1. Another bacterium of the same strain
2. Enkaryotic cells of all types
3. Almost any other type of bacterium
4. Any other cell containing copy DNA
Almost any other type of bacterium
1. Mutation
2. Silent mutation
3. Frame shift mutation
4. Genetic disorders
Frame shift mutation
1. 15% of the total
2. 25% of the total
3. 35% of the total
4. 45% of the total
15\% of the total
1. It involves sophisticated technology
2. Knowledge of engineering is a must
3. Recombinant DNA technology involves manipulation of two DNAs
4. All the above
Recombinant DNA technology involves manipulation of two DNAs
1. DNA→RNA→Protein
2. RNA→DNA→Protein
3. RNA→DNA→RNA→Protein
4. DNA→RNA→RNA→Proteins
DNA→RNA→Protein
1. The repressor is positioned next to operon
2. The repressor is positioned next to the promoter
3. A key substance in the metabolic pathway is present
4. There is enough RNA polymerase present
The repressor is positioned next to the promoter
1. Regulatory gene
2. Hypostatic gene
3. Polygene
4. Mutagene
Mutagene
1. Lederberg and Tatum
2. Punnet and Bateson
3. Correns and Tsechermak
4. Jacob and Monod
Jacob and Monod
1. Base pairs of DNA molecule
2. Base pairs of DNA-RNA hybrid molecule
3. Sugar and phosphate components of a nucleic acid molecule
4. Exons and introns of DNA molecule
Sugar and phosphate components of a nucleic acid molecule
1. TATA
2. CACC
3. AATT
4. TTAA
TATA