Quiz 2- Lecture 6: A Brief Review of Genes and Proteins

Question 1

What is central dogma?

Answer 1

The central dogma of molecular biology is a theory stating that genetic information flows only in ONE direction, from DNA, to RNA, to PROTEIN, OR RNA directly to protein

Question 2

2 major differences between DNA and mRNA

Answer 2

DNA is DOUBLE stranded
In DNA, nucleotide THYMINE is used
(ATGC)

mRNA is SINGLE stranded
in RNA, URACIL is used
(AUGC)

Question 3

What is DNA to mRNA called?

Answer 3

Transcription

Question 4

What is mRNA to Protein called?

Answer 4

Translation

Question 5

Who discovered the DNA double helix and when (3)?

Answer 5

Francis Harry Compton Crick, James Dewey Watson, Maurice Hugh Frederick Wilkins

1953 Discovery: DNA Double Helix

Question 6

When was the Nobel Prize for Physiology or Medicine given?
To who (3)?
For what?

Answer 6

The Nobel Prize in Physiology or Medicine was awarded jointly to
Francis Harry Compton Crick, James Dewey Watson, Maurice Hugh Frederick Wilkins
“for their discoveries concerning the molecular structure of nucleic acids and its significance for information transfer in living material”

Question 7

What are the Watson and Crick model’s 4 major features?

Answer 7

1. DNA is double stranded
2. DNA takes on the shape of a double helix, or twisted ladder
3. The two strands are complementary to each other due to Chargaff’s Rule
4. The nitrogenous bases following Chargaff’s Rule always pair up as follows: Adenine (A)-Thymine (T) and Cytosine (C)-Guanine (G)

Question 8

DNA is a ____ with the ____

Answer 8

double-stranded helix, two strands connected by hydrogen bonds

Question 9

What are A bases (Adenine) always paired with?

What are Cs (Cytosine) always paired with?

This is consistent with and accounts for what?

Answer 9

Ts (Thymine)

Gs (Guanine)

Chargaff’s rule

Question 10

What is DNA?
2 poly… are

Answer 10

Antiparallel

Question 11

A single nucleotide is made up of how many components?
What are they?

Answer 11

A single nucleotide is made up of three components
Nitrogen containing base, Five-carbon sugar, Phosphate group

Question 12

The nitrogen containing base is either…

The five-carbon sugar is either a…

Answer 12

Purine or Pyrimidine

Ribose (in RNA) or Deoxyribose (in DNA) molecule

Question 13

What are possible types of pyrimidines? (3)

What are possible types of purines? (2)

Answer 13

Cytosine, Thymine, Uracil (RNA)

Adenine, Guanine

Question 14

Base + Ribose or Deoxyribose -> ?
What follows?

Answer 14

Base + Ribose or deoxyribose -> Nucleoside (base) + Phosphate (P) -> Nucleotide (P and base)

Question 15

What is another difference between DNA and RNA? (Sugar)

Answer 15

DNA- Deoxyribose sugar
RNA- Ribose sugar

Question 16

What does Deoxyribose mean?

Answer 16

Removal of oxygen from ribose sugar

Question 17

How are Eukaryotic Chromosomes structured?

Answer 17

Eukaryotic chromosomes consist of repeated units of chromatin called nucleusomes

Question 18

How were nucleosomes discovered?

Answer 18

Discovered by chemically digesting cellular nuclei and stripping away as much of the outer protein packaging from the DNA as possible

Question 19

The chromatin that resisted digestion had the appearance of ____ in electron micrographs

What are the beads?

Answer 19

“beads on a string”

with the “beads” being nucleosomes positioned at intervals along the length of the DNA molecule

Question 20

What charge do DNA molecules have?

Answer 20

DNA is negatively charged
(because of the presence of phosphate groups in nucleotides)

Question 21

DNA associates with proteins that are…

Answer 21

Positively charged
(Histones are a family of basic proteins that associate with DNA in the nucleus and help condense it into chromatin)
(Histones are positively charged because they contain a very high amount of positively charged amino acids such as lysines and arginines)

Question 22

Nucleosomes are made up of ____ that has complexed with ____

Answer 22

Nucleosomes are made up of double-stranded DNA that has complexed with small proteins called histones

Question 23

The core particle of each nucleosomes consists of what?
How many of each? What are the different types? (4)

Answer 23

The core particle of each nucleosome consists of eight histone molecules,
Two each of four different histone types: H2A, H2B, H3, H4

Question 24

The structure of histones has been…
What does this suggest?

Answer 24

The structure of histones has been strongly conserved across evolution, suggesting that their DNA packaging function is crucially important to all eukaryotic cells

Question 25

What does the diagram of Nucleosome show?

Answer 25

Nucleosome, with DNA in orange and histone proteins in blue

Question 26

The picture here shows…

Answer 26

The eight histone proteins as tubes that follow the protein chain, and shows the DNA as thinner tubes that follow the two strands as they circle around the protein octamer

The tails of the eight protein chains, seen extending outward from the center, are actually longer in reality

Question 27

What is the job of the nucleosome? Why?

What are the two functions?

Answer 27

Paradoxical
Requiring it to perform two opposite functions simultaneously

On one hand, Nucleosomes must be stable, forming tight, sheltering structures that compact the DNA and keep it from harm
On the other hand, Nucleusomes must be labile enough to allow the information in the DNA to be used

Question 28

Polymerases must be…
Why?

Answer 28

Allowed access to the DNA
Both to Transcribe messenger RNA for building new proteins and to Replicate the DNA when the cell divides

Question 29

The methods by which nucleosomes solve these opposed needs is not well understood, but may involve a…

Answer 29

Partial unfolding of the DNA from around the nucleosome, one loop at a time, as the information in the DNA is read

Question 30

What does the diagram with nucleosome doing two functions show?

Answer 30

-1 nucleosome, RNAPII, Transcription (Arrow pointing down)

Question 31

What do Histones do? (2)

Answer 31

Histones carry positive charges (Arginine and Lysine rich) and Bind negatively charged DNA in a specific conformation

Question 32

A. Amino Acids with Electrically Charged Side Chains
Positive (3)

Negative (2)

Answer 32

Arginine, Histidine, Lysine

Aspartic Acid, Glutamic Acid

Question 33

Most amino acids have what structure?

Answer 33

O=

Question 34

Amino acids have lots of what?
It is what charge?

Answer 34

Nitrogen (NH2)
Positively charged

Question 35

B. Amino Acids with Polar Uncharged Side Chains (4)

Answer 35

Serine, Threonine, Asparagine, Glutamine

Question 36

C. Special Cases (3)

Answer 36

Cysteine, Glycine, Proline

Question 37

D. Amino Acids with Hydrophobic Side Chains (8)

Answer 37

Alanine, Valine, Isoleucine, Leucine, Methionine, Phenylalanine, Tyrosine, Tryptophan

Question 38

Apart from their function of ____, nucleosomes also…

Answer 38

Safely packaging DNA, Modify the activity of the genes that they store

Question 39

What is each nucleosome composed of?

Answer 39

Eight “histone” proteins bundled tightly together at the center, encircled by two loops of DNA

Question 40

Unlike most other proteins, how are histone proteins different?
What do they have?

Answer 40

Not completely globular
They have long tails, which comprise nearly a quarter of their length

Question 41

What do histone tails do?

What does the nucleus contain?

In this way, what does the cell do?

Answer 41

The tails extend outward from the compact nucleosome, reaching out to neighboring nucleosomes and binding them tightly together

The nucleus contains regulatory enzymes that chemically modify these tails to weaken their interactions

In this way, the cell makes particular genes more accessible to polymerase, allowing their particular information to be copied and used to build new proteins

Question 42

Why is the slide called Wagging Tails?

Answer 42

Histones have a tail

Question 43

What does genetics mean?

What does epigenetics mean?
Example?
Is it reversible?

What does mutation mean?

Answer 43

Inheritance

Changes in genes that are not heritable
^ Ex: Histone modification, add phosphate group to histone tail
Epigenetics is Reversible

Changes in DNA sequence (Hereditary)

Question 44

What does modified mean?

Answer 44

Helps open nucleosomes

Question 45

A segment of the DNA double helix wraps around each histone core particle how many times?

Answer 45

A little less than twice

Question 46

The exact length of the DNA segment associated with each histone core… BUT

Answer 46

Varies from species to species
But most such segments are approximately 150 base pairs in length

Question 47

What does the end that sticks out from the particle of the histone molecule within the core particle called?
What does it play an important role in?

Answer 47

N-terminal tails
Higher-order chromatin structure and gene expression

Question 48

Each nucleosome is composed of…

Answer 48

DNA wound 1.65 times around eight histone proteins

Question 49

Nucleosomes fold up to form…
Which forms…

Answer 49

A 30-nanometer chromatin fiber
Which forms loops averaging 300 nanometers in length

Question 50

How many chromosomes? How many DNA?

Answer 50

A cell with 46 chromosomes has 46 DNA molecules

Question 51

The 300 nm fibers are compressed and folded to produce what?

Answer 51

A 250 nm-wide fiber, which is tightly coiled into the chromatid of a chromosome

Question 52

Diagram:
At the simplest level, what is chromatin?

Answer 52

A double-stranded helical structure of DNA

Question 53

Diagram:
What is the length of a DNA double helix?

Answer 53

2 nm

Question 54

What is DNA complexed with to form what?

Answer 54

DNA is complexed with Histones to form Nucleosomes

Question 55

Each nucleosome consists of what?
How many times?

Answer 55

Each nucleosome consists of Eight Histone Proteins around which the DNA wraps 1.65 times

Question 56

What does a chromatosome consist of?

Answer 56

A chromatosome consists of a Nucleosome plus the H1 histone

Question 57

What do the nucleusomes fold up to produce?
What does it form?

Answer 57

A 30-nm fiber
That forms loops averaging 300 nm in length

Question 58

What are the 300-nm fibers compressed and folded to produce?

Answer 58

A 250-nm-wide fiber

Question 59

What does tight coiling of the 250-nm fiber produce?

Answer 59

Tight coiling of the 250-nm fiber produces the Chromatid of a chromosome

Question 60

What are the “beads on a string”?

Answer 60

Nucleosome core of eight histone molecules

Question 61

What is the 250-nm-wide fiber coiled into a height of?

Answer 61

700 nm

Question 62

What is a chromosome?

Answer 62

DNA molecule associated with a lot of protein

Question 63

What is shown on picture of chromatin?

Answer 63

A 30-nm fiber of chromatin

Question 64

When are chromosomes Most Compacted?

Answer 64

During Metaphase

Question 65

Comparing the length of metaphase chromosomes to that of naked DNA…

What can this be thought of as akin to?

Answer 65

The packing ratio of DNA in metaphase chromosomes is approximately 10,000:1 (depending on the chromosome)

Taking a rope as long as a football field and compacting it down to less than half an inch (huge compaction level)

Question 66

How is this level of compaction achieved?

Exactly how this is accomplished is unclear, but what may play a role?

Answer 66

This level of compaction is achieved by repeatedly folding chromatin fibers into a hierarchy of multiple loops and coils

Phosphorylation of Histone H1 may play a role

Question 67

What is the difference between neurons and muscle cells?

Answer 67

Neurons: don’t have
Muscle cells: Myoglobin expressed in muscle

Question 68

Basic structure of a gene:
Diagram shows what?

Answer 68

Intron, Exons, Intron, Exon

Question 69

Basic structure of a gene:
Order

Answer 69

Enhancer, Promoter, Exon, Intron, Exon, Intron, Termination Seq.

Question 70

Basic structure of a gene:
Promoter

Answer 70

Transcription factor binding and RNA polymerase recruitment

Question 71

What do the Enhancer and Promoter, which are Regulatory Elements, determine? (2)

Examples of both?

Answer 71

This sequence elements determine WHEN (time) and WHERE (space) the initiation of mRNA synthesis begins

When: time in organism’s life span, time (age) of individual (ex : child- not expressed at this time, adolescence- sexual characters expressed)
Where: space- ex: neurons and muscle cells (expressed in one cell type and not another)

Question 72

What are exons?

Answer 72

Part of the RNA that codes for proteins
“forming RNA”

Question 73

Exons:
The information for the amino acids sequence in the protein is written herein the form of what?

Answer 73

Genetic code

Question 74

Introns:

Answer 74

Junk sequence?
Removed via RNA Splicing

Question 75

Termination Sequence:

Answer 75

This sequence element determines where to stop the mRNA synthesis process
Also determines mRNA stability in the cell

Question 76

Although each codon is specific for only one amino acid (or one stop signal), what is the genetic code described as?
Why?

Answer 76

DEGENERATE, or Redundant
Because a single amino acid may be coded for by more than one codon

Question 77

What is the phosphorylation codon?

Answer 77

AUG (Met)
Most common start codon and it codes for amino acid Methionine

Question 78

What is the genetic code?
Example of variation?

Answer 78

Furthermore, the genetic code is NEARLY UNIVERSAL, with only rare variations reported
For instance, mitochondria have an alternative genetic code with slight variations

Question 79

What are the two “code” diagrams showing?

Answer 79

“Universal” code and mtDNA (Mitochondrial) code

Question 80

Does genetic code overlap?
What does this mean?

Answer 80

It is also important to note that genetic code DOES NOT OVERLAP,
Meaning that each nucleotide is part of only one codon- a single nucleotide cannot be part of two adjacent codons

Question 81

Table 1: Did the code have commas or not?

Answer 81

Non-overlapping code with no “commas” present: CATGAT
Non-overlapping code with comma present (where X is any nucleotide): CATXGAT

Question 82

What is genetic code?

Answer 82

“How everything is written in your body”

Question 83

Properties of genetic code (8)

Answer 83

(1) Code is a Triplet
(2) The Code is Degenerate
(3) The Code is Non-overlapping
(4) The Code is Comma Less
(5) The Code is Unambiguous
(6) The Code is Universal
(7) Co-linearity (DNA Linear…)
(8) Gene Polypeptide Parity (RNA Linear…- specific)

Question 84

What is Co-linearity?

Answer 84

Change in a specific codon in DNA produces a change of amino acid in the corresponding position in the polypeptide
The gene and the polypeptide it codes for are said to be co-linear

Question 85

What is Gene-polypeptide Parity?

Answer 85

A specific gene transcribes a specific mRNA that produces a specific polypeptide
On this basis, a cell can have only as many types of polypeptides as it has types of genes
However, this does not apply to certain viruses which have overlapping genes

Question 86

What processes is a gene expressed through? (2)

Answer 86

Transcription, Translation

Question 87

What happens during transcription?

Translation?

Answer 87

The enzyme RNA polymerase (green) uses DNA as a template to produce a pre-mRNA transcript (pink)

The pre-mRNA is processed to form a mature mRNA molecule that can be TRANSLATED to build the protein molecule (polypeptide) encoded by the original gene

Question 88

Non-Polar Amino Acids: (9)

Answer 88

Glycine (Gly), Alanine (Ala), Valine (Val), Leucine (Leu), Isoleucine (Ile), Methionine (Met), Tryptophan (Trp), Phenylalanine (Phe), Proline (Pro)

Question 89

Polar Amino Acids: (6)

Answer 89

Serine (Ser), Threonine (Thr), Cysteine (Cys), Tyrosine (Tyr), Asparagine (Asn), Glutamine (Gln)

Question 90

Electrically Charged Amino Acids:
Acidic (2)

Answer 90

Aspartic Acid (Asp), Glutamic Acid (Glu)

Question 91

Electrically Charged Amino Acids:
Basic (3)

Answer 91

Lysine (Lys), Arginine (Arg), Histidine (His)

Question 92

Levels of Protein Structure: (4)

Answer 92

Primary Structure (polypeptide chain), Secondary Structure, Tertiary Structure (most proteins in body), Quaternary Structure

Question 93

What is the Secondary Structure dependent on?

Answer 93

Dependent on Hydrogen Bonding

Question 94

What are the two main types of Secondary Structures?

Answer 94

a. The a-helix (alpha helix)
b. The b-sheet (beta sheet)

Question 95

What is the a-helix?

Answer 95

a-helix is a right-handed coiled strand and the hydrogen bonding is WITHIN the strand (INSTRA-strand)

Question 96

What is the b-sheet?

Answer 96

The hydrogen bonding in a b-sheet is BETWEEN strands (INTER-strand)

Question 97

Definition of protein:

Answer 97

Bio molecule (big, organic)
Made up of amino acids

Question 98

What is the overall three-dimensional shape of an entire protein molecule?

Answer 98

Tertiary structure

Question 99

What occurs under physiologic conditions (normal cellular environment)? (2)

Answer 99

1. The Hydrophobic Side-chains of neutral, non-polar amino acids Buried on the Interior of the Protein Molecule thereby shielding them from the aqueous medium
2. The Acidic or Basic Amino Acid Side-chains will generally be Exposed on the Surface of the protein as they are hydrophobic

Question 100

What does hydrophilic mean?

Answer 100

More charge, Helps them dissolve water

Question 101

What does the diagram show?
Distribution of amino acids in Myoglobin:

Answer 101

Hydrophobic in yellow and Charged amino acids in blue

Question 102

“Inside out” amino acid distributions in Porin:
What is the outside covered by?
What about the inside?

Answer 102

1. The outside of Porin (VDAC1) which contacts hydrophobic groups in the membrane is covered largely with hydrophobic residues
2. Whereas the center Includes a water filled channel lined with charged and polar amino acids

Question 103

What is a Quaternary structure?

Answer 103

Spatial arrangement of multi subunit proteins (made of more than one polypeptide chain)

Question 104

Quaternary structure:
Numerous interactions are responsible: (3)

Answer 104

1. Hydrogen bonding
2. Disulfide bridges (a covalent bond derived from two thiol groups):
   The formation of disulfide bridges happen by oxidation of the sulfhydryl groups on cysteine
3. Salt bridges (a link between electrically charged acidic and basic groups)

Question 105

What are disulfide bridges?

Answer 105

Covalent bond derived from two thiol groups

Question 106

How does the formation of disulfide bridges happen?

Answer 106

By oxidation of the sulfhydryl groups on cysteine

Question 107

What are salt bridges?

Answer 107

Link between electrically charged acidic and basic groups

Question 108

Who was Richard Phillips Feynman?
What was he known for? (4)

Answer 108

American theoretical physicist
Path integral formulation of quantum mechanics, Theory of quantum electrodynamics, Physics of the superfluidity of supercooled liquid helium, and His work in particle physics for which he proposed the Parton model

Question 109

When did Feynman receive the Nobel Prize?

Answer 109

For contributions to the development of quantum electrodynamics, Feynman received the Nobel Prize in Physics in 1965 jointly with Schwinger and Tomonaga

Question 110

What are prions?

Answer 110

Prions are infectious proteins which replicate without going through DNA or RNA intermediates
(Particularly notable example of exception to the theory)

Question 111

What disease are prions responsible for?
What does the disease cause?

Answer 111

Prions are responsible for the rare but devastating neurological disease, Creutsfeldt-Jakob, which is a uniformly lethal disease that
Causes degeneration of the nervous system

Question 112

What is scrapie?
What is it classified as?

What can inflected flocks experience?

Answer 112

Fatal, degenerative disease affecting the central nervous system of sheep and goats
Transmissible spongiform encephalopathies (TSE)

Significant production losses

Question 113

What are clinical signs of scrapie?

Answer 113

Due to damage to the nervous system, Affected animals often show behavior changes, such as nervousness or aggression, intense rubbing, and locomotor incoordination that progresses to recumbency and death

Question 114

Infectious proteins:

Answer 114

The concept of an infectious protein, or prion, was proposed in the 1960s to explain scrapie infection

Question 115

What did researchers find out about scrapie?
What did they propose?

Answer 115

Researchers found that the infectious agent that transmits scrapie is resistant to ultraviolet radiation (which typically destroys nucleic acids)
They proposed that this agent was actually protein based

Question 116

Why was the idea that proteins could be infectious by themselves highly controversial?

Answer 116

Because it appeared to challenge the central dogma of molecular biology

Question 117

How did Prusiner show that proteins can indeed be infectious?
What was he awarded?

Answer 117

Eventually, Stanley B. Prusiner and his team purified the prion protein responsible for scrapie
Prusiner was awarded the Nobel Prize in Physiology or Medicine in 1997

Question 118

What are prions also responsible for? (3)

Answer 118

Transmissible spongiform encephalopathies (TSE) that include infectious diseases such as scrapie in sheep
Bovine spongiform encephalopathies (mad cow disease) whose infective form can cause Creutzfeldt-Jakob disease in humans
Kuru, the only epidemic human prion disease known to

Question 119

What is mad cow disease caused by?

Answer 119

Prions that misfold and aggregate

Question 120

Prions are proteins that can adopt which two forms?
Why may this not seem unusual?

Answer 120

A Normal form and a Misfolded form
Since many proteins are flexible and adopt different shapes

Question 121

What is another unusual characteristic of prions?
In this way, what happens?

Example?

Answer 121

The misfolded form of the prion can force normal prions to change into the misfolded shape
A few misfolded prions can corrupt a whole population of normal prions, converting them one-by-one into the misfolded shape
(This can have deadly consequences, as the levels of misfolded proteins build up)

Misfolding of the PrP prion causes fatal neural diseases in humans and other mammals

Question 122

Misfolded prions are…

Answer 122

Infectious, so a small dose of misfolded prions can infect and corrupt an entire organism

Question 123

What happens when the normal form of prion protein PrP changes into its misfolded shape?

When does infection occur?

Answer 123

It aggregates into long fibrils that clog up the normal functioning of the brain

Infection occurs when a little bit of misfolded protein is eaten or accidentally gets into the blood through an injury

Question 124

What does the Prion Protein (PrP) have?

Answer 124

A lipid attached at the bottom, which normally anchors the protein to the surface of nerve cells, and two carbohydrate chains (all shown in orange)
The rest of the protein chain is largely flexible

(PrP still holds many mysteries. It is found on nerve cells, but its precise function is still a matter of conjecture)

Question 125

What is misfolding produced by?

Answer 125

An incorrect folding process that results in the formation of a protein with a different conformation from its native fold

Question 126

Protein misfolding can occur by several reasons: (6)

Answer 126

1) Somatic mutations in the gene sequence leading to the production of a protein unable to adopt the native folding
2) Errors on the processes of transcription or translation leading to the production of modified proteins unable to properly fold
3) Failure of the folding and chaperone machinery
4) Mistakes on the post-translational modifications or trafficking of proteins
5) Structural modification produced by environmental changes or
6) Induction of protein misfolding by seeding and cross-seeding mechanisms

Question 127

Healthy (PrPc) vs Prion disease (PrPSc)

Answer 127

Healthy (PrPc):
- monomeric
- high a-helix

Prion disease (PrPSc)
- multimeric amyloid fibril
- parallel in-register architecture
- high b-sheet