Trp Operon: Gene Regulation in Prokaryotes [With Attenuation]

Trp Operon with Attenuation – Easy to Understand

Trp operon codes for 5 enzymes which are required for the biosynthesis of amino acid tryptophan. Trp operon is a negatively controlled repressible operon. In a system if there is low or no tryptophan available, it is in ON condition and when tryptophan is available in high concentration it is in OFF condition.

It contains 5 structural genes: trp E, trp D, trp C, trp B and trp A. Trp repressor binds and block the transcription of these genes when tryptophan is present.

Structural genes: codes for enzymes. Structural gene of an operon usually lie adjacent to one another and RNA polymerase moves from one structural gene to the next, transcribing all of the genes into a single mRNA which is translated into enzymes.

Attenuation is a fail safe mechanism to regulate the tryptophan operon in the presence of tryptophan. Attenuation prevents the completion of transcription rather than blocking it.

00:22 introduction

00:54 introduction on Tryptophan operon

04:26 mechanism of Tryptophan operon

08:11 attenuation mechanism (really easy to understand)

14:38 intrinsic termination loop and anti-terminator loop

 

Have you watch the video on lac operon? If not watch it here to understand this topic better; Lac Operon – Negatively Controlled Inducible Operon.

Do you want to know what happens if glucose and lactose both are present in the environment? Check out Catabolite Repression – Positive Control of Lac Operon here.

 

Catabolite Repression: Positive Control of Lac Operon [Role of cAMP & CAP]

Catabolite Repression – Positive Control of Lac Operon

Catabolite repression is a positive control of the lac operon. If bacteria have glucose and lactose both in the environment, what will it do? A smart cell will first utilise glucose and only when it is depleted it will utilize lactose. But how is it controlling lac operon even in the presence of lactose? That is where catabolite repression or positive control of lac operon comes into play.

It involves CAP protein (Catabolite Activator Protein) which is an activator protein and is also known as CRP (cAMP Receptor Protein). CAP acts as a sensor for glucose. It activates transcription of the operon but only when glucose levels are low. CAP senses glucose indirectly through the ‘hunger signal’ molecule cAMP which is a central regulator to different nutrients in environment such as glucose.

00:10 introduction

02:37 structure of the operon

04:38 role of CAP 06:21 role of cAMP

08:09 mechanism of catabolite repression

11:10 comprehensive table of all scenario of presence or absence of glucose and lactose affecting the positive control of lac operon

15:35 graphical representation

17:04 explanation of why it is called catabolite repression

Wow Tryptophan is available!!! It is party time for bacteria 😀 If you find regulation of trp operon by attenuation difficult then this video is for you 😇

Have you watch the video on lac operon? If not watch it here to understand this topic better; Lac Operon – Negatively Controlled Inducible Operon.