Translation, Transcription, and Other Notes for Unit 5

Question 1

(NJCTL) capsid is everything on … of the phage and is made of …

Answer 1

exterior; protein

Question 2

(NJCTL) In Hershey and Chase’s experiment, bacteria and viruses were mixed to increase the … of phages

Answer 2

concentration

Question 3

(NJCTL) In Hershey and Chase’s experiment, the bacteria that were mixed with radioactive sulfur viruses were not radioactive because … the bacteria

Answer 3

the capsid doesn’t enter

Question 4

(NJCTL) A chromosome is an organized structure of … and … found in cells. It is a single piece of … DNA containing many …

Answer 4

DNA; protein; coiled; genes

Question 5

(NJCTL) The DNA molecule may be … or …, and can be composed of … to over … nucleotides in a long chain.

Answer 5

circular; linear; 100,000; 3,750,000,000

Question 6

(NJCTL) scaffolding proteins allow for more

Answer 6

coiling

Question 7

(NJCTL) chromosomes are haploid in … and … cells and are diploid in … cells

Answer 7

egg; sperm; all other

Question 8

(NJCTL) a karyotype is a … of the actual … of an individual human.

Answer 8

photograph; chromosomes

Question 9

(NJCTL) Karyotype: a … is isolated and the chromosomes are removed and … They can be used to learn about possible chromosomal …

Answer 9

nucleus; arranged; abnormalities

Question 10

(NJCTL) A strand of DNA is replicated in segments. At intervals down the DNA molecule, portions of the 2 strands separate creating … Either side of this is known as a ..

Answer 10

replication bubbles; replication fork

Question 11

(NJCTL) DNA replication is a precise process that must … To do this cells use many enzymes in a complex process that uses … to create new DNA molecules

Answer 11

minimize error; template strands

Question 12

(NJCTL) PCR (polymerase chain reaction) is a technique which uses the principles of … to amplify the amount of DNA available for testing and manipulation. This reaction is carried out by a special machine that utilizes repeating cycles of …, …, …, and … to build copies of the DNA fragment

Answer 12

DNA replication; heat; DNA polymerase; DNA primers; free nucleotides

Question 13

(NJCTL) PCR enables small amounts of DNA to be turned into … amounts

Answer 13

large

Question 14

(NJCTL) PCR works in the following steps:
1. DNA is … to high …, the DNA strands …, separating the double helix
2. DNA is …, … and … in the mixture … to the DNA
3. The temperature is slightly … to increase the rate of … reactions
The cycle is repeated, … the amount of DNA each cycle

Answer 14

heated; temperatures; denature; cooled; primers; polymerase; anneal; increased; replication; doubling

Question 15

(NJCTL) expressing the information stored on a gene into a protein requires:
… from the 4 letter language of DNA to RNA, then from the 4 letter language of RNA, to the … letter language of proteins (their amino acid sequences)

Answer 15

translating; 20

Question 16

(NJCTL) The mRNA message is read in 3-letter words called …, each of which codes for an … or tells the process to …

Answer 16

codons; amino acid; stop

Question 17

(NJCTL) There are … codons, but only … amino acids. So some codons code for the same amino acid

Answer 17

64; 20

Question 18

(NJCTL) … of the codons code for an amino acid, … of the remaining codons are … codons that do not code for an amino acid. These signal that … is over
… codon that codes for the amino acid … is also the … codon. … is always the first amino acid in a protein

Answer 18

51; 3; stop; translation; 1; methionine; start; methionine

Question 19

(NJCTL) This is called a universal code because … uses the same genetic code. This tells us that this code goes back …, in the first cell or even before that. If there were alternative codes that could work, they would have appeared in nature. There are very minor alterations, but they are rare and insignificant in their effect

Answer 19

all life; billions of years

Question 20

(NJCTL) The processes of replication, transcription, and translation are so critical that they are called the … of biology

Answer 20

central dogma

Question 21

(NJCTL) a dogma is a …, an …, a …

it is central because it is what … is based on

Answer 21

postulate; idea; philosophy; life

Question 22

(NJCTL) The central dogma is a one way process. Changes in DNA affect … and …, but changes in proteins or mRNA do not affect the …

Answer 22

mRNA; protein; DNA

Question 23

(NJCTL) Transcription is the first step of gene expression, in which a particular segment of DNA is copied into RNA by the enzyme

Answer 23

RNA polymerase

Question 24

(NJCTL) Transcription of genes is regulated by the … Genes are turned on and off in response to …

Answer 24

cell; environmental signals

Question 25

(NJCTL) The control region is where … bind to the gene. When all the necessary factors are combined, RNA polymerase can bind to the gene and initiate …

Answer 25

transcription factors; transcription

Question 26

(NJCTL) transcription is initiated when RNA polymerase and cofactors bind to the … (a section of the control region). The RNA polymerase unwinds the DNA creating an …, a space that grants RNA polymerase access to a … of the DNA molecule

Answer 26

promoter; initiation bubble; single strand

Question 27

(NJCTL) The RNA polymerase never attaches to the strand that actually … the … The strand with the genes is called the “…” strand. This is not the strand that is …

Answer 27

contains; gene; non-template strand; transcribed

Question 28

(NJCTL) The other strand is the … image of the non-template strand, and it carries the … image of the gene, not the gene itself. It is called the “…” This is the strand where the … attaches

Answer 28

mirror; mirror; template; RNA polymerase

Question 29

(NJCTL) the template strand is used because RNA will be the … of the DNA it is transcribed from. And the non-coding strand is the mirror image of the gene. As such, the non-template strand of DNA (the gene) matches the new ..

Answer 29

mirror image; RNA strand

Question 30

(NJCTL) To make the RNA strand, RNA polymerase runs down the DNA template strand … the … and bringing in the new RNA … with the proper complementary bases. As the RNA polymerase runs down the DNA, it … it

Answer 30

reading; bases; nucleotides; unwinds

Question 31

(NJCTL) transcription is made possible by the fact that the different bases are attracted to one another in pairs based on the number of … they can make

Answer 31

hydrogen bonds

Question 32

(NJCTL) Just like in DNA replication, RNA is made from the … end to the … end

Answer 32

5’; 3’

Question 33

(NJCTL) RNA polymerase gets to a sequence on the DNA called a … This sequence signals the RNA polymerase to stop transcription. The RNA polymerase then … the DNA. The new RNA strand .. from the DNA, and the DNA recoils into a …

Answer 33

termination sequence; falls off; separates; helix

Question 34

(NJCTL) individual cells respond to environmental change by … their …

Answer 34

regulating; gene expression

Question 35

(NJCTL) one of the properties of life is “… to the …” which relates to regulating gene expression

Answer 35

response; environment

Question 36

(NJCTL) two examples of gene expression regulation in prokaryotes are: … and …

Answer 36

lac operon; trp operon

Question 37

(NJCTL) summary of gene expression regulation in eukaryotes:
the gene must be unpacked from …, the right … must be present
…. occurs
… and … must be added to the mRNA
pre-mRNA must be …
…. allow passage to the cytoplasm
mRNA comes into contact with a …. and … occurs
protein is used within the cell or exported to the environment

Answer 37

chromatin; transcription factors; transcription; cap; tail; spliced; nuclear pores; ribosome; translation

Question 38

(NJCTL) translation is the process by which … strands are read to build …

Answer 38

RNA; proteins

Question 39

(NJCTL) Translation requires 3 types of RNA that are created using transcription:
mRNA or … RNA, … the … for protein synthesis. This type of RNA is key to The Central DOgma
rRNA or … RNA, is a … for protein synthesis
tRNA or … helps in the assembly of .. during protein synthesis

Answer 39

messenger; carries; information; ribosomal; catalyst; transfer; amino acids

Question 40

(NJCTL) the specific rna that contains the protein’s information form DNA is called …: it carries the genetic message to …, where it is translated

Answer 40

messenger RNA; ribosomes

Question 41

(NJCTL) ribosomal RNA (rRNA) and some additional proteins make up the …, which includes two subunits, one … and one …

Answer 41

ribosome; small; large

Question 42

(NJCTL) During translation, the ribosome catalyzes the reaction that makes … between …, thus building the …

Answer 42

covalent bonds; amino acids; protein

Question 43

(NJCTL) transfer RNA carries .. to the ribosomes so that the ribosome can covalently bond them together to form the protein. RNA, being single stranded, can … on itself. In tRNA the RNA folds into a .. shape`

Answer 43

amino acids; fold in; t

Question 44

(NJCTL) on tRNA, there is an amino acid … site, where the amino acid will attach
there is a …., a 3-base sequence on the tip that is complementary to the … on the mRNA

Answer 44

attachment; anticodon loop; codon

Question 45

(NJCTL) the pieces necessary to begin transcription are: 
a coded strand of ...
a set of ...
...
... to match all the amino acids

Answer 45

mRNA; 20 amino acids; ribosomes; tRNA

Question 46

(NJCTL) tRNAs bond to the amino acid specified by their … The opposite side of each tRNA, the …, bonds to the matching codon on the mRNA creating a string of … in the proper sequence. The ribosome makes .. between the amino acids. The result is a … with the specified sequence of amino acids

Answer 46

anti-codon; anti-codon; amino acids; covalent bonds; protein chain

Question 47

(NJCTL) the … and … of these amino acids allow all the proteins in the world to be created from only 20 amino acids.

Answer 47

length; sequence

Question 48

(NJCTL) The small subunit of the ribosome attachs to the mRNA at the … of the … (the … end)
Then the large subunit of the ribosome comes in over the top.
The result is that the mRNA is sandwiched between the … at the … (and the … as well)

Answer 48

bottom; start codon; 5’; mRNA: start codon; second codon

Question 49

(NJCTL) the ribosome goes to the 5’ end of the mRNA because the 5’ end is the beginning of where the gene on the … was … into …

Answer 49

DNA: transcribed; mRNA

Question 50

(NJCTL) there are 2 sites within the ribosome:
the …-site: where the new protein will emerge
the ..-site: where the … are delivered in

Answer 50

P; A; amino acids

Question 51

(NJCTL) the tRNAs, hydrogen bonded to their specific amino acids, surround the ribosome. As the leading edge of the mRNA, with the starting code …, is exposed in the A site, the tRNA with the code … enters the site and hydrogen bonds with it, carrying … into the ribosome

Answer 51

AUG: UAC; methionine

Question 52

(NJCTL) the methionine is removed from the tRNA and stays in the ribosome to be bonded with the next amino acid. the tRNA leaves the ribosome so another tRNA can enter. Each tRNA will carry the appropriate amino acid into the ribosome to be bonded in the proper sequence, since each tRNA anticoding site matches the … site on the mRNA, which is located at the … site of the ribosome. Because each tRNA has an anticoding sequence it complimentary base pairs with the codon on the mRNA

Answer 52

coding site; A

Question 53

(NJCTL) the 2nd tRNA with its amino acid is delivered into the A-site in the ribosome. The ribosome catalyzes a covalent bond between the … The ribosome moves the mRNA using … and the tRNA that was in the A-site moves to the ..-site and the tRNA that was in that site separates from its …

Answer 53

amino acids; chemical energy; P; amino acid

Question 54

(NJCTL) … continues by adding one amino acid after another. each amino acid is delivered to the a-site by its matching tRNA. the ribosome makes a peptide bond between the 2 amino acids in the … and …

Answer 54

elongation; P; A sites

Question 55

(NJCTL) the ribosome continues until it reaches a … which do not code for amino acids, but signal the end of … The protein is … and the 2 … separate from each other

Answer 55

stop codon; translation; complete; subunits

Question 56

(NJCTL) the result of translation is a protein in its … sequence

Answer 56

primary

Question 57

(NJCTL) the polymerase used in PCR is typically …

Answer 57

taq polymerase

Question 58

(NJCTL) no editing for … occurs in prokaryotes

Answer 58

transcription

Question 59

(NJCTL) chromatin packaging is

Answer 59

pre-transcriptional

Question 60

(NJCTL) E site on the ribosome is the .. site for … tRNA molecules

Answer 60

exit; empty

Question 61

gene therapy is done by way of …, but this is a limited prospect –> … is injected into eukaryotes with hopes that it will infect …

Answer 61

viruses; viruses; human cells

Question 62

(RNAi) dicer: enzyme that acts like a …, cuts … sequences

Answer 62

restriction enzyme; palindromic

Question 63

(RNAi) dicer chops up mRNA segments that have palindromic sequences in them, and then … the transcript for …

Answer 63

mRNA; destruction

Question 64

(RNAi) alternative splicing is used in …

Answer 64

antibody production

Question 65

(RNAi) macular degeneration –> macula is spot in eye where many … are, this illness blocks …, causing patients to be unable to distinguish … and … vision is complicated

Answer 65

cones; sight; lines; color

Question 66

(RNAi) for macular degeneration, blood vessels that have started to … are the … factor

Answer 66

divide; blocking

Question 67

(RNAi) to stop macular degeneration, … is looked at as a possible solution

Answer 67

RNAi

Question 68

(RNAi) RNAi may be effective with … disease (dominant disease that doesn’t show itself right away), … disease, …, …, …, …

Answer 68

Huntington’s; Lou Gehrig’s; hepatitis; breast cancer; HIV; arthritis

Question 69

(RNAi) RNAi can help us determine what

Answer 69

each gene does

Question 70

(RNAi) RISC is the enzyme that recognizes the segments of RNA cut by …, and uses it as a template to find other RNA segments that have the same … as those. THis is achieved as the enzyme binds to … fragments, and uses one strand of it to bind to the other single-stranded RNAs that have a … sequence. It then destroys these pieces of single-stranded RNA

Answer 70

dicer; sequence; small interfering RNA; complementary

Question 71

(RNAi) Researchers believe that RNAi may be used by the cell to suppress movements of “…” which include …, which can create/reverse mutations, as well as … sequences. Also, RNAi can be used in adjusting cellular …

Answer 71

mobile genetic elements; transposons; repetitive sequences; gene expression

Question 72

(RNAi) … are used as a vector to deliver siRNAs, or short hairpin RNAs. These can result in a longer duration of gene ..,

Answer 72

viruses; silencing

Question 73

(RNAi) use of antisense tech can block … of mRNA, and may also .. mRNA. Researchers also don’t know how to … the antisense tech to the appropriate cells,a and avoid their … before that delivery occurs. The same issue of delivery exists in gene therapy through viruses

Answer 73

translation; degrade; deliver; degradation

Question 74

(RNAi) RNAi would be most effective in treating diseases that have a … basis, meaning that they do not involve many …

Answer 74

simple genetic; genes

Question 75

(RNAi) After RNA is transcribed, its bases may bond with one another, forming … RNA that comprises … Dicer can cut these loops to form … RNA, which regulates gene expression

Answer 75

double-stranded; hairpin loops; small

Question 76

(RNAi) sRNAs can influence how DNA is …, to inhibit certain segments from being transcribed. it may also be altered to produce microRNAs

Answer 76

compacted

Question 77

(RNAi) miRNAs can bind to and reduce the stability of mRNA. They are also used in the production of …, which is necessary in RNAi

Answer 77

siRNAs

Question 78

(transcription) the process in which … is synthesized from DNA. Before transcription begins, … occurs in which DNA is … by …. when this enzyme binds to the … region–the location on the gene that is the … point for transcription

Answer 78

RNA; initiation; unwound; RNA polymerase; promoter; starting

Question 79

(transcription) When RNA polymerase binds to the promoter region and begins unwinding, an …, or …, … is formed

Answer 79

initiation, or transcription, bubble

Question 80

(transcription) RNA nucleotides are then paired with … on the strand … the gene, called the … strand, as RNA polymerase does not bind to the strand that …, called the … strand

Answer 80

DNA nucleotides; opposite; template (antisense); contains the gene; gene (non-template, sense)

Question 81

(transcription) the template strand is used for RNA synthesis because RNA polymerase will be generating the … of this strand, which would then directly … the sense strand

Answer 81

mirror image; match

Question 82

(transcription) RNA polymerase synthesizes a strand of RNA in the … to … direction, adding the new nucleotides to the … ends of the molecule

Answer 82

5’; 3’; 3’

Question 83

(transcription) RNA polymerase travels the length of the antisense strand, … the DNA and adding the proper RNA nucleotides, a process known as …

Answer 83

unwinding; elongation

Question 84

(transcription) transcription ends with …, in which RNA polymerase reaches a … that causes RNA to … from the DNA. The newly synthesized strand of RNA then separates from the DNA, which conforms to its original double helix structure

Answer 84

termination; termination sequence; unbind

Question 85

(translation) translation is the process in which RNA is converted into … It involves the reading of …, … letter segments of … that code for specific amino acids, by …

Answer 85

proteins; codons; 3; mRNA; ribosomes

Question 86

(translation) translation is initiated when the … subunit of the ribosome attaches to the … of an mRNA molecule

Answer 86

small; start codon

Question 87

(translation) An … pairs with the start coding, binding to the … site of the ribosome by way of its …, a 3-base long segment that is complementary and antiparallel to the …

Answer 87

initiator tRNA; peptide; anticodon; start codon

Question 88

(translation) the initiator tRNA brings …, an amino acid, into the ribosome (codon is … and anticodon is …)

Answer 88

methionine; AUG; UAC

Question 89

(translation) the methionine will be removed from the tRNA and will act as the first … in the …

Answer 89

amino acid; protein

Question 90

(translation) the … subunit then joins the small subunit, and … follows, as tRNAs arrive and bind to the … site, bringing the … to the ribosome

Answer 90

large; elongation; amino; amino acids

Question 91

(translation) … create the peptide bonds between the amino acids. tRNAs exit from the riboosme by way of the .. site as additional amino acids are added. Eventually, the ribosome will reach a …, which does not … for an … and translation terminates

Answer 91

ribozymes; exit; stop codon; code; amino acid

Question 92

(translation) in prokaryotes, … and … occur simultaneously, which doesn’t happen in eukaryotes

Answer 92

transcription; translation

Question 93

(translation) prokaryotes have only … type(s) of RNA polymerase, which synthesize(s) the three types of RNA. However, eukaryotes have an RNA polymerase for each type of RNA. RNA polymerase I synthesizes …, RNA polymerase II synthesizes …, and RNA polymerase III synthesizes …

Answer 93

one; rRNA; mRNA: tRNA

Question 94

(transcription) prokaryotic initiation does not necessitate …, which are used in eukaryotic initiation, and allow RNA polymerase to bind to the promoter

Answer 94

transcription factors

Question 95

prokaryotes do not have RNA …, …, or … and do not undergo …

Answer 95

capping; poly A tails; introns; splicing

Question 96

transcription occurs in the …. for prokaryotes, and in the … for eukaryotes

Answer 96

cytoplasm; nucleus

Question 97

translation is a … process in prokaryotes, but not in eukaryotes

Answer 97

continuous

Question 98

translation is … in prokaryotes than in eukaryotes and requires … initiation factors, whereas eukaryotes need … initation factors

Answer 98

faster; 3; 9

Question 99

the mRNA produced in prokaryotes is … and has a … duration, but in eukaryotes it is … and lasts for a … period of time

Answer 99

unstable; short; stable; longer

Question 100

when mRNA is first formed, it is called … the ends of this undergo modification. At the 5’ end, a …, which is a modified …, is added to help indicate where a … should … when translation begins

Answer 100

pre-mRNA: nucleotide cap; guanine; ribosome; attach

Question 101

a poly-A tail is added to the … end. This allows the mRNA to … the … and helps … ribosomes to the mRNA when translation starts

Answer 101

3’; exit; nucleus; load

Question 102

the length of the poly-A tail contributes to the mRNA’s … in the … by preventing … from degrading it

Answer 102

survival; cytoplasm; hydrolytic enzymes

Question 103

to form the final mRNA, segments of mRNA that do not code, known as …, are spliced out. …, regions that will be expressed, are spliced together. in some eukaryotes, introns splice out of the pre-mRNA by themselves, others use …, which identify the introns and use a … to splice them out

Answer 103

introns; exons; small nuclear RNAs; ribozyme

Question 104

TATA box is … to promoter and is a segment of repeating … and … that helps to … RNA polymerase

Answer 104

upstream; Ts; As; position

Question 105

CAAT & TATA are sequences that help the RNA polymerase to

Answer 105

bind

Question 106

eukaryotes have … and …, but prokaryotes only have … –> prokaryotes execute gene regulation via transcription using operons

Answer 106

enhancers; repressors

Question 107

Amino acid segment from tRNA is on … subunit, and anticodon segment is on … subunit

Answer 107

large; small

Question 108

(RNAi) palindromic suggests that there is … –> mirror image

Answer 108

complementary base pairing

Question 109

(RNAi) siRNA with RISc complex …/… to the transcripts that need to be destroyed –> … of …
this is kind of like antibodies marking antigen, miRNAs … other transcripts that look like the initial, such that … would destroy them

Answer 109

complement; bind; amplification; destruction; tag; dicer

Question 110

(NJCTL) human karyotype is produced using a …., and is a picture of chromosomes during … in which they … in the middle of the cell

Answer 110

microscope; metaphase; line up