2. NUCLEIC ACID PROTEINS - LEC

Question 1

Key Event in 1865

Answer 1

Mendel’s Law of Heredity

Question 2

Key Event in 1866

Answer 2

Johanns Miescher, Purification of DNA

Question 3

Key Event in 1949

Answer 3

Sickle Cell Anemia mutation was first studied

Question 4

Key Event in 1953

Answer 4

Watson and Crick’s DNA structure

Question 5

Key Event in 1970

Answer 5

Recombinant DNA technology

Question 6

Key Event in 1977

Answer 6

DNA sequencing

Question 7

Key Event in 1985

Answer 7

In vitro amplification of DNA (PCR)

Question 8

Key Event in 2001

Answer 8

The human genome project

Question 9

The building blocks of DNA and RNA

Answer 9

Nucleic Acids

Question 10

3 functional groups of nucleotides

Answer 10

Nitrogenous Base
Pentose Sugar
Phosphate groups

Question 11

Nucleic acids are made up of?

Answer 11

Long chains or strands or monomers of Nucleotides

Question 12

Main function of Nucleic acids

Answer 12

store and transmit the genetic information from the DNA to become protein

Question 13

Two types of Nucleic Acids

Answer 13

Deoxyribonucleic acid
Ribonucleic acid

Question 14

Two types of nitrogenous bases

Answer 14

Purine Pyrimidine

Question 15

Nitrogenous base made up of double ring structures

Answer 15

Purine

Question 16

Purine examples

Answer 16

Guanine and Adenine

Question 17

Nitrogenous base made up of single ring structures

Answer 17

Pyrimidines

Question 18

Pyrimidine examples

Answer 18

Cytosine
Thymine
Uracil

Question 19

Nitrogenous base found only in DNA

Answer 19

Thymine

Question 20

Nitrogenous base found only in RNA

Answer 20

Uracil

Question 21

Building block of the nucleic acid

Answer 21

Pentose sugar

Question 22

Purpose of the 1st carbon in the pentose sugar

Answer 22

Hold the nitrogenous bases

Question 23

Purpose of the 2nd carbon in the pentose sugar

Answer 23

Determines whether it is Deoxyribose or Ribose

Question 24

What accessory is attached to the second carbon if the pentose sugar is a Deoxyribose?

Answer 24

Hydrogen group (H)

Question 25

What accessory is attached to the second carbon if the pentose sugar is a Ribose?

Answer 25

Hydroxyl group (OH)

Question 26

Purpose of the 3rd carbon in the pentose sugar

Answer 26

Attaches to the succeeding nucleotides with the phosphodiester bond

Question 27

How to check if it is a deoxyribose or ribose other than the attachment

difference of nucleotide to nucleoside

Answer 27

If it is phosphorylated

Question 28

Phosphorylated sugar is a monomer of

Answer 28

Nucleotide

Question 29

Unphosphorylated sugar is a monomer of

Answer 29

Nucleoside

Question 30

This end of the DNA always end with a free phosphate group

Answer 30

5’

Question 31

This end of the DNA is the free sugar

Answer 31

3’

Question 32

Usually found in nucleus and are found in the mitochondria

Macromolecule of carbon, nitrogen, oxygen, phosphorous, and hydrogen atoms

Answer 32

DNA

Question 33

Rule that base pairs follows

Answer 33

Chargaff’s rule

Question 34

Chargaff’s rule states that

Answer 34

Adenine with Thymine
Cytosine with Guanine

Question 35

The formation of hydrogen bonds between two complementary strand of DNA is called

Answer 35

hybridization

Question 36

More stable pair in the base pairs

Answer 36

Guanine and cytosine

Question 37

Mechanisms of nitrogenous bases in order to prevent water

Answer 37

Decrease

Question 38

Bond which joins the two strands

Answer 38

Hydrogen bond

Question 39

Direction of reading DNA pairs

Answer 39

5’ to 3’

Question 40

Enzyme responsible for polymerizing the nucleotide chains

Answer 40

DNA polymerase

Question 41

How do we read the template strand

Answer 41

3’ to 5’

Question 42

This unzips the DNA strand

Answer 42

Helicase

Question 43

This will bind to the strand in order to prevent rebinding of unwound strands

Answer 43

Single Stranded Binding Proteins

Question 44

Site where the helicase separates the strand

Answer 44

Replication Fork

Question 45

Placed in front of the replication fork that prevents the supercoiling of the DNA

Answer 45

Topoisomerase

Question 46

Important to produce RNA primer

It is only possible if it toward the replication fork

Answer 46

Primase

Question 47

Primase activates what

Answer 47

DNA polymerase 3

Question 48

Responsible for adding the nucleotide bases to the daughter strand

Answer 48

DNA polymerase 3

Question 49

Helps to connect okazaki fragments

Answer 49

DNA ligase

Question 50

Direction of daughter strand synthesis

Answer 50

5’ to 3’

Question 51

Enzymes for degradation of DNA

Answer 51

Restriction enzymes

Question 52

Types of restriction enzymes

Answer 52

Nucleases/ DNAses

Question 53

Types of Nucleases

Answer 53

Exonucleases and Endonucleases

Question 54

It degrades the DNA from its end, either the 5’ to 3’

Answer 54

Exonucleases

Question 55

Degrades in the middle, it is used if you want to insert a new sequence or cut them in the middle part. And to identify a recognition site of endonuclease

Answer 55

Endonuclease

Question 56

Attacks specific sequence of DNA

Answer 56

Restriction enzymes

Question 57

Restriction enzyme endonucleases types

Answer 57

1-3

Question 58

Action of type 1 restriction enzyme endonucleases

Answer 58

Random Cut

Question 59

Important for molecular studies

Answer 59

Type 2 restriction endonucleases

Question 60

Type 3 Restriction endonuclease action

Answer 60

Non specific cut

Question 61

Type 2 Restriction endonuclease action

Answer 61

Specific cut

Question 62

Adds methyl group to self nucleic acid so that it wont be degraded by Restriction enzymes

Answer 62

Methyltransferase enzyme

Question 63

Mixture and assembly of new genetic combinations

Answer 63

Recombination (sexual reproduction)

Question 64

Recombination of asexual organisms

Answer 64

Conjugation
Transduction
Transformation

Question 65

Needs contact to have genetic exchange

Answer 65

Conjugation

Question 66

Uses carrier to give genetic material from donor to receiver

Answer 66

Transduction

Question 67

Useful in modern day recombination techniques

Answer 67

Transformation

Question 68

Double stranded circles of 2,000-100,000 bp in size

carry genetic information

were found to be a source of resistant phenotypes in multidrug bacteria

carry antibiotic-resistant gene

very short sequence

Answer 68

Plasmids

Question 69

Single stranded whose main purpose is to translate the dna to become proteins

Answer 69

Ribonucleic acid

Question 70

Nitrogen bases in RNA

Answer 70

Adenine
Cytosine
Guanine
Uracil

Question 71

Types of RNA

Answer 71

Ribosomal RNA
Messenger RNA
Transfer RNA
Small nuclear RNA

Question 72

Largest component of the cellular RNA 80%-90% of total cellular RNA

Answer 72

Ribosomal RNA

Question 73

Three rRNA in prokaryotes

Answer 73

16s 23s 5s (sedimentation coefficient)

Question 74

rRNA species in prokaryotes that is considered as the pre-ribosomal RNA

catalytic routes and structural routes

Answer 74

Single 45s precursor RNA

Question 75

In prokaryotes, mRNA are simultaneously synthesized and translated into protein and it is also termed as

Answer 75

polycistronic

Question 76

Eukaryotic mRNA is

Answer 76

monocistronic

Question 77

In eukaryotes, synthesis and translation of mRNA are separated with

Answer 77

Nuclear membrane barrier

Question 78

Translation of information from nucleic to acid to protein requires reading of mRNA by ribosomes, using adaptor molecules also called as

Answer 78

Transfer RNA

Question 79

tRNA size

Answer 79

73-93 bases
24,000-31,000 MW

Question 80

Responsible for carrying individual amino acids to the ribosome where they will be joined together by peptide bonds to make protein

contains UAG

Answer 80

tRNA

Question 81

function in splicing in eukaryotes

sediment in a range of 6-8S

found only in nucleus

catalytic or structural only

Answer 81

Small Nuclear RNA

Question 82

Unsaturated RNA molecules

Answer 82

sRNAs

Question 83

non coding RNA

Answer 83

ncRNA

Question 84

This is the copying of information from DNA to mRNA

Answer 84

Transcription

Question 85

copying of one strand of DNA into RNA by a process of similar to that of DNA replication

Answer 85

Gene expression

Question 86

Three types of RNA polymerase

Answer 86

pol I-III

Question 87

most useful coding RNA polymerase

Answer 87

pol II

Question 88

cellular location of pol I

Answer 88

Nucleolus

Question 89

cellular location of pol II

Answer 89

Nucleus

Question 90

cellular location of pol III

Answer 90

Nucleus

Question 91

Products of pol I

Answer 91

18s
5.8s
28s
rRNA

Question 92

Products of pol II

Answer 92

mRNA
snRNA

Question 93

Products of pol III

Answer 93

tRNA
5s
rRNA

Question 94

a-Amanitin of pol I

Answer 94

Insensitive

Question 95

a-Amanitin of pol II

Answer 95

Inhibited

Question 96

a-Amanitin of pol III

Answer 96

Inhibited by high concentration

Question 97

Other RNA metabolizing enzymes

Answer 97

Ribonucleases:

Endoribonucleases - middle
Exoribonucleases - end

RNA helicases

Question 98

catalyze the unwinding of double stranded DNA

Answer 98

RNA helicases

Question 99

DNA double helix that carries genes seen during cell division

Answer 99

Chromosomes

Question 100

chromosome structure usually observed in cells

Answer 100

Chromatin threads

Question 101

chromosome structure observed in dividing cell

Answer 101

X shapes

Question 102

Individual collection of the chromosomes used to check abnormalities

Answer 102

Karyotype