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Vehicle/Vector DNA

The DNA used as a carrier for transferring a fragment of foreign DNA into a suitable host is called vehicle or vector DNA.
Plasmids and bacteriophages have the ability to replicate within bacterial cells independent of the control of chromosomal DNA.
The following are the features that are required to facilitate cloning into a vector:

(i) Origin of replication (ori) 

This is a sequence from where replication starts and any piece of DNA when linked to this sequence can be made to replicate within the host cells. This sequence is also responsible for controlling the copy number of the linked DNA. So, if one wants to recover many copies of the target DNA it should be cloned in a vector whose origin support high copy number.

(ii) Selectable Marker

In addition to 'ori', the vector requires a selectable marker. Normally, the genes encoding resistance to antibiotics such as ampicilin, chloramphenicol,  tetracycline or kanamycin, etc., are considered useful selectable markers for E. coli.

pBR322pBR322

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(iii) Cloning Sites  

In order to link the alien DNA, the vector needs, recognition sites for the commonly used restriction enzymes. The ligation of alien DNA is carried out at a restriction site present in one of the two antibiotic resistance genes. For example, you can ligate a foreign DNA at the Bam H I site of tetracycline resistance gene in the vector pBR322. The recombinant plasmids will loss tetracycline resistance due to insertion of foreign DNA (insertional inactivation) now, it can be selected out from non-recombinant ones by plating the transformants on ampicillin containing medium. The transformants (plasmid transfer) growing on ampicillin containing medium are then transferred on a medium containing tetracycline. The recombinants will grow in ampicillin containing medium but not on that containing tetracycline. But, non-recombinants will grow on the medium containing both the antibiotics. In this case, one antibiotic resistance gene helps in selecting the transformants.

Selection of recombinants due to inactivation of antibiotics is a cumbersome (troublesome) procedure because it requires simultaneous plating on two plated having different antibiotics. Therefore, alternative selectable markers have been developed which differentiate recombinants from non-recombinants on the basis of their ability to produce colour in the presence of a chromogenic substrate. In this, a recombinant DNA is inserted within the coding sequence of an enzyme, which is referred to as insertional inactivation.

Blue White ScreeningBlue White Screening

The presence of a chromogenic substrate X–gal (5–bromo–4 chloro– β-D galacto pyranoside) gives blue coloured colonies if the plasmid in the bacteria does not have an insert. Presence of insert results into insertional inactivation of the β-galactosidase (reporter enzyme) and the colonies do not produce any colour (white), these are identified as recombinant colonies.

(iv) Vectors for Cloning Genes in Plants and Animals

Agrobacterium tumifaciens, a pathogen of several dicot plants deliver a piece of DNA known as 'T-DNA' to transform normal plant cells into a tumour .
Similarly, retroviruses in animals have the ability to transform normal cells intocancerous cells. A better understanding of the art of delivering genes by pathogens in their vivo hosts has generated knowledge to transform these tools of pathogens into useful vectors for delivering genes of interest to humans. The tumour inducing (Ti) plasmid of Agrobacterium tumifaciens has now been modified into  a cloning vector which is no more pathogenic to the plants but is still able to use the mechanisms to  deliver genes (disarmed) and are now used to deliver desirable genes into animal cells. 

So, once a gene or a DNA fragment has been ligated into a suitable vector it is transferred into a bacterial, plant or animal host (where it multiplies).

(a) Plasmids

They are extra chromosomal DNA segments found in bacteria which can replicate independently. Plasmids can be taken out of bacteria and made to combine with desired DNA segments by means of restriction enzymes and DNA ligase. A plasmid carrying DNA of another organism integrated with it, is known as recombinant plasmid or hybrid plasmid or Chimeric plasmid.

PlasmidPlasmid

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(b) Viruses

The DNA of certain viruses is also suitable for use as a vehicle DNA. Bacteriophage (bacterial virus) has been used to transfer gene for b galactosidase from Escherichia coli to human cells. Lambda phage (l phage) has been used for transferring lac genes ofE. coliinto haploid callus of tomato.

Vector type Insert size kb Plasmid 0.5 – 8 Bacterophage lambda 9 – 23 Cosmid 30 – 45 B AC 50 – 300
YAC 1000 – 2500

Tools of Recombinant DNA Technology: Cloning Vectors | Biology Class 12 - NEET

(c) 

Passenger DNA 

It is the DNA which is transferred from one organism into another by combining it with the vehicle DNA. The passenger DNA can be complementary, synthetic or random.

(1.) Complementary DNA (cDNA)- It is synthesized on mRNA template with the help of reverse transcriptase and necessary nucleotides. The DNA strand is then separated from the hybrid RNA-DNA complex by using alkali. Complementary DNA strand is then synthesized over the template of cDNA with the help of DNA polymerase. cDNA formed through reverse transcription is shorter than the actual or in vivo gene because of the absence of introns or non-coding regions.

(2.) Synthetic DNA (sDNA)- It is synthesized with the help of DNA polymerase on DNA template.
Kornberg (1961) synthesized first synthetic DNA from a mixture of deoxyribonucleotide triphosphates, DNA polymerase enzyme, metal ions and a segment of viral DNA.
Khorana (1968) synthesized first artificial gene (DNA) without a template. They synthesized the gene coding for yeast alaninet-RNA,which contained only 77 base pairs. However, it did not function in the living system. In 1979, Khorana was able to synthesize a functional tyrosine t-RNA gene of E. coli with 207 nucleotide pairs. Since then a number of genes have been synthesized artificially.

(3.) Random DNA - It refers to small fragments formed by breaking a chromosome with the help of restriction endonucleases.

Technique of Recombinant DNA 

  • The DNAs which are to be used as passenger DNA and the vehicle DNA are extracted out of their cells by lysing the cells with the suitable enzyme.

  • The extracted DNAs are isolated from other cell contents by ultra centrifugation and purified.

  • Both the passenger and vehicle DNAs are then, cleaved by using the same restriction endonuclease so that they have complementary sticky ends.

  • The complementary sticky ends of the passenger and vehicle DNAs are joined with ligase enzyme. This gives rise to a recombinant DNA.

  • The recombinant DNA is now inserted into a host cell such as Escherichia coli. The bacteria to be used as hosts should be without plasmids.

  • The host cells are treated with calcium chloride or lysozyme. It creates transient (temporary) pores in their wall and makes the latter permeable to recombinant DNA.

  • The recombinant DNA is added to the culture in which such bacteria are growing. The recombinant DNA is taken up by the bacteria. It replicates when the host bacteria divide and give rise to multiple copies of recombinant DNA.

Production of Recombinant Insulin GeneProduction of Recombinant Insulin Gene

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FAQs on Tools of Recombinant DNA Technology: Cloning Vectors - Biology Class 12 - NEET

1. What is the technique of Recombinant DNA?
Ans. Recombinant DNA is a technique used in genetic engineering to combine DNA from different sources. It involves cutting DNA molecules into smaller fragments, isolating the desired gene or DNA sequence, and then inserting it into a vector (such as a plasmid) to create a recombinant DNA molecule.
2. What are cloning vectors?
Ans. Cloning vectors are DNA molecules used to carry foreign DNA into a host organism, such as bacteria. They are designed to replicate themselves within the host and can be used to produce multiple copies of the inserted DNA. Examples of cloning vectors include plasmids and bacteriophages.
3. How do cloning vectors work?
Ans. Cloning vectors work by being introduced into a host organism, such as bacteria. Once inside the host, the vector is replicated along with the host's own DNA. The foreign DNA, which has been inserted into the vector, is also replicated. This allows for the production of multiple copies of the desired DNA sequence.
4. What is the role of cloning vectors in recombinant DNA technology?
Ans. Cloning vectors play a crucial role in recombinant DNA technology. They serve as carriers for the foreign DNA that is being inserted into a host organism. By replicating themselves within the host, cloning vectors allow for the amplification of the desired DNA sequence, making it easier to study or manipulate.
5. What are some examples of cloning vectors?
Ans. Examples of cloning vectors include plasmids, which are small circular DNA molecules that can replicate autonomously in bacterial cells. Bacteriophages, which are viruses that infect bacteria, can also serve as cloning vectors. Other examples include cosmids, bacterial artificial chromosomes (BACs), and yeast artificial chromosomes (YACs).
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