05

Question 1

What is transcription

Answer 1

copying DNA to RNA
Using RNA polymerase that catylizes the polymerization of nucleotides to form a single strand of RNA

Question 1

Describe the central dogma

Answer 1

how info flows in a biological system

DNA (transcribed) –> RNA (translated) –> Protein

Question 2

Where does transcription occur

Answer 2

occurs at gene regions within DNA –> each gene has a promoter region where RNA polymerase binds and starts (initiates) transcription

Question 3

Which direction is the polynucleotide strand synthesied

Answer 3

5’ –> 3’

Question 4

Which strand will the RNA strand match on DNA

Answer 4

matches coding strand

copies from template strande

Question 5

What is the difference between rna polymerase and dna polymerase

Answer 5

1. rna polymerase don’t need a primer to start synthesis
2. proofreading on rna polymerase is a seperate protein –> the same part of the enzyme will “turnaround” and go backwards, removing the incorrect base and then starting again

Question 6

What are the types of RNA polymerases, what do they do

Answer 6

RNA polymerase 1: rRNA
RNA polymerase 2: mRNA
RNA polymerase 3: small RNA (tRNA, 5S, rRNA)

Question 7

What is a genome

Answer 7

contains many genes which provide the instructions for specific proteins

Question 8

What are the parts of a gene

Answer 8

promotor region: where RNA polymerase binds to start transcription

transcribed region: part that gets turned into the mRNA

Question 9

What modifications are made to RNA before it can be transported out of the nucleus

Answer 9

5’ cap
Poly A tail

Question 10

What are the non coding regions called on eukaryotic genes

Answer 10

introns
must be removed

Question 11

What are transcription factors

Answer 11

help recruit RNA polymerase and stabilize it on the DNA
allows transcription to start

Question 12

What is the TATA box

Answer 12

in the promotor region

RNA polyermase binds to it becasue the bonds between A and T are weaker so easier to seperate for transcription

Question 13

What is the sigma factor

Answer 13

in the promotor region

causes the strands to seperate

sigma factor is released and the DNA re-anneals behind the transcript
- becasue DNA re-anneals, supercoiling does not occur

Question 14

What is an operon

Answer 14

on bacterial cells and may have several genes that are all under the control of a single promotor

Question 15

What does an operon produce

Answer 15

a polycistronic transcript that is translated to several proteins
- can synthesize many related proteins at the same time

cistron = transcript

Question 16

What does the 5’ cap do

Answer 16

a guanasine that is methylated by S-adenosylmethionine
(SAM) –> regenerated by the vitamin’s folate and B12, so this can’t occur if vitamin deficiencies exist

1. stabilizes the mRNA
2. Helps the mRNA translocate to the cytoplasm
3. helps interact with ribosomes to start translation

Question 17

What is a poly A polymerase

Answer 17

catalyzes the addition of A’s (can be >200) from ATP after transcription is finished

no string of Ts on DNA, so modification is not coded in the DNA

The poly A tail is a protein binding site that protexts the mRNA transcript from being degraded in the cytosol

Question 18

What is a spliceosome

Answer 18

nucleotide sequence that borders the intron and is recognized by a protein complex
- introns have a specific sequence at the begginign and end to signal the spliceosome

binds to the intron region of mRNA and cuts it out

Question 19

What is the purpose of alternative splicing

Answer 19

can produce different variations of proteins some the same transcript

Question 20

What do rRNAs do after transcription

Answer 20

associate with proteins and form an intact ribosome that can translate mRNAs into proteins

Question 21

What do tRNAs do after transcription

Answer 21

after, they are left with an “anti-codon” region that binds to a specific RNA sequence

on the other end, there is a region that binds to a speicifc amino acid

tRNA translates na mRNA sequence into an amino acid

Question 22

Which direction is mRNA translated

Answer 22

5’ –> 3’
from the amino (N)-terminus to the carboxy (C)-terminus

Question 23

What joins amino acids

Answer 23

carboxylic acid group of one aa and the amino group of the next aa

Carbons and nitrogens of the aa form the backbone of the polypeptide

Question 24

What type of reaction creates peptide bonds

Answer 24

condensation reaction –> water is released

Question 25

Why are groups of 3 used for the genetic code

Answer 25

4 nucleotides = 4 amino acids

4x4 = 16 (not enough aa)
4x4x4 = 64 combinations

Question 26

What does a degenerate code mean

Answer 26

more than one codon can code for the same amino acid

Question 27

What does an unambiguous code mean

Answer 27

each codon always codes for the same amino acid

Question 28

What does a wobble on a codon mean

Answer 28

3rd position has a variation
- base-pairing in this spot might be weaker
- may deviate from the base-pairing rules or there can be an unusual base in this position on the anticodon that can pair with more than one base (only in the tRNA)

Question 29

TF the genetic code is not universal

Answer 29

false
most organisms use the same code
- some exceptions where a few different codons for amino acids in our mitochondrial DNA

no puntuation in the code and it doesn’t overlap

Question 30

Why does the coding sequence always start as AUG

Answer 30

there are 3 possible “reading frames” in which the code could be read (depending on where you start)
- different frames would produce very different proteins

Question 31

TF mutations can be passed down generations

Answer 31

True
they cannot be repaired

Question 32

What are the point mutations

Answer 32

silent
mssense
nonsense

Question 33

What is a silent mutation

Answer 33

no effect on the protein sequence

Question 34

What is a missense mutation

Answer 34

results in an amino acid substitution

Question 35

What is a nonsense mutation

Answer 35

substitutes a stop codon for an amino acid

Question 36

What is a frameshift mutation

Answer 36

insertion or deletion on nucleotides
- insertion of a stop codon
or
- if not in a group of 3 –> reading frame is shifted

Question 37

TF ATP is required for tRNA to catalyze the addition of amino acids

Answer 37

true
aa is attached –> tRNA is considered “charged”

Question 38

How are polypeptides synthesized

Answer 38

by ribosomes using mRNA as the instructions

1. charged tRNAs enter the ribosome and donate their aa to the growing chain (forming a peptide bond) while the anticodon is attached to the mRNA
2. tRNA is released and the charged tRNA that codes for the next aa in the reading frame become attached

Question 39

Describe the steps for translation

Answer 39

1. initiation:
   - formation of a complex between the methionyl-tRNAi, initation factors, the mRNA and the small ribosomal subunit and large subunit

large subunit: aminoacyl (A) site, peptidyl (P) site, ejection (E) site

2. elongation:
   - peptidyl transferase (the rRNA, an enzyme, NO protein) catalyzes the formation of the peptide bonds for each aa in the chain
   A) peptide bond is formed between the tRNA in the P-site and the tRNA in the A-site
   B) the tRNA slide over and the used tRNA is now in the exit site and is released
   C) the tRNA previously in the A-site, now contained the polypeptide chains and is now in the P-site
   D) A new charged tRNA enters the A-site to begin the next bond formation
3. Termination:
   - the elongation steps continue until a stop codon is reached
   - no tRNA that match these codons
   - release factors bind to the ribosome, allowing for termination to occur
   - the polypeptide is hydrolyzed from the tRNA and the ribosome dissociates, ready to restart the process on a new mRNA

Question 40

TF the process of translation requires a lot of energy by the cell

Answer 40

True

Question 41

What are polysomes

Answer 41

multiple ribosomes binding to a single mRNA (depends on the length of the mRNA)
- allows multiple copies of a protein to be translated from a single mRNA

Question 42

What are chaperone prtoeins

Answer 42

proteins that bind to the polypeptide and help it to into its native structure

Question 43

What happens to new proteins with signal sequences

Answer 43

targeted to various compartments where they function
- proteins incorporated into membranes or organelles are translated into the ER due to signal-recognition particle (SRP) that causes the ribosome to dock onto the ER to complete synthesis of the protein

Question 44

How are proteins synthesized into the ER

Answer 44

proteins translated into the lumen of the ER are carried in vesicles to the golgi complex
nost destined to stay in the gogli or go back to the ER –> leave in vesicles from the other side of the golgi

vesicles either become lysoso mes or fuse with the cell membrane to release secreted proteins or integrate membrane-spanning proteins in the cells outer lipid bilayer