Central Dogma (Lec)

Question 1

The Central Dogma of Molecular Biology

Answer 1

DNA Replication - Transcription (/Reverse Transcription) - RNA Replication - Translation - Protein

Question 2

the process of making copies of genetic
information, converting information in DNA into
RNA, and then RNA into proteins

Answer 2

The Central Dogma
of Molecular
Biology

Question 3

making copies of genetic information

Answer 3

Replication

Question 4

conversion of DNA to RNA.

Answer 4

Transcription

Question 5

conversion of RNA to DNA;
viruses only

Answer 5

Reverse Transcription

Question 6

conversion of mRNA into a protein;
protein synthesis

Answer 6

Translation

Question 7

Nucleotide sequences that carry
specific instructions for the cell,
usually for protein synthesis

Answer 7

GENES

Question 8

Smallest hereditary unit; smallest
form of genetic information passed
from parent to offspring

Answer 8

GENES

Question 9

T/F - A single strand of DNA can carry multiple genes.

Answer 9

T

Question 10

Genes: Prokaryotes vs Eukaryotes

Answer 10

• In prokaryotes, the
  entire gene codes for a
  protein/molecule.
• In eukaryotes, the gene
  consists of coding
  (exons) and non-coding
  (introns) regions.

Question 11

Introns are removed and exons are joined together at the end of transcription to form the final mRNA product via a process called?

Answer 11

RNA splicing

Question 12

Only what percentage of human DNA actually codes for proteins, while non-coding regions still play a role

Answer 12

3%

Question 13

highly repetitive, non-coding DNA sequences in which longer
ones provide structural stability to chromosomes

Answer 13

Satellites

Question 14

shorter repeats, and are used to
monitor mutations implicated in diseases, such as cancer

Answer 14

Mini-satellites and microsatellites

Question 15

DNA Replication occurs in what manner?

Answer 15

semi-conservative manner where DNA strands of the parent DNA becomes the template for the daughter strands.

Question 16

What is the benefit of the said manner?

Answer 16

It is fast, accurate, and allows for easy repair of DNA. It is also responsible for phenotypic diversity in a few prokaryotic species.

Question 17

T/F - Replication occurs on both strands of the DNA.

Answer 17

T

Question 18

strand running from 3’ to 5’ towards the fork is called?

Answer 18

leading strand

Question 19

strand running from 5’ to 3’ towards the fork is called?

Answer 19

lagging strand

Question 20

DNA Replication begins at?

Answer 20

origin of replication (a chromosome can have multiple origins)

Question 21

where replication actively occurs

Answer 21

replication fork

Question 22

The assembly of proteins that facilitate DNA replication is called the?

Answer 22

replisome

Question 23

The opening in the DNA where replication takes place is generally called the?

Answer 23

replication bubble

Question 24

THE REPLISOMES (7):

Answer 24

• DNA Gyrase/Topoisomerase
• Helicase
• Primase
• Clamp Protein
• DNA Polymerase
• DNA Ligase
• Single-stranded Binding Proteins (SSB)

Question 25

prevents DNA from supercoiling by introducing breaks to the
DNA to relieve stress

Answer 25

DNA Gyrase/Topoisomerase

Question 26

‘unzips’ the double stranded DNA; breaks the hydrogen bonds between base pairs

Answer 26

Helicase

Question 27

synthesizes primers which are short RNA sequences that bind to the parent DNA strand, serves as the jumping off paint for DNA polymerase

Answer 27

Primase

Question 28

keeps DNA polymerase in place

Answer 28

Clamp Protein

Question 29

synthesizes the new DNA strand

Answer 29

DNA Polymerase

Question 30

T/F - DNA polymerase can only add nucleotides to an existing nucleotide chain and cannot initiate replication, hence the need for primers

Answer 30

T

Question 31

joins the Okazaki fragments in the lagging strand

Answer 31

DNA Ligase

Question 32

stabilizes/protects the single stranded region of
the DNA during replication

Answer 32

Single-stranded Binding Proteins (SSB)

Question 33

short sections of DNA formed at the time of discontinuous synthesis of the lagging strand during replication of DNA

Answer 33

Okazaki fragments

Question 34

DNA polymerase synthesizes the new strand by how?

Answer 34

adding nucleotides at the free 3’-hydroxyl group so that the new strand grows from 5’ to 3’.

Question 35

In the leading strand replication is what?

Answer 35

continuous

Question 36

In the lagging strand, which runs from 5’ to 3’, replication

Question 36

In the lagging strand, which runs from 5’ to 3’, replication is?

Answer 36

discontinuous

Question 37

T/F - Instead of one long strand of new DNA, the polymerase makes use of several primers to make fragments of the new DNA, called Okazaki fragments.

Answer 37

T

Question 38

joined together at the end of
replication.

Answer 38

Okazaki fragments

Question 39

Summary of Replication

Answer 39

1. Opening of DNA Superstructure. Acetylation of histone lysine
   residues weaken binding to DNA, making DNA available for
   interaction with enzymes.
2. DNA Relaxation. DNA tends to supercoil as replication proceeds (think of splitting yarn, where the more it is split, the tighter the unsplit portion becomes); DNA gyrase prevents this.
3. DNA Unwinding. Via helicase.
4. Primer Synthesis. Via primase.
5. DNA Elongation. Via DNA polymerase.
6. DNA Ligation. Primers are removed, Okazaki fragments and any breaks in the DNA are joined together via DNA ligase.

Question 40

involves the replacement of an incorrect of
damaged base with the correct nucleotide.

Answer 40

Base Excision Repair (BER)

Question 41

Base Excision Repair (BER) requires the ______ of the faulty base from the sugar-phosphate backbone to form an AP site (apurininc/apyrimidinic), followed by the removal of the sugar-phosphate unit of the incorrect nucleotide.

Answer 41

hydrolysis

Question 42

T/F - DNA polymerase then introduces the correct, and DNA ligase mends the break to complete the repair.

Answer 42

T

Question 43

T/F - Only one base is removed, but depending on the DNA polymerase used, it may result to a ‘short patch’ (only one nucleotide is replaced) or a ‘long patch’ (more than one nucleotide is replaced)

Answer 43

T

Question 44

involves the replacement of a stretch of
bases with the correct nucleotides.

Answer 44

Nucleotide Excision Repair (NER)

Question 45

DIFFERENCE OF BER TO NER

Answer 45

NER removes a section of the DNA strand instead of a single base and makes use of a different DNA polymerase from BER.

Question 46

the first step in gene expression and occurs in the nucleus (eukaryotes)

Answer 46

Transcription

Question 47

Before transcription, DNA must first be unwound by?

Answer 47

binding proteins

Question 48

attaches to the unwound DNA to break the H-bonds between
base pairs

Answer 48

Helicase

Question 49

the opening in the double helix where transcription takes place

Answer 49

transcription bubble

Question 50

DNA strand that is transcribed; also called (-) strand or antisense strand

Answer 50

Template strand

Question 51

DNA strand that is NOT transcribed; also called (+) strand or sense strand

Answer 51

Coding strand

Question 52

enzyme responsible for RNA synthesis; there are three (3)
types depending on the RNA to be produced

Answer 52

RNA polymerase (RNA pol)

Question 53

for mRNA

Answer 53

RNA Pol II

Question 54

Genes have coding (exons) and non-coding (introns) regions, and these make up the?

Answer 54

structural gene

Question 55

Genes also have the _____ which make up the regulatory regions of the gene.

Answer 55

promoter and terminator regions

Question 56

where the RNA polymerase initially binds, and is found several nucleotides upstream (means before the beginning of the transcription site; ‘downstream’ means after the beginning of the transcription site)

Answer 56

promoter region

Question 57

RNA pols cannot recognize the promoter region on their own, and require the help of

Answer 57

transcription factors

Question 58

T/F - The promoter also identifies which strand is the template.

Answer 58

T

Question 59

T/F - The coding strand has no promoter region

Answer 59

T

Question 60

Within the promoter region is the?

Answer 60

consensus sequence and the initiation signal

Question 61

identifies the precise nucleotide at which
transcription should begin, e.g. the TATA box

Answer 61

consensus sequence

Question 62

give RNA pol the signal when to start

Answer 62

initiation signal

Question 63

a string of nucleotides at the end of a gene that
signals RNA pol to transcription.

Answer 63

terminator region

Question 64

the process of adding the appropriate complementary
nucleotide as RNA pol moves downstream along the gene

Answer 64

Elongation

Question 65

T/F - RNA pol reads the DNA template from 3’ to 5’, and therefore synthesizes RNA from 5’ to 3’

Answer 65

T

Question 66

general term used to refer to the product of
transcription.

Answer 66

Transcript

Question 67

For mRNA, the initial transcript still contains all the introns and
unstranscribed regions, and is referred to as the

Answer 67

pre-mRNA

Question 68

Pre-mRNA undergoes additional reactions before it can be considered a fully functional mRNA, called the

Answer 68

mature mRNA

Question 69

three processes of Pre-mRNA

Answer 69

5’ capping – addition of a methylated guanine group to the 5’ end of the transcript.

• 3’ polyadenylation – addition of several adenosine residues to the 3’ end of the transcript, forming a poly(A) tail.
• RNA splicing – removal of the introns from the transcript and joining of the exons.

Question 69

protects the mRNA from exonucleases; aids in mRNA transport
to the cytosol; allows for the initiation of translation

Answer 69

5’ capping

Question 70

protects the mRNA from exonucleases

Answer 70

3’ polyadenylation

Question 71

leaves behind the exons that contains the code for the amino
acids in a protein

Answer 71

RNA splicing

Question 72

Summary of Transcription

Answer 72

1. DNA Unwinding. Binding proteins and helicase unwind and opens up DNA.
2. Initiation. RNA pol and transcription factors recognize the promoter sequence and bind to DNA.
3. Elongation. RNA pol reads the template and synthesizes the pre-mRNA.
4. Termination. RNA pol recognizes the terminator region, stops transcription and releases itself from the template.
5. 5’ Capping.
6. 3’ Polyadenylation.
7. RNA Splicing.

Question 73

Synthesis of proteins from
mature (spliced) mRNA

Answer 73

Translation

Question 74

RNA-protein complexes called ____ are used

Answer 74

ribosomes

Question 75

Has four rRNA (ribosomal RNA) molecules
distributed in two subunits with each subunit: 65% rRNA and 35% protein

Answer 75

Translation

Question 76

The active site is in the

Answer 76

ribosomal subunit

Question 77

the active site

Answer 77

rRNA

Question 78

The predominance of rRNA at the active site
gives it the impression of a?

Answer 78

ribozyme

Question 79

T/F - The mRNA binds to the small subunit of the
ribosome

Answer 79

T

Question 80

Three sites in the ribosome:

Answer 80

➢A site – “attachment site”
for tRNAs
➢P site – polypeptide
formation site
➢E site – “exit site” for
tRNAs

Question 81

T/F - The base sequence in mRNA determines the amino acid sequence in protein synthesis

Answer 81

T

Question 82

T/F - The base sequence of an mRNA molecule involves 4 different bases - A, C, G, and U

Answer 82

T

Question 83

A three-nucleotide sequence in an mRNA molecule that codes for a specific amino acid

Answer 83

Codon

Question 84

In total, how many codons are there?

Answer 84

64

Question 85

The assignment of the 64 mRNA codons to specific
amino acids

Answer 85

Genetic code

Question 86

T/F - 3 of the 64 codons are termination codons (STOP codons)

Answer 86

T

Question 87

The start codon (AUG) also codes for?

Answer 87

Methionine

Question 88

Stop codons (3)

Answer 88

UAG
UGA
UAA

Question 89

The genetic code is
____ degenerate

Answer 89

highly (means there are
multiple codons for
most amino acids)

Question 90

T/F - The degeneracy of the genetic code
makes it less prone to mutations.

Answer 90

T

Question 91

multiple codons per
amino acid

Answer 91

Degeneracy

Question 92

T/F - The genetic code is universal

Answer 92

T (Codons for humans are the same for
other organisms as well (with some
exceptions)

Question 93

Codons are matched with ___ in
corresponding transfer RNAs (tRNAs)

Answer 93

anticodons

Question 94

Complementary
pairs of codons

Answer 94

Anticodons

Question 95

T/F - Each codon has a corresponding anticodon, therefore a
corresponding tRNA as well.

Answer 95

T