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TLS Online TPP Program

#Question id: 30100

In the catabolism of CTP: <

#Unit 1. Molecules and their Interaction Relevant to Biology
  1. uric acid is an end product.
  2. nitrogen will be released in the form of ammonia (ammonium ion ).
  3. the nitrogen-containing ring will be oxidized.
  4. hpoxanthine will be an intermediate.
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TLS Online TPP Program

#Question id: 4457

#Unit 3. Fundamental Processes

In the holoenzyme, which sigma region acts as a molecular mimic of DNA?
TLS Online TPP Program

#Question id: 4458

#Unit 3. Fundamental Processes

What structural changes will occur at the time of transition to the open complex and  how we describe this transition in transcription,
TLS Online TPP Program

#Question id: 4459

#Unit 3. Fundamental Processes

Give correct explanation, why RNA polymerase can initiate a new RNA chain on a DNA template without any primer?

A. Because RNA polymerase starts most transcripts with an A, and that ribonucleotide binds the template nucleotide (T) with only two hydrogen bonds.

B. The enzyme has to make specific interactions with one or all of the DNA template strand, the initiating ribonucleotide, and the second ribonucleotide—holding one (or all) rigidly in the correct orientation to allow chemical attack on the incoming NTP.

C. The structure of the open complex shows that the s region 3/4 linker interacts with the template strand, organizing it in the correct conformation and location to allow initiation.

D. Consistent with this, in experiments using an RNA polymerase containing a s70 derivative lacking this part of s, initiation requires much lower than normal concentrations of one or both of the first two ribonucleotides.
TLS Online TPP Program

#Question id: 4460

#Unit 3. Fundamental Processes

During initial transcription, the active center of RNA polymerase is translocated forward relative to the DNA template and synthesizes short transcripts before aborting, then repeats this cycle until it escapes the promoter. Three models have been proposed to account for this;

i. Polymerase moves along the DNA.

ii. The front part of the enzyme moves along the DNA, but because of a flexible region within the enzyme, the back part of the enzyme can remain stationary at the promoter.

iii. The enzyme remains stationary and pulls the DNA into itself.
TLS Online TPP Program

#Question id: 4461

#Unit 3. Fundamental Processes

According to some experiments, during initial transcription, the polymerase remains stationary on the promoter, unwinds downstream DNA, and pulls that DNA into itself, which model is this?
TLS Online TPP Program

#Question id: 4462

#Unit 3. Fundamental Processes

Promoter escape is associated with the breaking of all interactions (at the given promoter) between;