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Define an operon. Giving an example, explain an Inducible operon.

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Define an operon. Giving an example, explain an Inducible operon.

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Lac Operon

(i) The elucidation of the lac operon was also a result of a close association between a geneticist, Francois Jacob and a biochemist, Jacque Monod in 1961. They were the first to elucidate a transcriptionally regulated system. In lac operon (here lac refers to lactose), a polycistronic structural gene is regulated by a common promoter and regulatory genes.

(ii) Such arrangement is very common in bacteria and is referred to as operon. To name few such examples, lac operon, trp operon, ara operon, his operon, val operon, etc. Lac operon is a type of inducible operon. In inducible operon, presence of a chemical switch on the operon. The lac operon consists of one regulatory gene (the gene – here the term does not refer to inducer, rather it Is derived from the word inhibitor) and three structural genes (z, y and a).

(iii) The z gene codes for beta-galactosidase (p-gal), which is primarily responsible for the hydrolysis of the disaccharide, lactose into its monomeric units, galactose and glucose. The y-gene codes for permease, which increases permeability of the cell to p-galactosides. The a-gene encodes a transacetylase.

(iv) Hence, all the three gene products in lac operon are required for metabolism of lactose. In most other operons as well, the genes present in the operon are needed together to function in the same or related metabolic pathway. Operator gene is switched off in the presence of a repressor. RNA polymerase binds with the promoter gene. Lactose is the substrate for the enzyme beta-galactosidase and it regulates switching on and off of the operon. Hence, it is termed as inducer.

(v) In the absence of a preferred carbon source such as glucose,; if lactose is provided in the growth medium of the bacteria, the lactose is transported into the cells through the action of permease (Remember, a very low level of expression of lac operon has to be present in the cell all the time, otherwise lactose cannot enter the cells).

The lactose then induces the operon in the following manner.

The repressor of the operon is synthesised (all-the-time constitutively) from the i gene.

Constitutive genes or housekeeping genes:

These genes are constantly expressing themselves because their product is required by cell all the time.

E.g.: Genes for ATPalse and glycolysis. The repressor protein binds to the operator region of the operon and prevents RNA polymerase from transcribing the operon.

In the presence of an inducer, such as lactose or allolactose, the repressor is inactivated by interaction with the inducer. This allows RNA polymerase access to the promoter and transcription proceeds. Essentially, regulation of lac operon can also be visualised as regulation of enzyme synthesis by its substrate.

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