Genetics Chp 12

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Promoter-Proaryotes

-10 TATA

Promoter-Eukaryotes

-25 TATA for mRNA

5' - 3' -10 sequence -35 sequence Rho terminator cDNA of insulin

-35 sequence -10 sequence cDNA of insulin Rho terminator

initiation-Eukaryotes

5 general factors

Which of the following modifications occur to a eukaryotic pre-mRNA?

5' cap added, removal of introns, 3' poly A tail added.

The figure shows an intron flanked by two exons. Splicing requires three sites to be recognized by the spliceosome, the 5' splice site, the 3' splice site, and the branch site. Label these sequences on the figure.

5', branch 3'

RNA polymerase I

Forms phosphodiester bonds

Initiation

Holoenzyme binds to promoter

The enzyme that accomplishes transcription is termed

RNA polymerase.

Termination-Proaryotes

Rho dependent and independent models

initiation-Proaryotes

Sigma factor needed

Which is a correct statement about Rho independent termination?

It requires a stem loop to form in the RNA.

polyA addition- Presence in prokaryotes

Occasional

enhancer

cis-acting

promoter

cis-acting

silencer

cis-acting

Tailing-Eukaryotes

common for stability

Splicing-Eukaryotes

common in mRNA genes

capping-Eukaryotes

common on mRNA

RNA editing occurs when bases are____.

deaminated

capping-Proaryotes

does not occur

The DNA probe must be from an___.

exon

Which of the following occurs first in transcription?

formation of a holoenzyme

rRNA genes in some protozoa have_______ introns.

group I

Where does splicing occur in the cell?

in the nucleus

Which of the following is correct regarding sigma factor?

it recognizes the promoter region

If the control had been performed and the results were 339 cpm, then the conclusion would be that the RNA the probe could bind to is in the___ but not ___

liver, spleen and brain.

RNA editing occurs in____ trypanosomal mitochrondrial mRNAs.

many

While group I and II introns can self splice, in cells the process is often helped by proteins called_________.

maturases

Introns in _______ are not self splicing.

pre-mRNAs

Tailing-Proaryotes

promotes degredation

Spacer regions removed

rRNA

Transcribed mainly by RNA pol 1

rRNA

splicing- Presence in prokaryotes

rare

Splicing-Proaryotes

rare; self splicing

In group I and group II introns, the RNAs act as_________, which means they are RNAs with enzymatic activity.

ribozymes

Group I and group II introns are ______

self-splicing

RNA editing is the process where the base______ of a transcribed RNA can be changed.

sequence

Splicing joins together

two exons.

Deamination of cytosine results in___ and with adenine it results in____.

uracil, inosine

RNA polymerase III

uses DNA as a template

RNA polymerase II

uses ribonucleotides

RNA polymerase-Proaryotes

1 polymerase

Arrange the following in the proper sequence in which they occur during RNA splicing. 1. Lariat is formed 2. U2 binds to branch site 3. 3' splice site is cut

2,1,3

How many RNA polymerases are there in eukaryotes?

3

RNA polymerase-Eukaryotes

3 polymerases

polyA addition - Defn

A's added to 3' end

Elongation factors dissociate from RNA Pol2

Allosteric Model

RNA Pol 2 is destabalized

Allosteric Model

Termination factors may bind to RNA pol 2 complex

Allosteric Model

RNA Editing - Defn

Change of base in sequence

splicing - Defn

Cleavage and joining of RNA

Processing - Defn

Cleavage into smaller RNAs

5'-capping- Presence in eukaryotes

Common

Base modification - Presence in eukaryotes

Common

Base modification - Presence in prokaryotes

Common

Processing- Presence in eukaryotes

Common

Processing- Presence in prokaryotes

Common

RNA editing- Presence in eukaryotes

Common

polyA addition- Presence in eukaryotes

Common

splicing- Presence in eukaryotes

Common

Base modification - Defn

Covalent modification of base

Which of the following best describes transcription?

DNA -> RNA

Elongation

DNA and polymerase in open complex

5' capping- Presence in prokaryotes

Does not occur

RNA Editing- Presence in prokaryotes

Does not occur

A eukaryotic promoter will be functional in prokaryotic cells

F

A precursor tRNA molecule must be cut with exonucleases to produce a mature tRNA

F

A prokaryotic promoter will be functional in eukaryotic cells

F

All RNAs undergo RNA editing

F

All transcribed RNAs are translated

F

Eukaryotic pre-mRNA can be used for protein expression in prokaryotes

F

Polyadenylation primarily occurs in the cytoplasm.

F

Pre-mRNA would be useful for an in vivo translation assay

F

The 3' splice site contains a GU, whereas the 5' splice site contains an AG.

F

The terminator of a gene is located upstream of the coding region.

F

Unwinding of the DNA during transcription is the result of the activity of a helicase enzyme downstream of the RNA polymerase.

F

5' capping - Defn

Methylated guanine added to 5' end

Is the promoter sequence part of the DNA that is transcribed?

Neither the -35 nor the -10 sequences are present on the new transcript.

Termination

Polymerase stops synthesizing copy of DNA template

Elongation

Polymerase synthesizes copy of DNA template

The most important control that is missing are the results of a sample with no____ added.

RNA

Termination

RNA forms stem loop structure for this to occur

A 7-methylguanosine cap is necessary for an mRNA to leave the nucleus.

T

Alternative splicing is more important in yeast than humans.

T

In Trypanosomes, RNA editing involves the addition and deletion of uracil nucleotides.

T

It is possible to get more than one protein product from a eukaryotic pre-mRNA.

T

Mature mRNA from a eukaryotic cell will not be identical to the primary transcript

T

Mature mRNA from a prokaryotic cell will be identical to the genomic sequence

T

Rna polymerases demonstrate the statement function follows form

T

The RNA transcript being produced by the RNA polymerase is complementary to the template strand of the DNA.

T

The length of the poly A tail affects the stability of the mRNA

T

Place the sentences in the correct order for formation of the open complex at eukaryotic promoters TFIIID binds to TATA box TFIIB binds to TFIID TFIIB promotes binding of RNA polymerase II TFIIF binds to RNA pol II TFIIH acts as helicase to form open complex TFIIE and TFIIH bind to RNA pol II to form closed complex

TFIIID binds to TATA box TFIIB binds to TFIID TFIIB promotes binding of RNA polymerase II TFIIF binds to RNA pol II TFIIE and TFIIH bind to RNA pol II to form closed complex TFIIH acts as helicase to form open complex

Look at the sequences in the figure. They all represent different bacterial promoter regions. Which of the sequences listed below is the best consensus sequence for the -35 region based on these seven promoters?

TTGACA

Initiation of transcription includes

The RNA polymerase holoenzyme binds to the promoter.

Termination-Eukaryotes

Torpedo and allosteric models

Exonuclease degrades transcript in 5' to 3' direction

Torpedo model

Exonuclease stops RNA Pol

Torpedo model

RNA Pol 2 is physically removed from DNA

Torpedo model

RNA downstream from polyA sequence is cleaved

Torpedo model

Look at the promoter for the gene shown to the left. Where does transcription start?

Transcription starts at the +1 site.

For a protein encoding gene, what marks the start and end of the DNA region that will be transcribed?

a promoter and a terminator

Transcription factors are proteins that can increase the rate of transcription. can decrease the rate of transcription. bind to DNA.

all of these are correct

RNA editing can result in different ___ as well as new ___.

amino acids, stop codons

The snRNPs are also called

snurps

Since the control is missing, the results of the _____ cannot be interpreted as positive or negative.

spleen and brain

A_________, composed of many proteins and RNAs is required for pre-mRNA splicing to occur.

spliceosome

Extensive base modification

tRNA

Processed by RNaseD

tRNA

Processed by RNaseP

tRNA

Processed by endonuclease

tRNA

Processed by exonuclease

tRNA

Transcribed by RNA pol 3

tRNA

The Rho protein is involved in the _____ stage of transcription.

termination

RNA polymerase

trans-acting

TFIID

trans-acting

transcription factors

trans-acting

RNA polymerase III

transcribes 5s rRNA and tRNA

RNA polymerase II

transcribes mRNA

RNA polymerase III

transcribes most rRNA


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