DNA flashcards

Question 1

Central dogma

Answer 1

DNA–mRNA–protein

Question 2

mRNA can be ___

Answer 2

edited; spliced
- edits out INTRONS keeps EXONS

Question 3

codons read in chunks of three

Answer 3

triplet code, provides more combinations

Question 4

the genetic code

Answer 4

idea that proteins were made from specific sequences or amino acids

Question 5

Features of the genetic code

Answer 5

1) continuity
- no spaces, punctuation, overlap
- knowing where to start is essential to establish the correct sequence “THE READING FRAME”

2) redundancy
- 64 codons, 20 amino acids
- 3 are STOP codons
- 1 start codon METHIONINE
- each amino acid has around 3 codons

3) Universality
- code is the same in all organisms EXCEPT MITOCHONDRIA and CHLOROPLAST
- established in the early history of life
- therefore, a gene from 1 organism can be taken and expressed in ANY other organism

Question 6

example of redundancy

Answer 6

gene from bacteria that kills pests goes into corn to produce pest-resistant corn

Question 7

Transcription

Answer 7

converts a gene into a single-stranded RNA molecule
- RNA carries DNA’s instructions
- central dogma

OBJECT: creating an accurate copy of a SMALL SECTION of a genome

Question 8

Transcription results in 3 types of RNA, which are?

Answer 8

1) mRNA: carries the message that will be translated into a protein
2) rRNA: forms part of ribosomes where proteins are made
3) tRNA: brings amino acids from the cytoplasm to ribosome

Question 9

initiation (transcription)

Answer 9

sense vs template strand
- the template strand is what is being transcribed (produce 5 to 3 from 3 to 5)
- the sense strand is used to tell you what each strand looks like

Question 10

how many strands of DNA are needed/used to make a protein

Answer 10

1 strand, the other one is used for DNA replication

Question 11

the TATA box

Answer 11

• binding site of RNA polymerase
• 2 promoter sequences signal a gene (diff sequences)
• genes start at the end of promoter 2

Question 12

the promoter sequence does what

Answer 12

ID’s the correct strand and location
- tells us WHERE to start
- where transcription starts

Question 13

(transcription) Elongation

Answer 13

• transcription is catalyzed by RNA polymerase
• RNA polymerase and other proteins form a transcription complex near the promoters
• the transcription complex recognize the start of a gene and unwinds a segment of it

Question 14

termination (transcription)

Answer 14

• RNA polymerase hits terminator sequences
• mRNA separates from RNA polymerase which detaches from DNA

Question 15

Difference of translation between prokaryotes and eukaryotes

Answer 15

prokaryotes: translation happens right after, no introns/nucleus for exportation

eukaryotes: processing of mRNA is needed before the translation is in a polypeptide chain (introns must be removed; editing)

Question 16

processing (transcription, mRNA editing)

Answer 16

• 5’ methyl-cap and poly-a-tail is added to mRNA

5 leader sequence for translation
3 tail-end allows it to be used multiple times

Question 17

intron splicing

Answer 17

• cut out introns with spliceosomes (snRPs)
• glue exons they want together

Question 18

transcription is similar to replication

Answer 18

both are:
- complementary, anti-parallel, mRNA from 5 to 3, U instead of T

• transcription and replication both involve complex enzymes and complementary base pairings
• the two processes have different end results

REPLICATION COPISE ALL DNA TO MAKE 1 COPY
TRANSCRIPTION COPIES A GENE TO MAKE MANY COPIES

Question 19

Protein synthesis: translation

Answer 19

objective: create an amino acid chain from a section of mRNA
- occurs in the cytoplasm

• an anticodon is a set of nucleotides that is COMPLEMENTARY to an mRNA codon (also anti-parallel)
• an anticodon is carried by tRNA
• if the anti-codon has INOSINE, its part of the wobble effect

Question 20

inosine

Answer 20

wildcard codon that can match up with anything

Question 21

activation enzymes

Answer 21

• responsible for attaching the proper a.a. to the proper tRNA

Question 22

ribosomes

Answer 22

• different kinds of protein with rNA that consist of 2 subunits
• provide the site for protein synthesis in the cytoplasm bringing together the aa-tRNA and some enzyme
• each ribosome has a binding sites for the mRNA and 3 sites for the aa-tRNA complexes

Question 23

translation steps

Answer 23

1) initiation
2) elongation
4) termination

Question 24

initiation for translation

Answer 24

a sequence of the 5’ to 3’ end of the mRNA binds to a piece of RNA on the small subunit

Question 25

elongation (translation)

Answer 25

- the aa-tRNA with the straight anti-codon attaches to P-site

Question 26

the cyclical steps

Answer 26

1) translation starting - 5' end of mRNA bind to small section of ribosome - tRNA binds to a start codon at P-site because of the codon anticodon match and this signals the rest of the ribosome of assemble 2) complementary trna BINDS to exposed codon and A-site bringing its a.a. closer to the first a.a. and breaks the bond 3) ribosome helps form a polypeptide bond between amino acids 4) ribosome moves along the mRNA strand the length of one codon, shifting the tRNA along (a-p-e) 5) empty RNA tRNA no molecule exits ribosome 6) complementary tRNA molecule binds to next exposed codons 7) RNA's one through the the sites in order (a-p-e) 8) Once the stop codon is reached, the ribosome releases the point of protein and it disassembling

Question 27

what are proteins build from

Answer 27

ribosome

Question 28

terminator In translation

Answer 28

- once is the polypeptide chain detaches from the ribosome tRNA complex interactions such as H bonds abd disulphide bridges give the polypeptide chain its 3D structure

Question 29

what is a gene composed of

Answer 29

- 2 promoters (TATA is common) - 2 terminators - introns and exons - operon sequence, at times

Question 30

enzymes will attach and be set up by _____?

Answer 30

promoters

Question 31

RNA polymerase does what?

Answer 31

unzips and copies DNA

Question 32

what factors are involved in transcription

Answer 32

1) DNA 2) transcription factors 3) RNA polymerase 4) ATP @ the end, RNA polymerase disassociates and the strand is removed

Question 33

transcription vs translation

Answer 33

- TRANSCRIPTION is copying - TRANSLATING is conversion, where you convert mRNA to a polypeptide and occurs in the cytoplasm

Question 34

gene control/expression

Answer 34

the method that cells use to control when genes are transcribed (copied)

Question 35

how does the lacoperon work?

Answer 35

In the absence of lactose, a repressor protein binds to the operator region, preventing transcription of the lac genes. When lactose is present, it acts as an inducer, binding to the repressor and allowing RNA polymerase to transcribe the lac genes, enabling the bacteria to utilize lactose for energy.

Question 36

cells use what to ensure energy is spent wisely

Answer 36

feedback mechanisms that are used to regulate transcription - regulate when genes are expressed

Question 37

what is a feedback inhibition mechanism

Answer 37

- product of pathway blocking an enzyme at the start

Question 38

operon model

Answer 38

- structural genes involved in the same process that are clustered together - ends with a terminator sequence - the promoter region contains the OPERATOR (where the DNA segment allows for a gene to be transcribed, switches for genes to turn into proteins)

Question 39

repressor proteins

Answer 39

- binds to the operator sequence - blocks RNA polymerase from attaching to promoters

Question 40

inducer

Answer 40

molecule attached to repressor protein and changes its shape so it falls off operator sequence

Question 41

lacoperon

Answer 41

- has 3 genes that code proteins, enzymes that break down lactose LACTOSE= inducer molecule=presence turns on genes - binds to receptor to turn transcription on

Question 42

inducible system

Answer 42

presence of a molecule allows for change to occurred repressor will bind to the operator sequence again, therefore proteins are only made when needed

Question 43

trp Operon

Answer 43

- lac operon in reverse - genes are ON until a molecule showed up, causes the repressor to bind to the operator to shut production down

Question 44

trp gene off

Answer 44

tryptophan is present in high amounts, it binds to receptors and activates it

Question 45

gene Ion

Answer 45

repressor protein is inactive

Question 46

different sets of genes are...

Answer 46

expressed in various ways - transcription is controlled by DNA sequence/protein transcription - each gene was a combo of regulatory sequences

Question 47

what is an allele

Answer 47

versions of a gene that are inherited for a certain characteristic and can be dominant or recessive

Question 48

many times, the third base in a triplet isn't as important, what is this caused by?

Answer 48

the wobble effect which uses inosine as a wildcard and provides flexibility for protections and mutations

Question 49

what is transcription initiated by

Answer 49

the attachment of promoters

Question 50

changes in genetic code can cause

Answer 50

differences in the amino acids present

Question 51

function of a repressor

Answer 51

blocks RNA poly from sticking to promoters

Question 52

a gene with an operator sequence

Answer 52

an operon

Question 53

mutations

Answer 53

changes in the DNA that may/may not affect phenotype (may not due to the wobble effect) - occur randomly and spontaneously (arise from errors in replication)

Question 54

induced mutations

Answer 54

can be forced by mutagens, direct cause involved

Question 55

mutagen

Answer 55

anything that can cause a mutation

Question 56

cancer

Answer 56

an accumulation of a series of mutations that don't necessarily have to be the same

Question 57

common causes of DNA damage

Answer 57

(replication issues) - DNA mismatch - single-strand break - double strand break - interstrand crosslinks - (problems with bonding)

Question 58

germ like mutations

Answer 58

heritable, germ line cells are those that happened in cells that become genetics

Question 59

gametic mutations

Answer 59

occur in the gonads, contribute new alleles to gene pools (new version of a protein)

Question 60

somatic mutations

Answer 60

occur in body tissues and aren't passed on occur in the testes of males and ovaries of females

Question 61

heritable mutations can lead to changes

Answer 61

in the gene pool, where new mutations can either be: harmful, neutral, or advantageous

Question 62

ex. albino alligator

Answer 62

harmful: easier to detect to predator, inability to camouflage, inability for temperature regulation

Question 63

types of mutations

Answer 63

Point mutations involve changes in a single nucleotide base pair, either through substitution, insertion, or deletion, chromosomal mutations affect larger segments of DNA, such as entire genes or chromosomes, resulting in alterations to the structure or number of chromosomes(inversion)

Question 64

red sensing cones

Answer 64

helps us determine that without people being colourblind, we all perceive ,mutations differently

Question 65

3 possible outcomes of mutations

Answer 65

1) silent: no charge in an amino acids sequence 2) beneficial 3) missense-new amino acid 5- early STOP action

Question 66

3 values of mutations

Answer 66

1) beneficial, improves functioning or survival 2_ harmful: reduces fitness 3- silent : makes no shift during the time

Question 67

what parts of a gene don't show up in the polypeptide chain?

Answer 67

- promoter, terminator, operator sequence the introns and exons do UNTIL the intron is edited out during mRNA editing by spliceosomes so ultimately the exons

Question 68

not all mutations affect the phenotype, why?

Answer 68

due to the wobble effect: the presence of inosine where you only need the first two bases correct

Question 69

what would happen if a mutation occurred to promoters or terminators

Answer 69

promoters: turns off genes permanently if you only mutate 1 because there has to be 2 promoters, creating the idea of pseudogenes terminators: would never end (transcription) because nothing is telling it to stop, possibly a new amino acid

Question 70

do promoters get transcribed from DNA to RNA

Answer 70

no, because transcription begins AFTER the promoter

Question 71

do the 5' methyl cap and poly-a-tail get transcribed

Answer 71

no

Question 72

missense substitution

Answer 72

a single base is substituted for another base leaving a codon that codes for a different amino acid

Question 73

nonsense substitution

Answer 73

some amino acids can be coded for by 4 or 6 different codons and are therefore less affected by substitutions

Question 74

reading frame shift by insertion

Answer 74

single extra base is inserted into the DNA sequence, this displaces other bases and creates a new sequence of codons can also lead to nonsense

Question 75

reading frame shift by deletion

Answer 75

causing a frame shift, can lead to nonsense, deletion of base

Question 76

partial reading frame shift

Answer 76

both an insertion and a deletion of bases within a gene can cause a frame shift effect where each codon no longer has the correct triplet of three bases - there is no more biological activity if the amino acids altered are important to the functioning of the resulting proteins

Question 77

reading frame shift

Answer 77

type of mutation that occurs when the normal grouping of codons are disrupted

Question 78

chromosomal mutations

Answer 78

- deletion - inversion - translocation - duplication