Week 3

Question 1

In Eukaryotic cells , DNA is bound to proteins, forming a complex called ______.

Answer 1

Chromatin

Question 2

What phase do the Sister chromatids condense into discrete visible chromosomes ?

Answer 2

Metaphase

Question 3

What are the 4 free bases of DNA?

Answer 3

Adenine
Guanine
Cytosine
Thymine

Question 4

What is the name for the sugar in DNA?

Answer 4

Deoxyribose (missing the hydroxyl group on carbon 2 that is found on ribose)

Question 5

What are Nucleotides composed of?

Answer 5

Base + Sugar+ phosphate

Question 6

What are Nucleosides composed of ?

Answer 6

Base+ Sugar (no phosphate)

Question 7

If the sugar is a deoxyribose rather than ribose, the nucleoside has a “ _____ “ as a prefix , example for Adenine to Adenosine is ?

Answer 7

Deoxy

DeoxyAdenosine

Question 8

What is the monomer unit of nucleic acids?

Answer 8

Nucleotides

Question 9

What is the inorganic phosphate attached to in Nucleotides ?

Answer 9

5’-hydroxyl group of the sugar in ester linkage

Question 10

In Nucleosides, the nitrogenous base is linked by a ________ bond to the anomeric carbon of the sugar.

Answer 10

N-glycosidic

Question 11

What type of bond connects the Nucleotide chains to form DNA backbone?

Answer 11

Phosphate backbone - linked by phosphodiester bonds

Question 12

What is a phosphodiester bond ?

Answer 12

linkage of 3’Carbon of one sugar and the 5’ Carbon of the next sugar with Oxygen from a phosphate group

Question 13

What type of bond exists between bases that holds them together ?

Answer 13

Hydrogen bond

Question 14

How many bonds does Thymine and Adenine have ?

Answer 14

2 bonds - Hydrogen bonds (weaker than covalent and allow for seperation )

Question 15

How many bonds does Guanine and Cytosine have ?

Answer 15

3 bonds- Hydrogen bonds

Question 16

What is the Nucleoside name for Adenine ?

Answer 16

Adenosine

Question 17

What is the Nucleoside name for Guanine ?

Answer 17

Guanosine

Question 18

What is the nucleoside name for Thymine?

Answer 18

Thymidine

Question 19

What is the nucleoside name for Uracil ?

Answer 19

Uridine

Question 20

What is the nucleoside name for Hypoxanthine ?

Answer 20

Inosine

Question 21

What forces stabilize the double helix?

Answer 21

Stacked bases have Van Der Waals forces and hydrophobic effects on interior of helix
-additionally the hydrogen bonds between bases

Question 22

What allows for the negative charge and binding of proteins to the outside of DNA ?

Answer 22

the Phosphate group has an exposed -OH on outside that will lose the H ion at physiological pH- negative charge, facilitates binding specific proteins

Question 23

What forces cause DNA to separate ?

Answer 23

Alkali (increased -OH) and heat cause denaturing (strands separate)

Question 24

What is the different effect of Alkalki on DNA vs RNA?

Answer 24

RNA- phosphodiester bonds are broken

DNA- strands separate

Question 25

What is hybridization ?

Answer 25

DNA is combined with RNA strand

Question 26

How is DNA packaged in Prokaryotes ?

Answer 26

Circular DNA is supercoiled and attached to an RNA-protein core

Question 27

What do topoisomerases do?

Answer 27

Relieve stress of DNA strand in supercoils so unwinding can occur

Question 28

Eukaryotic DNA binds to equal weight of _____.

Answer 28

Histones

Question 29

What are Histones made of ?

Answer 29

Large amounts of Arginine and Lysine (both are Positively charged pKa)

Question 30

What is a nucleosome core made of ?

Answer 30

DNA wrapped around 2  molecules of each of the 4 classes of histones 
H2A
H2B
H3
H4
(8 histones per nucleosome core)

Question 31

What does H1 Histone do?

Answer 31

Joins the Nucleosomes into strands

Question 32

What are the helical, tubular coils that Nucleosomes are wound into called?

Answer 32

Solenoid structures

Question 33

What is total number of chromosomes per Diploid cell?

Answer 33

46 (23 pairs) - 22 are autosomal

Question 34

What is the difference between Uracil and Thymine with relation to RNA where RNA uses Uracil instead?

Answer 34

Thymine has a methyl group at the position 5 of the ring, Uracil does not

Question 35

What does PRPP stand for ?

Answer 35

Phosphoribosyl pyrophosphate - 5-Sugar in DNA and RNA (pentosphosphate)

Question 36

What does THF stand for ?

Answer 36

Tetrahydrofolate

Question 37

What does GPRT stand for ?

Answer 37

Glutamine-phosphoribosyl Transferase

Question 38

What does CPS II stand for

Answer 38

Carbamoyl phosphate synthase II

Question 39

What substrates are needed to start Purine synthesis ?

Answer 39

PRPP
Glycine
Glutamine
Asparate
Tetrahydrofolate

Question 40

What substrates are needed to start Pyrimidine synthesis ?

Answer 40

PRPP
Glutamine
CO2
Aspartate

Question 41

Where does Pyrimidine and Purine synthesis normally occur ?

Answer 41

Cytosol in Liver cells

Question 42

What is the main regulated enzyme in Purine synthesis ?

Answer 42

GPRT (Glutamine -phosphoribosyl transferase )

Question 43

What is Glutamine phosphoribosyl transferase inhibited and activated by ?

Answer 43

Activated by presence of PRPP

Inhibited by presence of AMP and GMP

Question 44

What is the main regulated enzyme in Pyrimidine synthesis ?

Answer 44

CPS II (Carbamoyl phosphate synthase II )

Question 45

What will inhibit Carbamoyl phosphate synthase II in the Pyrimidine synthesis cycle?

Answer 45

Presence of UMP (Uridine monophosphate)

Question 46

What form are bases always synthesized in ?

Answer 46

Ribose form with the OH group (hydroxyl) attached still to 2’ Carbon

Question 47

What enzyme will convert Ribose sugars to Deoxyribose sugars and remove the Hydroxyl group?

Answer 47

Ribonucleotide reductase (RR)

Question 48

What level will the conversion of Ribose sugars to Deoxyribose sugars occur?

Answer 48

Diphosphate level (2 phosphates attached to nucleotide)
Ex: CDP, ADP, UDP, GDP are the substrates required

Question 49

What is the cofactor of RR (Ribonucleotide reductase) needed for the conversion of Ribose sugars to Deoxyribose sugars at the Diphosphate level?

Answer 49

Thioredoxin - Holds the two Hydrogen groups onto its 2 Sulfurs that will donate the Hydrogen with the O from the OH on Ribose sugar to release H2O using the RR

Question 50

Who does the resupplying of Thioredoxin with Hydrogen on its sulfate groups to then be ready use again as a cofactor with Ribonucleotide reductase (RR)?

Answer 50

NADPH will be oxidized and its H will go to the Sulfur on Thioredoxin (has 2 Sulfurs)

Question 51

What enzyme is used to oxidize the NADPH and reduce the Thioredoxin ?

Answer 51

Thioredoxin reductase

Question 52

Ribonucleotide reductase is regulated with allosteric proteins in what two sites ?

Answer 52

1. Enzyme Activity site - (ATP will turn on, dATP will turn off)
2. Substrate specificity site (any nucleotide, ATP, dATP, dTTP, and dGTP can all go here)

Question 53

Where is the Ribonucleotide reductase found in the synthesis pathways ?

Answer 53

Near the end when the nucleotide will either be made into DNA or RNA

Question 54

What needs to be in the two allosteric effector sites of RR for CDP to be changed into dCDP (pyrimidine synthesis) ?

Answer 54

Activity site - ATP

Substrate specificity site - ATP or dATP

Question 55

What needs to be in the two allosteric effector sites of Ribonucleotide reductase for UDP to be changed into dUDP (dUDP is necessary for Pyrimidine synthesis of dTDP to make Thymine base pair)

Answer 55

1. Activity site - ATP
2. Substrate specificity site -ATP or dATP
   (adenosine or Deoxyadenosine triphosphate)

Question 56

What needs to be in the two allosteric effector sites of Ribonucleotide reductase for GDP to be changed into dGDP (Purine synthesis) ?

Answer 56

1. Activity site - ATP

2. Substrate specificity site - dTTP (Deoxythimidine triphosphate)

Question 57

What needs to be in the two allosteric effector sites of Ribonucleotide reductase (RR) for ADP to be changed into dADP (purine synthesis) ?

Answer 57

1. Activity site - ATP

2. Substrate specificity site - dGTP (deoxyguanosine triphosphate)

Question 58

What is synthesis of Phosphoribosyl pyrophosphate (PRPP) activated by ?

Answer 58

Free Phosphate group (Pi)

Question 59

What does synthesis of Phosphoribosyl pyrophosphate (PRPP) require as a cofactor ?

Answer 59

Magnesium (2+) or Mg2+ as cofactor

Question 60

In the synthesis of Phosphoribosyl pyrophosphate, what is the enzyme used to take 2 phosphate groups from ATP (changes to AMP) and adds them toe the 5’ sugar?

Answer 60

PRPP synthetase (requires Mg2+ as cofactor)

Question 61

Where does the PRPP get the sugar from originally ?

Answer 61

Hexos monophosphate pathway - gets it from Glucose

Question 62

Deacetalyation of the histone proteins ________ the positive charge on lysine residues.

Answer 62

Increases (so DNA and Histone binds tighter)

Question 63

Activation of ribonucleotide reductase by ATP will result int he synthesis of dGDP if ______ is bound to the substrate specificity site.

Answer 63

dTTP

Question 64

What synthesis is needed prior to Purine synthesis to start ?

Answer 64

PRPP synthesis

Question 65

What is the first step in Purine synthesis after PRPP is present ?

Answer 65

PRPP is combined with Glutamine through condensation reaction

Question 66

After the second 6’ ring is added onto 5’ ring of PRPP during Purine synthesis , what is the major converging point ?

Answer 66

IMP - Inosine monophosphate

-the IMP is attached to the 6’5’ ring combo that was made in the previous pathway

Question 67

What is the base found in Inosine monophosphate ?

Answer 67

Hypoxanthine (not found in DNA)

Question 68

One of two options after IMP, is for ADP and GDP to go directly to ____ synthesis after conversion to Triphosphate form in the Purine pathway.

Answer 68

RNA

Question 69

Second of the two options after IMP (purine pathway), is for ADP and GDP to go to the _______ _________ to be converted into their deoxy forms for DNA snythesis.

Answer 69

Ribonucleotide reductase

Question 70

What enzyme is used in the first main step of Purine synthesis where PRPP is combined with Glutamine to make 5’-Phosphoribosyl 1-amine

Answer 70

GPRT (Glutamine phosphoribosyl amidotransferase)

Question 71

What does GPRT (Glutamine phosphoribosyl amidotransferase) do ?

Answer 71

enzyme that Aminates (adds NH3 to Carbon) the PRPP and takes of the 2 extra phosphate groups leaving only one on PRPP

Question 72

What does amination add?

Answer 72

NH3 to a carbon on PRPP

Question 73

What does Glutamine get changed into once it is used with Glutamine Phosphoribosyl amidotransferase enzyme and PRPP to animate PRPP ?

Answer 73

Glutamate (Glutamic acid) - missing an amide group (NH3)

Question 74

What can the Glutamine + PRPP step in Purine synthesis be inhibited by ?

Answer 74

High levels of BOTH GMP and AMP

Question 75

What can the step in Purine synthesis where Ribose-5 phosphate is converted to PRPP be inhibited by (negative feedback) ?

Answer 75

BOTH GDP and ADP (purine bases) - negative feedback

Question 76

What can the step where IMP gets converted to XMP (leads to GMP) be inhibited by ?

Answer 76

GMP (its direct product)

Question 77

What can the step where IMP gets converted to Adenylosuccinate (leads to AMP) be inhibited by ?

Answer 77

AMP (its direct product)

Question 78

What can Glutamine phophoribosyl ammidotransferase (GPRT) be inhibited by ?

Answer 78

NEEDS BOTH - (GMP,GDP,GTP) with a (AMP,ADP,ATP)

Question 79

What is a location that Hypoxanthine is found ?

Answer 79

tRNA anticodon and in Inosine Monophosphate (converging point for Purine pathway)

Question 80

In Purine salvage pathway , what does HGPRT stand for ?

Answer 80

Hypoxanthine-Guanine Phosphoribosyltransferase

Question 81

What does HGPRT function to do in the Purine salvage pathway?

Answer 81

It will act to convert hypoxanthine back to IMP and Guanine back to GMP (attaches a phosphate group from PRPP)

Question 82

How does Adenine get recycles in the Purine salvage pathway if it is a Nucleoside (adenosine) and is not going to go the route of Adenosine kinase back to its AMP (nucleotide form) ?

Answer 82

1. Adenosine is deaminated and converted to Inosine
2. Inosine converted to Hypoxanthine
3. Hypoxanthine is acted on by HGPRT back to IMP which can then be changed into AMP again

Question 83

How does GMP get recycled in the Purine pathway ?

Answer 83

1. GMP goes to Guanosine (nucleoside)
2. Guanosine is changed into free base Guanine
3. Guanine is acted on by HGPRT back into GMP

Question 84

In the recycle pathway , once HGPRT gets you back to IMP, where can the pathway lead to ?

Answer 84

Either AMP or GMP production

Question 85

What do phosphorylase enzymes do in the Recycle pathway for Purines to GMP and IMP ?

Answer 85

GMP is cleaved to free base from Guanosine to Guanine

IMP is cleaved to fee base from Inosine to Hypoxanthine

Question 86

What doe Phosphoribosyl transferase enzymes do in the Purine pathway (like HGPRT) ?

Answer 86

will transfer a ribose 5-Phosphate to a free base - makes it back into nucleotide

Question 87

Adenosine is the only nucleoside base to be _______ _______ in the Purine pathway

Answer 87

Directly phosphorylated - (to reconstruct full nucleotide)

- by way of Adenosine kinase

Question 88

If Adenosine is not directly phosphorylated back into a Nucleotide, what will act on it in the Purine recycle pathway?

Answer 88

Adenosine deaminase

-changes it into Inosine - then leads to Hypoxanthine and then IMP which can take it back to AMP or GMP

Question 89

If Hypoxanthine is not recycled with HGPRT , then what will act on Hypoxanthine in the degragation of Purine pathway ?

Answer 89

Xanthine oxidase

Question 90

What will Xanthine oxidase do ?

Answer 90

turns Hypoxanthine into Xanthine, then acts on Xanthine again to turn it into Uric Acid

Question 91

Is Uric Acid soluble ?

Answer 91

No - must be excreted in urine, or it can build up in body and cause disease (like Gout and inflammation)

Question 92

What will inhibit the actions of Xanthine oxidase from creating Uric acid ?

Answer 92

Allopurinol (drug for Gout)

Question 93

How does Guanine get changed into Xanthine if it is not recycled by HGPRT ?

Answer 93

A NH (amine)group is removed - then will be acted on by Xanthine oxidase only once time (as compared to two times) to make Uric Acid

Question 94

What is the most common cause of Gout ?

Least common ?

Answer 94

Most = poor excretion of Uric Acid through urine
Least = decreased activity of HGPRT

Question 95

What does decreased activity of HGPRT do ?

Answer 95

causes increased hypoxanthine and xanthine production in the Purine degragation pathway (cant be recycled normally and more Uric acid is made)

Question 96

HGPRT is responsible for the conversion of Guanine to ____ as wel as hypoxanthine to ______.

Answer 96

GMP

Inosine-MP

Question 97

SEVERE loss of HGPRT activity causes what syndrome and what symptoms ?

Answer 97

Lesch-Nyhan syndrome = mental retardation, compulsive self-mutilation, gout

Question 98

Partial defects of HGPRT enzyme causes ?

Answer 98

no severe Lesch-Nyhan syndrom but some premature Gout

Question 99

Gout can be caused by elevated levels of Uric acid. with respect to a possible HGPRT defect, a mutation leading to ________ _____ of this enzyme is likely to produce gout.

Answer 99

Decreased activity

Question 100

What is the Important enzyme at the beginning of the Pyrimidine synthesis pathway?

Answer 100

Carbamoyl Phosphate Synthase II

Question 101

What does Carbamoyl Phosphate Synthase II produce and which pathway?

Answer 101

Carbamoyl phosphate

-Pyrimidine synthesis pathway

Question 102

What inhibits Carbamoyl phosphate synthase II (pyrimidine pathway)?
What is combined to start pathway with CPSII?

Answer 102

UTP inhibits

PRPP is combined to continue pathway

Question 103

Name the First 4 major steps in the pyrimidine pathway?

Answer 103

1. Glutamate +CO2+2ATP
2. CPS II and PRPP interact to make Carbamoyl phosphate
3. Aspartate is combined- makes Orortate
4. PRPP added and CO2 removed makes UMP then UDP

Question 104

What is the diverging molecule for the Pyrimidine pathway?

Answer 104

UDP

• can be acted on to become UTP for direct RNA use
• OR can be acted on by RR to make dUDP

Question 105

How do you get CTP to use for RNA in Pyrimidine pathway?

Answer 105

1. Carbamoyl phosphate
2. Orotate
3. UMP
4. UDP
5. UTP
6. Glutamine added to make CTP (used in RNA)
   - Cytosine Triphosphate

Question 106

How do you get dCTP for use in DNA pyrimidine pathway?

Answer 106

1. after Glutamine is added to UTP to make CTP
2. changed to CDP
3. RR acts on CDP to make dCDP
4. dCDP phosphorylated to dCTP for DNA usage

Question 107

Unlike Purine synthesis, the assembly of the _____ group is completed before the addition of the sugar ______ in pyrimidine synthesis De novo.

Answer 107

Ring

PRPP

Question 108

What is the rate limiting step for DNA synthesis that is found in the Pyrimidine synthesis pathway?

Answer 108

Changing dUMP to dTMP using Folate and the enzyme:

Thymidylate synthase

Question 109

What is the first major intermediate in the pyrimidine pathway that comes after Carbamoyl phosphate ?

Answer 109

1. Aspartate is added to make Carbamoyl phosphate into Carbamoyl Aspartate
2. converted into Orotic acid (Orate)

Question 110

How can Orotic acid be diagnostic ?

Answer 110

Elevated levels in urine can be suggestive of :

1. Hereditary orotic aciduria (disease)
2. Defects in Urea cycle

Question 111

What is the enzyme responsible for the addition of PRPP to Orotic acid or Orotate?

Answer 111

Orotate phosphoribosyl transferase (adds sugar phosphate group PRPP)

Question 112

What enzyme is responsible for the changing of OMP to UMP?

Answer 112

Orotidine 5-P decarboxylase

Question 113

How do you get dUMP for usage to make dTMP?

Answer 113

You must get UMP to UDP so the RR can change it into dUDP, then a phosphate is removed to make dUMP which can be acted on by Thymidylate synthase

Question 114

How does Thymidylate synthase change dUMP to dTMP?

Answer 114

it adds a methyl group (CH3) to the top right Carbon ring

Question 115

Who is the Methyl donor for the pyrimidine synthesis in dUMP to dTMP with Thymidylate synthase ?

Answer 115

Folate (Methylene FH4)

Question 116

What is the inhibitor for Thymidylate synthase ?

Answer 116

5-Florouracil

used to block dUMP converting to dTMP

Question 117

What is the inhibitor for the Dihydrofolate FH2 molecule that is left over after Methylene FH4 donates a methyl group to make dTMP?

Answer 117

Methotrexate

Question 118

What is the enzyme that Methotrexate inhibits from acting on FH2 Dihydrofolate ?

Answer 118

Dihydrofolate reductase (NADPH is stopped from donating its Electron to reduce it back to FH4)

Question 119

What can block more generally folic acid cycles for creating of folic acid needed for DNA syntheses ?

Answer 119

Methotrexate

(blocks Dihydrofolate reductase from using NADPH from reducing it back to FH4

Question 120

When is Folate used in Adenine and Guanine Purine synthesis de novo?

Answer 120

2 Locations in creation of double ring before you reach IMP molecule , in cascade cycle between Glutamine + PRPP and IMP

Question 121

When is Folate needed in Pyrimidine cycle ?

Answer 121

only when converting dUMP to dTMP

Question 122

Folate derivatives are required for the synthesis of which DNA bases?

Answer 122

Adenine
Guanine
Thymine (most critical- most direct impact if inhibited)

Question 123

What is the enzyme responsible for salvage of Thymine ?

Answer 123

Deoxyribose 1-phosphate

converts free base Thymine to Nucleoside Thymidine

Question 124

What is the enzyme responsible for salvage of Uracil and Cytosine?

Answer 124

Ribose 1-phosphate
(converts free bases to Nucleosides
-Uracil to Uridine
-Cytosine to Cytidine

Question 125

What defect will cause hereditary orotic aciduria?

Answer 125

UMP synthase is blocked

enzyme Orotidine 5’P deoxcarbylase is blocked

Question 126

What happens if UMP synthase is blocked?

Answer 126

Orotic acid will accumulate in body -cause growth retardation

Question 127

What gene defect causes Lesch-Nyhan syndrome?

Answer 127

Hypoxanthine-Guanine Phosphoribosyl-transferase SEVERE deficiency or absence

Question 128

What is the metabolite that accumulates if HGPRT is deficient?

Answer 128

Purines, Uric Acid accumulates in body

Question 129

What are the effects of Uric Acid accumulating in the body

Answer 129

Mental Retardation

-Self-mutilation

Question 130

What gene defect will cause Immunodieficiency disease ?

Answer 130

Purine nucleoside phosphorylase

Question 131

If Purine Nucleoside phosphorylase is abscent what happens?

Answer 131

Inosine and Guanosine can not be recycled back to free base form- major loss of DNA synthesis ability

Question 132

What causes Severe combined immunodeficiency disease (SCID)?

Answer 132

Adenosine Deaminase defect

in purine salvage pathway- Adenosine can not be converted to Inosine for recycling

Question 133

What are the clinical symptoms of Severe combined immunodeficiency disease (SCID) caused by Adenosine Deaminase defect ?

Answer 133

Loss of immune system function

-NO B or T cells (bubble boy)

Question 134

What is the major regulatory enzyme for Pyrimidine synthesis ?

Answer 134

Carbamoyl Phosphate Synthetase II (CPS II)

Question 135

What does CPS II do ?

Answer 135

regulating step synthesizing cabamoyl phosphate from glutamine+CO2+ATP

Question 136

What are the Allosteric effectors that inhibit or activate the activity of Carbamoyl Phosphate Synthetase II ?

Answer 136

PRPP - activate

UTP - inhibits

Question 137

What are the major Regulatory enzymes in the Purine synthesis pathway?

Answer 137

PRPP synthetase

Glutamine phosphoribosyl amidotransferase (GPRT)

Question 138

What does the regulatory enzyme PRPP synthetase do in Purine pathway ?

Answer 138

Conversion of Ribose 5-P to 5-Phosphoribosyl 1-pyrophosphate (PRPP)

Question 139

What does the regulatory enzyme Glutamine phosophoribosyl amidotransferase (GPRT) do ?

Answer 139

PRPP is combined with Glutamine by GPRT (first committed step in Purine synthesis)

Question 140

What are the Allosteric effectors of PRPP Synthetase?

Answer 140

GDP and ADP presence will both inhibit the production of PRPP (negative feedback)

Question 141

What are the Allosteric effectors of Glutamine phosphoribosyl amidotransferase (GPRT) ?

Answer 141

PRPP - activates

IMP, AMP, GMP - inhibit activity (negative feedback)

Question 142

What is the primer for Prokaryotic DNA replication synthesized by ?

Answer 142

Primase

Question 143

What is the primer for Eukaryotic DNA replication synthesized by ?

Answer 143

Subunits of DNA Polymerase Alpha

Question 144

What is the processing enzyme for DNA replication in Prokaryotes vs Eukaryotes ?

Answer 144

Prokaryotes = DNA polymerase III
Eukaryotes = DNA Polymerase E (epsilon) and D (Delta)

Question 145

What is DNA polymerase Epsilon (E) used for ?

Answer 145

Eukaryotic DNA replication on leading strand

Question 146

What is DNA polymerase Delta used for ?

Answer 146

Eukaryotic DNA replication of lagging strand

Question 147

What removes the DNA primer in prokaryotic vs. eukaryotic DNA replication?

Answer 147

Prokaryotic = DNA Polymerase I
Eukaryotic = RNaseH (by hydrolysis )

Question 148

What is the problem with linear DNA ?

Answer 148

chromosome ends have extra 3’ section (Telomerase is needed to make Telomere)

Question 149

What phase is DNA replicated in

Answer 149

S phase

Question 150

What phase is prep for cell division after DNA replication?

Answer 150

G2 phase (line up DNA)

Question 151

What are the 5 phases of cell life?

Answer 151

G0 (resting)
G1 (growth and metabolism)
S (DNA replication)
G2 (prep for cell division)
M (Mitosis)

Question 152

What is the only direction DNA can be synthesized in ?

Answer 152

5’ to 3’ direction

Question 153

If DNA is synthesized in 5’ to 3’ direction only, what direction is it “copied” in?

Answer 153

3’ to 5’

Question 154

DNA polymerases add nucleotides in a strand growing 5’ to 3’ direction and copy a DNA templete in the ____ to ____ direction.

Answer 154

3’ to 5’

Question 155

What does Primase do ?

Answer 155

Synthesizes RNA primers for DNA replication starts

Question 156

What does Helicase do?

Answer 156

Seperates DNA parent strand (breaks hydrogen bonds)

Question 157

What does Topoisomerase do ?

Answer 157

Relieves torsional strain on parental duplex caused by unwinding (prior to action of Helicase)

Question 158

What do single-strand binding proteins do ?

Answer 158

prevents ssDNA from re-associating during replication

Question 159

What 3 enzymes are used in the lagging strand?

Answer 159

1. primase
2. DNA polymerase alpha
3. DNA polymerase delta (helps cleave the primase to next section to make Okazaki fragment)

Question 160

What does the DNA ligase do ?

Answer 160

Joins by forming phosphodiester bonds , two adjacent DNA strands that are bound to same template at end of Replication

Question 161

What does Proliferating cell nuclear antigen (PCNA) do ?

Answer 161

Enhances processivity of the DNA polymerases, bind to many proteins present at the replication fork by the

Question 162

What is required for DNA ligation by DNA ligase ?

Answer 162

Hydroxyl group (-OH ) on the free 3’ side of DNA fragment

• reason only synthesis in 5’ to 3’ direction
• phosphodiester bond with next nucleotide on Carbon 2 (lower left corner of 5 carbon sugar)

Question 163

What two features pose a problem at the end of linear chromosomes ?

Answer 163

1. DNA polymerases can only synthesize in 5’ to 3’ direction

2. Can not initiate DNA synthesis on their own

Question 164

True or false, on linear DNA, replication can occur in both directions at the same time when parent strand is split ?

Answer 164

True - because the 5’ to 3’ direction will be occurring on both parent strands at the same time so “copying in opposite directions”

Question 165

What is the DNA sequence at the end of a chromosome called?

Answer 165

Telomeres (small repeated sequence of 100 to 1000’s of base pairs)

Question 166

What enzyme catalyzes the creation of Telomeres?

Answer 166

Telomerase - has protein and RNA sequence

Question 167

How does Telomerase work to make a telomere?

Answer 167

has RNA that functions as Template to extra 3’ end

Complement to the DNA found on 3’ extra end so it can bind to prime DNA syntheses of Telomere by DNA Polymerase

Question 168

What are the 3 major types of DNA repair

Answer 168

1. Nucleotide excision repair
2. Base excision repair
3. Mismatch repair

Question 169

What is the difference between Nucleotide excision repair and Base excision repair?

Answer 169

Nucleotide = large torsional changes (thymine dimers, ring addition by Benzopyrene rings to guanine (smoking)
Base excision repair = single incorrect base repair

Question 170

What is used to remove the base error in base excision repair ?

Answer 170

Specific Glycosylase

Question 171

How is the parent strand of DNA retained in DNA replication ?

Answer 171

Parent strand is Methylated (CH3 group added)

-useful in Mismatch repair

Question 172

Primase is not required for DNA repair because ?

Answer 172

There will be 3’ OH remaining on the adjacent nucleotides to be used for repair

Question 173

True or false:

DNA repair enzymes have endogenous priming abilities

Answer 173

False

Question 174

What are the 3 types of DNA rearrangements ?

Answer 174

1. Homologous recombination
2. Translocations
3. Transposable elements (retrotransposons)

Question 175

Which DNA rearrangement is considered often deleterious and pathogenic?

Answer 175

Translocations

• breaks in Chromosomes caused by damaging agents
• whole sections of one chromosome moved to another chromosome entirely

Question 176

What is a transposable element ?

Answer 176

“Jumping genes” - corn
Segments of DNA that can move from their original position to a new location without causing damage - just phenotypic changes

Question 177

What do most transposons in Human DNA invlove?

Answer 177

RNA intermediate (Alu) - reverse transducer

Question 178

What are the features of Mitochondrial DNA ?

Answer 178

• Exclusively from the mother
• Extra chromosomal
• Replicated randomly and separate from Nuclear DNA
• Heteroplasmy - no cell has identical copies of mtDNA leads to phenotypic variability

Question 179

Reverse transcriptase differs from DNA polymerase in what way ?

Answer 179

DNA polymerase has 3’ to 5’ exonuclease activity and Reverse transcriptase does not (lacks proof reading ability)

Question 180

Name the steps that RNA is turned into DNA

Answer 180

1. RNA is copied to make cDNA

2. cDNA is used after RNA is degraded to synthesize double strand DNA

Question 181

What are the Pyrimidines ?

Answer 181

Thymine (T)
Cytosine (C)
Uracil (U- RNA only for binding with A)

Question 182

What are the purines ?

Answer 182

Guanine (G)

Adenine (A)

Question 183

Purines are composed of a _____ structure.

Answer 183

Bicyclic (double ring)

Question 184

Inosine monophosphate can be used to generate what ?

Answer 184

AMP or GMP

Question 185

High levels of GMP will inhibit the conversion of ____ to ____.

Answer 185

IMP to GMP

Question 186

High levels of AMP will inhibit the conversion of ____ to _____.

Answer 186

IMP to AMP

Question 187

Degradation of purines creates _____ ______ , which is insoluble and accumulation can cause gout.

Answer 187

Uric acid

Question 188

Hypoxanthine-Guanine phosphoribosyltransferase (HGPRT) can be used to convert hypoxanthine to _____ or Guanine to ______.

Answer 188

Hypoxanthine (free base) to IMP(nucleotide)

Guanine (free base) to GMP (nucleotide)

Question 189

Treatment for gout includes inhibition of ______ ______ by allopurinol .

Answer 189

Xanthine oxidase (enzyme that converts Hypoxanthine to Xanthine then acts on Xanthine to make Uric acid again)

Question 190

What 3 things are added together and acted on by Carbamoyl phosphate synthetase II (CPS II) to make carbamoyl phosphate in first step of Pyrimidine pathway ?

Answer 190

Glutamine + CO2+ ATP

Question 191

Defects in pyrimidine synthesis primarily lead to the generation of _____ ___.

Answer 191

Orotic acid

Question 192

What does 5-fluorouracil do ?

Answer 192

inhibits thymidylate synthase by reducing dTMP avaliable for DNA replication (blocks conversion of dUMP to dTMP)

Question 193

What does Methotrexate do ?

Answer 193

inhibits the folate cycle more generally - Folate is a carbon donor for the synthesis of both purines and pyrimidines (CH3- methyl group)

Question 194

DNA replication occurs in S phase of cell cycle in contrast to ____ and _____ that can occur at all phases.

Answer 194

Transcription and Translation

Question 195

How does Topoisomerase work?

Answer 195

Causes single or double stranded nicks in the DNA to relieve torsional strain before Helicase breaks hydrogen bonds

Question 196

What is the committed step of purine synthesis ?

Answer 196

Formation of 5-Phosphoribosyl-1-Amine by Glutamine Phosphoribosyl amidotransferase

Question 197

What is the commited step of purine synthesis (formation of 5-phosphoribosyl-1-amine by Glutamine phsophoribosyl amidotransferse) inhibited by ?

Answer 197

AMP and GMP (mostly but can also be Di and Triphosphate versions)
(ADP and GDP will inhibit the prior step in creation of PRPP which is not ‘commited’ step for Purine pathway as it is used in both purines and pyrimidine synthesis)

Question 198

Cellular concentrations of PRPP and _____ are usually below their Km for glutamine ________ _________. Thus any situation that leads to an increase in their concentration, can lead to an increase in de novo purine biosynthesis.

Answer 198

Glutamine

phosphoribosyl amidotransferase

Question 199

Oxypurine = \_\_\_\_\_\_
Aminopurine = \_\_\_\_\_\_

Answer 199

GDP

ADP

Question 200

What enzyme is used to change IMP to XMP and is inhibited by its own product later on of GMP ?

Answer 200

IMP dehyrodrogenase

Question 201

What enzyme is used to change IMP to Adenylosuccinate and is inhibited by its own product later on of AMP ?

Answer 201

Adenylosuccinate synthetase

Question 202

Which base is the only nucleoside that can be directly phosphorylated to the nucleotide form ?

Answer 202

Adenosine is phosphorylated to AMP (Nucleotide) by Adenosine kinase

Question 203

Where does PRPP come into play in the Pyrimidine cycle ?

Answer 203

After Orotate is formed (Orotic Acid) - PRPP is added to make UMP then UMP is turned into UDP which is where the path splits

Question 204

Which nucleoside is almost never made in vivo?

Answer 204

Thymine - the pyrimidine phosphorylase has a very very low affinity for it - (has highest affinity for Uracil in salvage pathway ) - Thymine has its own “thymidine phosphorylase” that adds a deoxyribose residue in recycling

Question 205

What is the significance of Thymidine kinase above the other kinases ?

Answer 205

Allosterically inhibited by dTTP
-Activity in TK is closely related to cell cycle stage, dramatic rise as cell enters S phase - can be radiolabled for use to estimate DNA synthesis

Question 206

What are two ways to make dUMP ?

Answer 206

1. dUDP can be dephosphorylated to form dUMP

2. dCMP can be deaminated to form dUMP (release of NH4 group)

Question 207

AMP is first deaminated to produce _____ using AMP deaminase.

Answer 207

IMP

Question 208

After AMP is deaminated to form IMP, then IMP and ___ are dephosphorylated by ________ and the ribose is cleaved from the base by purine nucleoside phosphorylase.

Answer 208

GMP

5’nucleotidase

Question 209

What base is produced by IMP cleavage?

Answer 209

Hypoxanthine (free base)

Question 210

How is guanine turned into xanthine ?

Answer 210

deaminated by enzyme guanase to produce xanthine

Question 211

What is the incentive for the body to recycle purines ?

Answer 211

Cost a lot of energy to produce Purine rings, and not much energy is obtained in return from them in salvage process

Question 212

Uric acid has a pK of ____. It is _____ in the body to form Urate. Urate is not very soluble in an aqueous enviornment.

Answer 212

5.4

Ionized (Uric acid loses electrons to make Urate)