal antibody for application in Human medicine

  10. Use of nucleic acid hybridization probes as diagnostic agents • Initially radioactive probes were used which required viewing after autoradiography • Now a days non-radioactive probes have been develop for diagnosis of various diseases such as: • Malaria • Legionella pneumopholia • Salmonella typhi • Campilobacter hyointstinalis • Escherichia coli • Trypnosoma ruzi (chagas desies uses PCR for detection for 188 bp DNA)

  11. An example of non-radioactive probe method

  12. Molecular Beacon hybridization

  13. DNA finger printing specially useful for forensic purposes

  14. As all genetic changes not necessarily altered restriction sites PCR/ OLA procedure can be used for detecting genetic changes

  15. Using c-DNA cloning a large number of human proteins have been produced a partial list is given below

  16. Use of Murine monoclonal antibodies as therapeutic agents

  17. A novel way to dissolve arterial blood clots

  18. OKT-3 a murine monoclonal antibody cleared by FDA for use as immuno suppressive agent for patients receiving organ transplant Humanization of the Meurin monoclonal antibodies makes them useful for treatment in Humans. These therapy are specially valuable for treatment of Cancer

  19. Views of Pseudomous exotoxin A conjugate with CD 4 coding sequence creates a potential drug for treatment of HIV

  20. Genetic construction of Pseudomous exotoxin -a conjugate with CD-4 vector

  21. Live attenuated vaccine against Vibrio cholerae

  22. Human Gene Therapy Number of single gene disorders have been selected for gene therapy

  23. Use of vector for gene therapy: a typical illustration

  24. Two forms of Human Gene Therapy 1. Ex-vivo Gene Therapy 2. In-vivo Gene Therapy

  25. Most exciting area of Biotechnology research being perused currently • Major Sources of stem cells • Undifferentiated embryos or single cells from the embryos • 2. Chord Blood • 3. Bone marrow

  26. Applications of Stem Cells • Organ transplant – renewal of organs such as degenerative liver, heart, lungs or blood cells using stem cells • For creating transgenic animal lines for studying human disorders like Cystic fibrosis, Alzheimer's, Parkinson’s diseases etc. • For treatment of brain disorders such as Parkinson’s diseases, Alzheimer's disease or multiple sclerosis or other diseases of brain and spinal cord

  27. Conclusions Global scenario of Biotechnological application in human health in enjoys enormous excitement and worthwhile achievements in areas of • Prophylactic – Vaccines (attenuated whole cell vaccines, peptide vaccines, DNA vaccines) • Diagnostics – molecular diagnostics using immunological techniques and nucleic acid based techniques • Therapeutic agent development – drug designing, drug targeting, gene therapy are becoming applicable in the field As far as India is concerned the research in medical biotechnology remains and limited to certain areas such as development of subunit vaccines, DNA vaccines and diagnostic kits for detection of viral diseases like HIV etc. Medical biotechnology requires a greater focus and more strengthening public and private sources. More investment in R & D can only fetch results which can have global significance.

  28. Thanks

More Related