1. Plasmids and ______ have the ability to replicate within bacterial cells independent of the control of chromosomal DNA.
- 1) bacteria
- 2) clones
- 3) bacteriophages
- 4) fragments
Answer: 3)
Explanation: Plasmids and bacteriophages can replicate within bacterial cells without the help of chromosomal DNA. Thus they are self-replicating and autonomous in nature. They have their own replication machinery.
2. The sequence of DNA from where replication starts is called _______
- 1) genetic sequence
- 2) ter sequence
- 3) selectable marker
- 4) origin of replication
Answer: 4)
Explanation: The sequence of DNA from where the replication starts is called the origin of replication. It is also written as ‘ori’. It is also responsible for controlling the copy number of target DNA. Bacteria usually have only one origin of replication.
3. Viruses which infect bacteria are called ______
- 1) bacteriophages
- 2) pUC
- 3) archaea
- 4) bacteria
Answer: 1)
Explanation: Bacteriophages or simply phages are the viruses that infect bacteria. They are self-replicating in nature. Archaea is a domain of bacteria. pUC is a vector.
4. What helps in identifying the successful transformants?
- 1) Enzymes
- 2) Selectable markers
- 3) Viruses
- 4) Ori
Answer: 2)
Explanation: A selectable marker is a gene that helps in identifying successful transformants. They eliminate the growth of non-transformants and favor the growth of the desired organism. It is one of the features which facilitate cloning in a vector.
5. Selectable markers are the genes which code for resistance to ______
- 1) foreign entity
- 2) antibiotics
- 3) phages
- 4) disease
Answer: 2)
Explanation: Genes coding for resistance to antibiotics are usually used as selectable markers. They are introduced in an organism especially bacteria along with plasmid. They help in the identification of transformants.
6. The process by which a foreign DNA is introduced into bacteria is called ______
- 1) digestion
- 2) infection
- 3) transformation
- 4) amplification
Answer: 3)
Explanation: Transformation is a process in which a foreign DNA is directly picked up by the bacteria from the surrounding environment. It leads to a change in the characteristics of bacteria. It was first observed by Griffith in 1928.
7. ________ is an example of antibiotic.
- 1) Kanamycin
- 2) RNA
- 3) Restriction endonuclease
- 4) Virus
Answer: 1)
Explanation: Antibiotics are the substances that either inhibit the growth or kill bacteria. They are widely used to treat diseases caused by bacteria. Some examples of antibiotics are kanamycin, ampicillin, penicillin, tetracycline, etc.
8. Insertion of recombinant DNA within the gene encoding for β–galactosidase leads to ________
- 1) cloning
- 2) insertional inactivation
- 3) transformation
- 4) amplification
Answer: 2)
Explanation: Insertional inactivation is the process in which the gene is inactivated due to the insertion of other genes within it or within its coding sequence. This leads to loss of function of that specific gene. Thus, insertion of recombinant DNA within the gene encoding for β–galactosidase will lead to insertional inactivation.
9. What may complicate the process of gene cloning within the cell?
- 1) Antibody
- 2) More than one recognition site
- 3) Foreign DNA
- 4) One recognition site
Answer: 2)
Explanation: Recognition site is the sequence of DNA where the DNA is cleaved. The presence of more than one recognition site will lead to several cuts within DNA leading to fragmentation of DNA. This will complicate the process of gene cloning.
10. Which organism can transfer ‘T-DNA’ within plants?
- 1) S. typhi
- 2) E.coli
- 3) Aspergillus niger
- 4) Agrobacterium tumifaciens
Answer: 4)
Explanation: Agrobacterium tumifaciens is the bacteria which transfers ‘T-DNA’ within plants. It mostly infects dicot plants. This ‘T-DNA’ is responsible for the formation of transformed cells called tumors from normal plant cells.
11. Which plasmid of Agrobacterium tumifaciens leads to tumor formation in dicots?
- 1) pUC
- 2) pBR
- 3) F plasmid
- 4) Ti
Answer: 4)
Explanation: The Ti plasmid in Agrobacterium tumifaciens leads to tumor formation in dicots. ‘Ti’ stands for tumor-inducing. It may contain more than one T-DNA region. This plasmid is modified and used as a cloning vector.