Insertional inactivation is a technique used in genetic engineering where a fragment of foreign DNA inserts into the genome of a host cell. This insertion disrupts or inactivates an existing gene, such as one that confers antibiotic resistance. Screening methods rely on insertional inactivation to detect recombinant cells. For example, blue/white screening uses disruption of the lacZ gene to distinguish cells with and without recombinant DNA insertion.
3. INTRODUCTION
Insertional inactivation is a technique used in recombinant
DNA technology.
In this procedure, a bacteria carrying recombinant
plasmids or a fragment of foreign DNA is made to insert
into a restriction site inside a gene to resist antibiotics,
hence causing the gene to turn non-functional or in an
inactivated state.
4. EXPLANATION
Insertional inactivation is one of the screening methods, which is a
fundamental process involved in the recombinant DNA
technology.
It is used in the detection of cells (host cells) that has received the
foreign DNA molecule.
There are several examples of insertional inactivation, few of
them are mentioned below :-
• Blue white screening method.
• Antibiotic resistance.
5. BLUE WHITE SCREENING
The lacZ gene encodes for an enzyme beta-galactosidase. This gene is
inserted into the vector.
The enzyme beta-galactosidase has the ability to split a synthetic substrate,
X-gal, which is an organic compound abbreviated as BCIG.(5-BROMO-4-
CHLORO-INDOYL-BETA-D-GALACTOPYRANOSIDE) into an
insoluble product, that is blue in colour.
If the foreign gene is introduced into the gene lacZ, the gene will be
disrupted and hence it’s activity will be inhibited. Thus, no blue colour will
develop as beta-galactosidase is not produced due to deactivation of the
lacZ gene.
Consequently, the host cell comprising the rDNA will create white
background colonies on the medium containing X-gal, whereas other cells
bearing non-recombinant DNA will tend to develop blue coloured colonies.
Therefore, the recombinants are selected on the basis of the colour of the
colony.
6.
7.
8. ANTIBIOTIC RESISTANCE
Plasmid vector pBR322, which has genes that encodes
polypeptides which confer resistance to ampicillin and
tetracycline antibiotics.
In the example given, the gene of interest is inserted into the
tetracycline gene coding region, this leads to the inactivation of
tetracycline resistance gene. This process is called insertional
inactivation.
This process helps in the selection of recombinant colonies.
Recombinant colonies with desired gene inserted at tetracycline
coding region can grow only in ampicillin coding medium,
whereas transformed colonies with unaltered vector can grown in
both tetracycline and ampicillin medium.
9.
10. EXTRA INFORMATION
An alternative strategy for insertional inactivation has been used in
vertebrate animals to find genes that cause cancer.
In this case a transposon e.g., Sleeping beauty, is designed to interrupt
a gene in such a way that it causes maximal genetic havoc !
11. MERITS :
1. Easy screening procedure i.e., it is inexpensive and does not need
very skilled people to perform this experiment.
2. The whole setup is very easy to handle.
3. The changes can be observed very easily and quickly.
DEMERITS
1. There are chances of non-specific insertion.
2. The normal functioning of the gene is disrupted.
12. REFERENCES :
• Gene cloning and DNA analysis (Edition-VII) by T.A. Brown.
Publisher: Wiley Blackwell
• Principles of gene manipulation (Edition-VI) by S.B. Primrose,
R.M. Twyman and R.W. Old.
Publisher : Wiley Blackwell
• www.wikipedia.com