BIOLOGY | Unit 3 AOS 1 - Nucleic acids and Proteins

Question 1

The proteome

Answer 1

The complete set of proteins expressed by the genome at a particular time.

Question 2

How do cells create proteins?

Answer 2

Proteins are made of amino acids linked by peptide bonds to form a polypeptide chain, which folds into a specific shape for the protein to become functional.

Question 3

R group

Answer 3

Determines the chemical properties of the amino acid and the folding of the final protein.

Question 4

Primary structure

Answer 4

A sequence of a chain of amino acids that make up a polypeptide chain

Question 5

Secondary structure

Answer 5

Folding and coiling of the polypeptide chain due to hydrogen bonds. Structures can be an alpha helix, beta sheet or a random coil.

Question 6

Tertiary structure

Answer 6

The 3D shape of a functional protein from the folding of the polypeptide chain, determined by the “R” group.

Question 7

Quaternary structure

Answer 7

Consists of 2 or more polypeptide chains, held together by covalent bonds.

Question 8

Conjugated proteins

Answer 8

Protein joined in an interaction with other (non-polypeptide) chemical groups.

Question 9

How does DNA code for a protein?

Answer 9

• In the nucleus, DNA for a gene is copied through transcription, the gene copy is pre-mRNA.
• Pre-mRNA then undergoes RNA processing to become mRNA.
• mRNA leaves the nucleus and is translated into protein at the ribosomes.

Question 10

What are the coding regions for eukaryotes?

Answer 10

Introns (non-coding section) and Extrons (coding sections)

Question 11

Promoter (TATA box) function?

Answer 11

Upstream of the coding region and contains a DNA sequence that RNA polymerase binds to start transcription.

Question 12

Process of Transcription

Question 13

Operator (prokaryotes)

Answer 13

Site where repressor proteins can bind to inhibit gene transcription.

Question 14

Terminator

Answer 14

DNA sequence that signals for the end of transcription.

Question 15

RNA and DNA order of reading?

Answer 15

RNA: 3’ to 5’ end
DNA: 5’ to 3’ end

Question 16

DNA’s two antiparallel strands

Answer 16

1) coding strand (5’ to 3’) and determines correct nucleotide sequence for mRNA.

2) template strand (3’ to 5’) which is transcribed into mRNA.

Question 17

Process of Transcription

Answer 17

1) RNA polymerase binds to the promoter region and the DNA unwinds and strands seperate.

2) RNA polymerase moves along the template strand (3’ to 5’). Free-floating RNA nucleotides bind to complementary bases on the DNA strand, generating pre-mRNA that runs in a 5’ to 3’ direction.

3) At the terminator region, RNA polymerase and pre-mRNA strand detach from the DNA, and the DNA unwinds.

4) In eukaryotes, the pre-mRNA then undergoes RNA processing to make mRNA which can then leave the nucleus.

Question 18

Where in the cell does Transcription occur?

Answer 18

In the nucleus of the cell.

Question 19

RNA processing

Answer 19

• A methyl cap is added to the 5’ end which protects mRNA from degradation and helps attach mRNA to ribosomes during translation.
• A poly (A) tail is added to the 3’ end which protects mRNA from degradation and facilitates the export of mRNA from the nucleus.

Question 20

Splicing

Answer 20

• Introns are removed ( as they are non-coding sections ) and the exons are spliced together ( they are coding sections ). This process is aided by spliceosomes.
• As the exons are spliced together, this provides the code for protein synthesis.

Question 21

Alternative splicing

Answer 21

To make multiple different proteins from the same gene, it’s possible to change which exons are spliced into the processed mRNA. This changes the order of the exons in the final mRNA.

Question 22

mRNA

Answer 22

-After RNA processing or post transcriptional modifications, the pre-mRNA is now mRNA.

-This mRNA can now be transported out of the nucleus to the ribosome to be translated into a polypeptide.

Question 23

Process of Translation

Answer 23

• mRNA strand enters the ribosome.
• Ribosome reads codon in 5’ - 3’ direction.
• tRNA delivers amino acids by matching complementary anticodons with mRNA codons.
• Peptide bonds form between amino acids.
• Stops at stop codon, releasing polypeptide.

Question 24

Translation occurs at the ribosome

Answer 24

• Ribosomes are tightly folded rRNA that can be found free-floating in the cytosol or attached to the rough endoplasmic reticulum.
• Amino acids are joined together by the ribosome which is reading the instructions for the mRNA.

Question 25

Where in the cell does translation occur?

Answer 25

cytosol

Question 26

What is gene regulation?

Answer 26

The process by which cells control the expression of genes, turning them on or off as needed.

Question 27

What is a structural gene?

Answer 27

A gene that codes for a protein product required for the functioning of the cell.

Question 28

What is the role of regulatory genes?

Answer 28

Regulatory genes code for proteins that promote or inhibit the expression of structural genes.

Question 29

What is the trp operon?

Answer 29

A group of genes that code for enzyme proteins required to synthesize the amino acid, tryptophan.

Question 30

List the five structural genes in the trp operon.

Answer 30

* trpE * trpD * trpC * trpB * trpA

Question 31

What is the function of the leader region in the trp operon?

Answer 31

It sits between the operator region and the structural genes and is involved in regulating transcription.

Question 32

Where is the regulatory gene trpR located?

Answer 32

Upstream of the structural genes in the trp operon.

Question 33

What does the trpR gene encode?

Answer 33

A repressor protein.

Question 34

How does repression occur in the trp operon?

Answer 34

High levels of tryptophan cause the repressor protein to bind to the operator, blocking transcription.

Question 35

What happens when tryptophan levels are low?

Answer 35

The inactive repressor cannot bind to the operator, allowing RNA polymerase to transcribe the structural genes.

Question 36

What is attenuation in the context of the trp operon?

Answer 36

A regulatory mechanism that stops transcription early in response to high levels of tRNA-bound tryptophan.

Question 37

True or False: Attenuation occurs because transcription and translation are separated by a nuclear membrane in prokaryotes.

Answer 37

False

Question 38

What happens when the ribosome reaches the leader region during attenuation?

Answer 38

If tRNA-bound tryptophan is high, the ribosome translates the two trp codons quickly, forming a terminator loop.

Question 39

What is the outcome of the terminator loop formed during attenuation?

Answer 39

It causes the mRNA to detach from the DNA and results in a short (attenuated) mRNA sequence.

Question 40

What are the two main mechanisms by which high levels of tryptophan regulate the trp operon?

Answer 40

* Repression * Attenuation

Question 41

Fill in the blank: The _______ protein blocks RNA polymerase from transcribing the structural genes when tryptophan levels are high.

Answer 41

[repressor]

Question 42

What is the significance of cells regulating protein expression?

Answer 42

It allows for cell specialization and energy conservation.

Question 43

What is the function of the rough endoplasmic reticulum?

Answer 43

Folds proteins synthesised from the attached ribosomes and transports them to the Golgi apparatus.

Question 44

What does the Golgi apparatus do?

Answer 44

Modifies and packages proteins for export from the cell.

Question 45

What are secretory vesicles?

Answer 45

Fuse to the plasma membrane to export substances via exocytosis.

Question 46

What is the role of ribosomes?

Answer 46

Synthesise protein polypeptides from amino acids.

Question 47

What is exocytosis?

Answer 47

The bulk movement of substances out of the cell via vesicles.