Describe the operon hypothesis and how it explains the control of the messenger RNA production and the regulation of protein synthesis in bacterial cells. The operon is a group of genes coding for proteins with related functions and they are arranged in units. The operon is made up of the promoter, structural genes and the operator. Transcription depends on the regulator, it may be located anywhere on the bacterial chromosome. The regulator codes for the repressor, which binds to the operator. When the repressor is bound to the operator, it blocks the promoter.
Therefore the RNA polymerase either can’t bind to the DNA molecule or it can’t begin its movement along the molecule. No transcription can occur. The repressor depends on the effector, which allows it to bind to the molecule. It can either activate or inactivate the repressor. The lac operon in bacterial cells gave the first clue that such a gene occurred in cells. When lactose is present, the first step in its metabolism is to produce a closely related sugar which binds to and inactivates the repressor, removing it from the operator.
RNA polymerase can begin its movement along the DNA molecule, and transcribe the operon into m RNA. The lac operon is inducible. In the case of the try operon, the presence of the amino acid activates the repressor, and blocks the synthesis of the unneeded enzymes. It is repressible. Both the lac and try operon’s are examples of effectors. They exert their effects by causing a change in the configuration of the repressor molecule..
The Essay on Amino Acid Rna Site Codon
6. 4 Translation 6. 4. 1 Explain how the structure of t RNA allows recognition by a t RNA-activating enzyme that binds a specific amino acid to t RNA, using ATP for energy. Each amino acid has a specific t RNA activating enzyme that helps t RNA to combine with its complementary m RNA codon. The enzyme has a 3 part active site that recognizes three things: . A specific amino acid. ATP, . A specific ...
