Exam Details

Subject animal biotechnology
Paper
Exam / Course m.sc. biotechnology
Department
Organization loyola college (autonomous) chennai – 600 034
Position
Exam Date November, 2017
City, State tamil nadu, chennai


Question Paper

1
LOYOLA COLLEGE (AUTONOMOUS), CHENNAI 600 034
M.Sc. DEGREE EXAMINATION BIOTECHNOLOGY
THIRD SEMESTER NOVEMBER 2017
16PBT3MC01 ANIMAL BIOTECHNOLOGY
Date: 01-11-2017 Dept. No. Max. 100 Marks
Time: 09:00-12:00
PART A
Answer ALL the Questions
I. Choose the correct answer x 1 5 Marks)
1. a pioneer in Animal Cell Culture, cultured frog nerve cells by the 'hanging
drop' technique over century ago.
Harrison Carrel Roux Lewis
2. Hoechst staining is commonly employed to detect contamination in animal cell
culture.
bacterial fungal mycoplasma prion
3. Claudia Castillo was transplanted with the first tissue-engineered utilising her own
stem cells.
trachea uterus bladder lung
4. GLUT4 knockout mice were designed as a model system to
Type II Diabetes Alzheimer's Parkinson's Cancer
5. RNAi is a technique to expression of genes.
induce augment enhance inhibit
II. State whether the following are true or false. (5x1=5 Marks)
6. Leibovitz media for animal cell culture was formulated for use in carbon dioxide free systems.
7. Vitrification is a method of slow freezing of cell.
8. Inner mass cells within a blastocyst can become any tissue in the body including a placenta.
9. Tracy is the first transgenic farm mammal to be created.
10. Superovulation is the process of inducing a woman to release more than one egg in a month.
III. Complete the following x 5 Marks)
11. Spinner flasks are used in the scale up of cultures.
12. Trypan blue stains cells blue.
13. Over-expression of Yamanaka factors can induce in adult human somatic cells.
14. a process involving injection of a single sperm directly into an egg.
15. step in assisted reproductive technology where embryos are placed into the uterus of a
female with the intent to establish a pregnancy.
IV. Answer the following within 50 words x 1 5 Marks)
16. Mention any two characteristics of continuous cell line.
17. What is trypsinisation?
18. Stage an advantage of using baculovirus vectors for the production of recombinant proteins.
19. Define pharming.
20. State the objective of oestrous synchronization.
2
PART B
Answer the following each within 500 words. x 8 40 marks)
Draw diagrams wherever necessary
21. Explain enzymatic disaggregation of tissue isolated for primary culture.
OR
Give an account on the commercial scale-up of monolayer cultures.
22. Explain the principle and methodology of cryopreservation.
OR
Describe Filter Well Invasion as a method to study invasiveness of tumour cells.
23. Define pluripotency. Write a note of induced pluripotency and its application.
OR
Outline the ideal characteristics of scaffold materials used in regenerative medicine.
24. Given an account on the cloning strategy employed to clone Dolly the sheep.
OR
Write a note on the application of Knockout Mice in the understanding of diabetes.
25. Explain the steps involved in DNA barcoding of animals.
OR
Describe RAPD and RFLP as techniques for livestock improvement.
PART C
Answer any TWO of the following, each within 1500 words. x 20 40 Marks)
Draw diagrams wherever necessary.
26. Contamination of animal cell cultures is the serious problem encountered in animal cell culture
laboratories. Discuss sources of contamination, methods of detection and prevention of
contamination.
27. Explain any two techniques employed to produce transgenic animals. Add a note on the applications
of transgenic animals.
28. Discuss the John Moore Case with reference to ethical and legal issues in Animal Biotechnology.
29. Describe in detail Invitro Fertilisation and add a note on the challenges encountered with the
technique.



Subjects

  • animal biotechnology
  • bioanalytical techniques
  • biochemistry
  • bioinformatics & research methods
  • bioprocess & pharmaceutical biotechnology
  • cancer biology
  • cell and developmental biology
  • environmental biotechnology
  • fermentation technology
  • functional genomics
  • human genetics
  • immunology
  • lab-i (cell and developmental biology /biochemistry)
  • lab-ii (microbiology /immunology)
  • lab-iv (animal biotechnology / plant biotechnology)
  • life skills training
  • microbiology
  • molecular biology and genetic engineering
  • nanotechnology
  • out reach
  • plant biotechnology
  • principles of food processing
  • project
  • research methodology and bioinformatics
  • summer training programme