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Biotechnology — MCQs Biology

1. Biotechnology is primarily the use of:

(A) Only chemical reactions


(B) Microorganisms, cells, or biological systems for industrial and medical applications


(C) Only plant breeding


(D) Physics in agriculture




2. Recombinant DNA technology involves:

(A) Polymerizing glucose


(B) Using RNA to synthesize proteins


(C) Extracting lipids from cells


(D) Combining DNA from two different sources




3. Plasmids are commonly used in biotechnology as:

(A) Enzymes


(B) Vectors for gene cloning


(C) Substrates


(D) Nucleotides




4. A vector in genetic engineering is:

(A) A molecule used to transfer foreign DNA into a host cell


(B) A type of enzyme


(C) A carbohydrate


(D) A protein




5. Restriction enzymes function to:

(A) Synthesize RNA


(B) Cut DNA at specific sequences


(C) Translate proteins


(D) Replicate plasmids only




6. Ligase is used to:

(A) Join DNA fragments


(B) Cut DNA


(C) Transcribe RNA


(D) Denature proteins




7. PCR (Polymerase Chain Reaction) is used for:

(A) Amplifying DNA sequences


(B) Sequencing RNA


(C) Protein synthesis


(D) Glucose metabolism




8. The enzyme used in PCR to synthesize DNA is:

(A) RNA polymerase


(B) DNA polymerase


(C) Ligase


(D) Restriction enzyme




9. Taq polymerase is commonly used in PCR because:

(A) It is heat stable


(B) It synthesizes RNA


(C) It cleaves DNA


(D) It inhibits DNA replication




10. Gel electrophoresis is used to:

(A) Amplify DNA


(B) Separate DNA, RNA, or proteins based on size and charge


(C) Transcribe RNA


(D) Ligate DNA fragments




11. Southern blotting is used to detect:

(A) Lipids


(B) RNA sequences


(C) Proteins


(D) DNA sequences




12. Northern blotting is used to detect:

(A) Proteins


(B) DNA sequences


(C) RNA sequences


(D) Carbohydrates




13. Western blotting is used to detect:

(A) Lipids


(B) DNA


(C) RNA


(D) Proteins




14. cDNA is synthesized from:

(A) RNA using reverse transcriptase


(B) DNA directly


(C) Protein


(D) Lipid




15. Gene cloning involves:

(A) Degrading RNA


(B) Producing identical copies of a gene


(C) Translating proteins


(D) Sequencing DNA only




16. Transgenic organisms are:

(A) Organisms in natural state


(B) Organisms with mutations only


(C) Organisms without DNA


(D) Organisms that contain foreign genes




17. Bt cotton is an example of:

(A) Microbial fermentation product


(B) Traditional hybrid


(C) RNAi therapy


(D) Genetically modified crop expressing insecticidal protein




18. Stem cells in biotechnology are used for:

(A) Only fermentation


(B) Only food production


(C) Regenerative medicine and tissue engineering


(D) DNA sequencing




19. CRISPR-Cas9 is used for:

(A) Protein purification


(B) Genome editing


(C) DNA extraction


(D) RNA transcription




20. Gene therapy involves:

(A) Removing all DNA from cells


(B) Introducing normal genes into patients to correct genetic disorders


(C) Producing insulin in bacteria


(D) Cloning organisms only




21. Recombinant insulin is produced using:

(A) Mammalian cells only


(B) E. coli or yeast as host cells


(C) Plants only


(D) Virus vectors only




22. Human growth hormone (HGH) can be produced by:

(A) Recombinant DNA technology in bacterial systems


(B) Extracting from human pituitary glands only


(C) Chemical synthesis only


(D) Fermentation of fungi




23. Monoclonal antibodies are produced using:

(A) Hybridoma technology


(B) PCR


(C) Restriction enzymes


(D) CRISPR




24. Bioreactors are used for:

(A) DNA sequencing


(B) Controlled microbial fermentation and production


(C) Gene editing


(D) Protein denaturation




25. Enzyme immobilization is important for:

(A) Repeated use and stability of enzymes in industrial processes


(B) Denaturing enzymes


(C) Sequencing DNA


(D) RNA synthesis




26. Microbial fermentation is used to produce:

(A) DNA only


(B) Alcohol, antibiotics, organic acids, enzymes


(C) RNA only


(D) Lipids only




27. Hybridoma cells are formed by:

(A) Fusing two bacteria


(B) Fusing two stem cells


(C) Fusing a B-cell with a myeloma cell


(D) Fusing plant cells




28. The polymerase used in PCR must be:

(A) Sensitive to heat


(B) Thermostable


(C) Only RNA polymerase


(D) Ligase




29. DNA sequencing can be performed using:

(A) Sanger method


(B) Both A and B


(C) Next-generation sequencing


(D) PCR only




30. Gene silencing can be achieved by:

(A) Restriction enzymes


(B) DNA ligase


(C) RNA interference (RNAi)


(D) CRISPR only




31. Cloning of Dolly the sheep involved:

(A) RNA interference


(B) PCR


(C) Hybridoma formation


(D) Somatic cell nuclear transfer




32. Golden rice is genetically modified to produce:

(A) Insulin


(B) Beta-carotene (Vitamin A precursor)


(C) Growth hormone


(D) Antibiotics




33. Biopesticides are produced by:

(A) Chemical synthesis only


(B) Microorganisms or plants


(C) Only fungi


(D) Only bacteria




34. Gene banks store:

(A) Carbohydrates only


(B) Microbes for fermentation


(C) Proteins only


(D) Genetic material for conservation




35. Agrobacterium tumefaciens is used in biotechnology to:

(A) Sequence DNA


(B) Produce antibiotics


(C) Ferment alcohol


(D) Transfer genes into plants




36. RNA vaccines (like mRNA COVID vaccines) work by:

(A) Blocking DNA replication


(B) Delivering DNA into the nucleus


(C) Delivering protein antigens only


(D) Delivering mRNA to produce viral proteins inside host cells




37. Bt toxin genes originate from:

(A) Bacillus thuringiensis


(B) E. coli


(C) Yeast


(D) Fungi




38. Recombinant vaccines are produced by:

(A) Denaturing proteins


(B) Extracting antigens from pathogens only


(C) Chemical synthesis only


(D) Expressing antigens in microbial or cell systems




39. DNA fingerprinting is used in:

(A) Forensic science, paternity testing, and biodiversity studies


(B) Protein synthesis


(C) Lipid metabolism


(D) RNA transcription




40. Genetically modified microorganisms can be used to:

(A) Produce enzymes, vitamins, and biofuels


(B) Only produce DNA


(C) Only sequence RNA


(D) Produce amino acids in plants only




41. Somatic gene therapy targets:

(A) Germ cells


(B) Non-reproductive cells


(C) All cells in the body permanently


(D) Only stem cells




42. Germline gene therapy targets:

(A) Somatic cells


(B) Germ cells and is heritable


(C) Only liver cells


(D) Only immune cells




43. Biosensors in biotechnology are used to:

(A) Ferment microbes


(B) Detect biological molecules or pathogens


(C) Sequence DNA


(D) Produce enzymes




44. Microarray technology is used for:

(A) Fermentation monitoring


(B) Protein purification


(C) Lipid analysis


(D) Gene expression profiling




45. Metabolic engineering aims to:

(A) Denature enzymes


(B) Modify metabolic pathways for desired products


(C) Sequence DNA only


(D) Produce antibiotics only




46. Biopharming refers to:

(A) Traditional farming


(B) Using genetically modified plants or animals to produce pharmaceuticals


(C) Producing biofuels only


(D) DNA sequencing




47. Proteomics in biotechnology studies:

(A) RNA only


(B) DNA sequences


(C) Proteins and their functions


(D) Lipids only




48. Metagenomics allows study of:

(A) Proteins only


(B) Genetic material of microbial communities without culturing


(C) DNA of single microbes only


(D) Lipids only




49. Synthetic biology involves:

(A) Only traditional breeding


(B) Designing and constructing new biological parts and systems


(C) Only PCR


(D) Lipid metabolism




50. Bioplastics are produced by:

(A) Petroleum only


(B) Microbial fermentation of polymers


(C) Plants only


(D) Enzyme denaturation




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