#Question id: 4480
#Unit 3. Fundamental Processes
The reason for TBP’s unorthodox recognition mechanism is
#Question id: 4481
#Unit 3. Fundamental Processes
Choose correct statements about recognition mechanism of TBP ;
A. TBP causes the minor groove to be widened to an almost flat conformation
B. It also bends the DNA by an angle of ~120o
C. The interaction between TBP and DNA involves maximum number of hydrogen bonds between the protein and the edges of the base.
D. Much of the specificity is imposed by two pairs of phenylalanine side chains that intercalate between the base pairs at either end of the recognition sequence and drive the strong bend in the DNA.
#Question id: 4482
#Unit 3. Fundamental Processes
The General Transcription Factors of RNA Polymerase, with their subunits, select correct matching
|
A. TBP |
1 |
|
B. TFIA |
11 |
|
C. TAFs |
2 |
|
D. TFIIH |
10 |
#Question id: 4483
#Unit 3. Fundamental Processes
TAF42 and TAF62 from Drosophila form a structure similar to that of the
#Question id: 4484
#Unit 3. Fundamental Processes
Match General Transcription Factors with their functions;
|
i. TAFs |
A. Appears to regulate the binding of TBP to DNA. It does this using an inhibitory flap that binds to the DNA-binding surface of TBP, another example of molecular mimicry. This flap must be displaced for TBP to bind TATA. |
|
ii. TFIIB |
B. Insert into the RNA-exit channel and active center cleft of Pol II in a manner analogous to the sigma region 3/4 linker in the bacterial case. |
|
iii. TFIIH |
C. As an ATP-driven translocator of double-stranded DNA. |
|
iv. TFIIF |
D. This two-subunit (in humans) factor associates with Pol II and is recruited to the promoter together with that enzyme. |
#Question id: 4485
#Unit 3. Fundamental Processes
In multicellular organisms, regulatory sequences can spread thousands of nucleotides from the promoter—both upstream and downstream—and can be made up of tens of regulator binding sites. Often, these binding sites are grouped in units called_?