molecular biology of gene expression

Question 1

central dogma of biology

Answer 1

DNA -> RNA -> PROTEIN

Basic plan of genetic information flow in living cells that relates genes
(DNA), message (RNA), and proteins

Question 2

what are the two essential features of living creatures?

Answer 2

1) ability to reproduce own genome
2) ability to manufacture own energy

Question 3

Why are proteins essential?

Answer 3

1) cellular architecture
2) catalysts
3) controler of cellular processes
4) act as communication channels

Question 4

transcription

Answer 4

Process by which information from DNA is converted into its RNA equivalent - making an RNA copy of the DNA code

Question 5

mRNA

Answer 5

messenger RNA: type of single-stranded RNA involved in protein synthesis and is made from a DNA template during the process of transcription.

Question 6

translation

Answer 6

Making a protein using the information provided by messenger RNA

Question 7

What are the basic steps of transcription?

Answer 7

1) uncoiling DNA
2) melting the strands
3) moving histones
4) making complementary RNA molecule from DNA template
5) stopping at the end of gene
6) RNA releases and DNA re-supercoils

Question 8

template

Answer 8

Strand of DNA used as a guide for synthesizing a new strand by complementary base-pairing

Question 9

RNA polymerase

Answer 9

Enzyme that synthesizes RNA

Question 10

Housekeeping Genes

Answer 10

Genes that are switched on all the time because they are needed for
essential life functions - encode proteins that are used continuously

Question 11

expressed (as pertaining to genes)

Answer 11

Converting a DNA region into RNA and/or protein to be used by the living cell

accessory proteins and inducers control gene expression.

Question 12

what are the three main types of RNA and how are they used?

Answer 12

1) mRNA - translated into proteins and generated by structural genes (genes that encode protein)
2) rRNA - ribosomal RNA (regulatory - not translated)
3) tRNA - transfer RNA (regulatory - not translated)

Question 13

ribozymes

Answer 13

RNA molecule that acts as an enzyme

Question 14

cistron

Answer 14

Segment of DNA (or RNA) that encodes a single polypeptide chain

coding region of a gene

Question 15

structural gene

Answer 15

Sequence of DNA (or RNA) that codes for a protein or for an untranslated RNA molecule
- related to a cistron

Question 16

open reading frame (orf)

Answer 16

Sequence of bases (either in DNA or RNA) that can be translated (at least in theory) to give a protein - not interrupted by any stop codons for protein translation

Question 17

promoter

Answer 17

Region of DNA in front of a gene that binds RNA polymerase and so promotes gene expression - place where transcription begins

BODER DEF: sequence that tells RNA polymerase where to bind and begin

Question 18

Where are the two major recognition sites for bacterial promoters?

Answer 18

1) the -10 region (consensus sequence: TATAA)
2) the -35 region (consensus sequence: TTGACA)

the negative sign indicates that the location is upstream (before start site)

Question 19

constitutively

Answer 19

Term used to describe genes that are expressed during all conditions

when a gene is transcribed constitutively, the promoter will closely match the consensus

Question 20

consensus sequence

Answer 20

The ideal sequence - A theoretical representative nucleotide or amino acid sequence in which each nucleotide or amino acid is the one which occurs most frequently at that site in the different sequences which occur in nature.

Question 21

activator protein

Answer 21

Protein that switches a gene on - required to bind to a promoter region when a gene is expressed only during special conditions

related to transcription factors

Question 22

transcription factors

Answer 22

Protein that regulates gene expression by binding to DNA in the control region of the gene - related to activator protein

Question 23

transcription start site

Answer 23

Starting point where a gene is converted into its RNA copy - where RNA polymerase will start adding nucleotides

Question 24

5′ untranslated region (5′ UTR)

Answer 24

Region of an mRNA between the 5′ end and the translation start site - not made into protein, just has regulatory elements

Question 25

3′ untranslated region (3′ UTR)

Answer 25

Sequence at the 3′ end of mRNA, downstream of the final stop codon that is not translated into protein - not made into protein, just has regulatory elements

Question 26

What is the physical layout of transcription?

Answer 26

transcription start site - 5’ UTR - ORF - 3’ UTR - termination sequence

Question 27

sigma subunit

Answer 27

Subunit of BACTERIAL RNA polymerase that recognizes and binds to the promoter sequence

Question 28

core enzyme

Answer 28

the part of DNA or RNA polymerase that synthesizes new DNA or RNA (i.e., lacking the recognition and/or attachment subunits)

Question 29

In what direction does RNA polymerase synthesize new nucleotides?

Answer 29

only in 5’ to 3’

Question 30

what does the 3D structure of RNA polymerase look like?

Answer 30

has a deep groove for template DNA and a minor groove for the growing RNA

Question 31

which DNA strand serves as the template for RNA synthesis?

Answer 31

The antisense strand, denoted by a minus sign. NOT the coding strand

Question 32

secondary structure

Answer 32

folding of a polypeptide chain, resulting in an alpha helix, beta sheet or a random coil structure - the clover leaf structure of tRNA.

basically RNA doesn’t have to exist in only single strands

Question 33

exon

Answer 33

Segment of a gene that codes for protein and that is still present in the messenger RNA after processing is complete

aka coding strand of eukaryotic genes that are expressed as protein

Question 34

intron

Answer 34

Segment of a gene that does not code for protein but is transcribed and forms part of the primary transcript

aka noncoding stretch of eukaryotic genes that is removed from the mRNA transcript by splicing

Question 35

splicing

Answer 35

the process by which introns, the noncoding regions of genes, are excised out of the primary messenger RNA transcript

Question 36

alternative splicing

Answer 36

alterations in how the exons are stitched together

tbh this is a stupid name for this term just call it joining or something.

Question 37

ribosome

Answer 37

molecular machine that translates the genetic code contained in mRNA into a protein amino acid sequence - comprised of proteins and two types of rRNA

Question 38

tRNA function

Answer 38

transfers amino acids to a growing protein chain during translation - has a secondary structure.

Question 39

charged (in terms of tRNA)

Answer 39

when a tRNA is covalently bound to its amino acid

Question 40

inosine

Answer 40

a modified nitrogenous base in the first position of the anticodon of tRNA that has the ability to bond with all of the mRNA nucleotide bases - contributes to degeneracy of code.

lack of specificity = WOBBLE

Question 41

what are the three steps of translation?

Answer 41

1) initiation
2) elongation
3) termination

Question 42

what is the start codon and what amino acid does it specify?

Answer 42

AUG

methionine (formyl methionine in prokaryotes)

-all proteins begin with met

Question 43

Shine-Dalgarno sequence

Answer 43

special short sequence in prokaryotes near the AUG start codon of mRNA where binding of small ribosomal subunit to mRNA polymer occurs to generate the translation apparatus.

Question 44

how does the translation apparatus form in eukaryotes

Answer 44

Met-tRNA binds to small ribosomal subunit and protein factors -> whole thing binds to mRNA at 5’ end and then travels in 3’ direction until start codon is reached -> large ribosomal subunit assembles.

Question 45

what are the three sites of the ribosome?

Answer 45

1) E (exit)
2) P (peptidyl)
3) A (aminoacyl)

Question 46

how does the tRNA move through the 3 ribosomal sites?

Answer 46

1) initiator rRNA and initiation complex is formed in the P site
2) tRNA binds in the A site - tRNA with correct anticodon will be trapped there
3) A site amino acid displaces P site t RNA
4) whole assemble translocates in the 5’ -> 3’ along the mRNA by one codon which takes it to the E site (this leaves the second tRNA in the P site and nothing in the A site)
5) tRNA is released from ribosome
6) new charged tRNA matching the third codon will enter the A site (which displaces the P site)
7) process continues

Question 47

what are the termination codons?

Answer 47

TAA, TAG, TGA

no tRNA contain anticodons to these

Question 48

how does termination complete?

Answer 48

amino acid chain is cleaved from tRNA and a full length protein is released

Question 49

operon

Answer 49

a cluster of genes that are transcribed together to give a single messenger RNA (mRNA) molecule, which therefore encodes multiple proteins

• made up of a promoter, an operator, a regulatory gene, and one or more structural genes

Question 50

operator

Answer 50

lies adjacent to or overlaps with the promoter - serves as the binding site for a protein

Question 51

repressor

Answer 51

a protein that inhibits the expression of one or more genes - by binding to the promoter to stop RNA polymerase from binding to the promotor.

encoded by a regulatory gene

Question 52

how are repressors controlled?

Answer 52

by chemicals in the metabolic pathway - changing the concentration of the chemical changes the status of the operon

Question 53

lac operon

Answer 53

the cluster of genes involved in metabolism of lactose

Question 54

inducible operon

Answer 54

one whose expression increases quantitatively in response to an enhancer, an inducer, or a positive regulator.

Question 55

trp operon

Answer 55

operon involved in making tryptophan

Question 56

repressible operon

Answer 56

operon that is turned off by a metabolic substance (co-repressor)

Question 57

what did Khorana, Nirenberg, and Holley do?

Answer 57

indentified which triplet codons coded for which amino acid

Question 58

Can exons be rearranged during splicing

Answer 58

NO! the exons can be left out but not rearranged!!