Biochem FA - p34-45 Molecular

Question 1

What gives DNA negative charge?

Answer 1

phosphate groups

Question 2

What gives histones a positive charge?

Answer 2

lysine and arginine

Question 3

Methylation within gene promoter (CpG islands) does what?

Answer 3

typically represses (silences) gene transcription

Question 4

How does histone acetylation activate DNA?

Answer 4

Removal of histone’s ⊕ charge –> relaxed DNA coiling –> inc transcription.

Question 5

where is the triphosphate on the nucleotide?

Answer 5

5’ end

Question 6

Difference between purines and pyrimidines?

Answer 6

PURines (A,G)—2 rings. PYrimidines (C,U,T)—1 ring.

Question 7

Difference between C-G bonds and A-T bonds?

Answer 7

G-C bond (3 H bonds) stronger than A-T bond (2 H bonds). IncG-C content –> Inc melting temperature of DNA. “C-G bonds are like Crazy Glue.”

Question 8

Amino acids necessary for purine synthesis?

Answer 8

Glycine Aspartate Glutamine (Cats purr until they GAG):

Question 9

uracil + ___?___ = thymine?

Answer 9

Methylation of uracil makes thymine

Question 10

What rx (-) orotic acid formation (pyrimidine synthesis)?

Answer 10

ƒ Leflunomide: inhibits dihydroorotate dehydrogenase [stops Carbamoyl phosphate + Asp –> orotic acid]

Question 11

Rx that inhibit dihydrofolate reductase (dec deoxythymidine monophosphate [dTMP]) in humans?

Answer 11

Methotrexate (MTX)

Question 12

Same mech as MTX but in bacteria / protozoa?

Answer 12

trimethoprim (TMP) for bacteria, and pyrimethamine for protozoa

Question 13

Mech of 5-florouracil (5-FU)?

Answer 13

form 5-F-dUMP, which inhibits thymidylate synthase (decdTMP)

Question 14

Rx that inhibit de novo purine synthesis?

Answer 14

6-mercaptopurine (6-MP) and its prodrug azathioprine

Question 15

Mech of Mycophenolate and ribavirin?

Answer 15

inhibit inosine monophosphate dehydrogenase

Question 16

Rx that inhibits both purine and pyrimidine synthesis? mech of action?

Answer 16

ƒ Hydroxyurea: inhibits ribonucleotide reductase

Question 17

Where are the locations of CPS (Carbamoyl phosphate synthase) I & II?

Answer 17

CPS1 = m1tochondria (urea cycle) CPS2 = cyTWOsol

Question 18

Rxs that inhibits Pyrimidine synthesis?

Answer 18

ƒ Leflunomide
ƒ Methotrexate (MTX), trimethoprim (TMP), and pyrimethamine
ƒ 5-florouracil (5-FU) and its prodrug capecitabin

Question 19

Rxs that inhibit Purine synthesis?

Answer 19

ƒ 6-mercaptopurine (6-MP) and its prodrug azathioprine

ƒ Mycophenolate and ribavirin: inhibit inosine monophosphate dehydrogenase

Question 20

Major cause of autosomal recessive SCID?

Answer 20

Adenosine deaminase deficiency

Question 21

def of adenosine deaminase causes an issue with our immune system why?

Answer 21

The enzyme is used in purine salvage pathways to break down adenosine and dATP. Increased dATP = lymphotoxicity

Question 22

deficiency of HGPRT leads to excess what?

Answer 22

uric acid production and de novo purine synthesis?

Question 23

HGPRT def seen in what patient population? why?

Answer 23

male babies - bc it’s x linked recessive

Question 24

Symptoms of HGPRT def?

Answer 24

Hyperuricemia 
Gout 
Pissed off (aggression, self-mutilation) 
Retardation (intellectual disability)
 DysTonia

Question 25

Reaction catalyzed by HGPRT?

Answer 25

converts hypoxanthine to IMP and guanine to GMP

Question 26

Mechanism of action of allopurinol? give another rx with same mech?

Answer 26

Competitive inhibitor of xanthine oxidase –> decconversion of hypoxanthine and xanthine to urate.
2nd line rx - Febuxostat

Question 27

Sign of hyperuricemia in babies?

Answer 27

(orange “sand” [sodium urate crystals] in diaper

Question 28

Which rx working on rasburicase will increase uric acid in urine/decrease it?

Answer 28

Probenecid stimulates rasburicase, thereby increasing uric acid in urine, Aspirin inhibits it

Question 29

Another use of allopurinol other than gout?

Answer 29

used in leukemia/lymphoma to prevent tumor lysis syndrome

Question 30

SE// of allopurinol/febuxostat

Answer 30

• Added toxicity with Azathioprine/6-mercaptopurine bc they are metabolized by xanthine oxidase
• DRESS symptoms (Drug Reaction with Eosinophilia and systemic symptoms - 2-8 wks post admin: fever, morbilliform rash, HS-IV rxn)
• Cutaneous small vessel vasculitis (7-10 d after = palpable purpura)
• Steven Johnson syndrome

Question 31

SE// of probenecid

Answer 31

• can lead to uric acid calculi. (kidney stones)

- Is a Sulfa drug (DRESS sx, allergic rxn, Steven Johnson, etc)

Question 32

Which two amino acids are coded by only one codon? What are their codons?

Answer 32

methionine (AUG) and tryptophan (UGG) encoded by only 1 codon.

UGG - I’m so full. Tryptophan, thanksgiving, yaadah yaadah

Question 33

Which nucleotides are seen in origins of replication and promotors?

Answer 33

AT-rich sequences (such as TATA box regions) are found in promoters and origins of replication

Question 34

what enzyme of DNA replication is deficient in Bloom syndrome?

Answer 34

Helicase.

Question 35

Inhibitors of topoisomerases in eukaryotes?

Answer 35

In eukaryotes: irinotecan/topotecan inhibit topoisomerase (TOP) I, etoposide/teniposide inhibit TOP II.

Question 36

inhibitors of topoisomerases in prokaryotes?

Answer 36

In prokaryotes: fluoroquinolones inhibit TOP II (DNA gyrase) and TOP IV.

Question 37

Function of DNA polymerase I and III in prokaryotes?

Answer 37

DNA polymerase III has 5′ –> 3′ synthesis and proofreads with 3′ –> 5′ exonuclease, DNA polymerase I does the same thing + it cuts out the RNA primer with at 5’ –>3’ exonuclease

Question 38

What sequence of nucleotides does telomerase add?

Answer 38

TTAGGG

Telomerase TAGs for Greatness and Glory.

Question 39

Of all the DNA mutations - list in order from least damage to worst?

Answer 39

silent &laquo_space;missense < nonsense < frameshift.

Question 40

What’s a missense mutation? Example?

Answer 40

Nucleotide substitution resulting in changed amino acid (called conservative if new amino acid is similar in chemical structure).
Ex/ sickle cell disease (substitution of glutamic acid with valine).

Question 41

Nonsense mutation? ex?

Answer 41

Nucleotide substitution resulting in early stop codon. Usually results in nonfunctional protein
ex/Duchenne Musc dystrophy (more often frameshift in a Q)

Question 42

List the stop codons

Answer 42

UAG, UAA, UGA

U Are Gone
U Are Away
U Go Away

Question 43

What’s a frameshift mutation? Ex?

Answer 43

Deletion or insertion of a number of nucleotides not divisible by 3, resulting in misreading of all nucleotides downstream. Protein may be shorter or longer, and its function may be disrupted or altered.
Ex/
Duchenne & Becker muscular dystrophy, Tay-Sachs disease.

Question 44

Ex of splice site mutation?

Answer 44

rare causes of cancers, dementia, epilepsy, some types of β-thalassemia.

Question 45

What causes the lac operon to be turned on?

Answer 45

Glucose is the preferred metabolic substrate in E coli, but when glucose is absent and lactose is available, the lac operon is activated to switch to lactose metabolism.

Question 46

How does the lac operon work?

Answer 46

Low glucose –> Incadenylate cyclase activity –> Inc generation of cAMP from ATP –>activation of catabolite activator protein (CAP) –> Inc transcription.

High lactose –>unbinds repressor protein from repressor/operator site –> Inctranscription.

Question 47

When does nucleotide excision repair occur?

Answer 47

G1 phase of cell cycle

Question 48

Which disease has defects in nucleotide excision repair? What does it have issues repairing?

Answer 48

Xeroderma pigmentosum, can’t repair DNA pyrimidine dimers caused by UV exposure

Question 49

When does mismatch repair occur?

Answer 49

S phase of cell cycle

Question 50

What disease is mismatch repair defective?

Answer 50

Lynch syndrome

Question 51

Disease that has issues repairing double stranded breaks?

Answer 51

Ataxia telangiectasia

Question 52

Which disease has issues fixing homologous DNA breaks?

Answer 52

Breast/ovarian cancer with BRCA1

Fanconi anemia

Question 53

Prokaryotic start codon codes for? What does it cause in humans?

Answer 53

AUG codes for N-formylmethionine - stimulates neutrophil chemotaxis

Question 54

Where does mRNA quality control occur?

Answer 54

cytoplasmic processing bodies - P bodies

Question 55

Function of RNA polymerase I, II, III?

Answer 55

• RNA polymerase I makes rRNA, the most common (rampant) type; present only in nucleolus.
• RNA polymerase II makes mRNA (largest RNA, massive) and small nuclear RNA (snRNA). RNA polymerase II opens DNA at promoter site.
• RNA polymerase III makes 5S rRNA, tRNA (smallest RNA, tiny). No proofreading function, but can initiate chains.

Question 56

Toxin that (-) RNA polymerase II

Answer 56

α-amanitin, found in Amanita phalloides (death cap mushrooms), inhibits RNA polymerase II.

Question 57

(-) RNA polymerase in both prokaryotes and eukaroyotes?

Answer 57

Actinomycin D, also known as dactinomycin, inhibits RNA polymerase in both prokaryotes and eukaryotes.

Question 58

what drug inhibits DNA dependent RNA polymerase in prokaryotes?

Answer 58

Rifampin

Question 59

what is a microRNA?

Answer 59

MicroRNAs (miRNAs) are small, noncoding RNA molecules that posttranscriptionally regulate gene expression by targeting the 3′ untranslated region of specific mRNAs for degradation or translational repression

Question 60

What nucleotides are at the 3’ end of tRNA ?

Answer 60

CCA - (5’-CCA-3’ is the amino acid acceptor site)

Question 61

What is the T arm?

Answer 61

On tRNA, contains the TΨC (ribothymidine, pseudouridine, cytidine) sequence necessary for tRNAribosome binding. T-arm Tethers tRNA molecule to ribosome

Question 62

What is the D arm?

Answer 62

contains Dihydrouridine residues necessary for tRNA recognition by the correct aminoacyltRNA synthetase.

D-arm Detects the tRNA by aminoacyl-tRNA synthetase

Question 63

function of aminoacyl-tRNA synthase?

Answer 63

Aminoacyl-tRNA synthetase and binding of charged tRNA to the codon are responsible for the accuracy of amino acid selection.

Aminoacyl-tRNA synthetase matches an amino acid to the tRNA by scrutinizing the amino acid before and after it binds to tRNA. If an incorrect amino acid is attached, the bond is hydrolyzed.

Question 64

What happens if a tRNA is mischarged?

Answer 64

A mischarged tRNA reads the usual codon but inserts the wrong amino acid.

Question 65

List ribosomal subunits in eukaryotes and prokaryotes?

Answer 65

Eukaryotes: 40S + 60S –> 80S (Even)

Prokaryotes: 30S + 50S –> 70S (Prime)

Question 66

Where does the energy for tRNA function come from?

Answer 66

ATP—tRNA Activation (charging).

GTP—tRNA Gripping and Going places (translocation).

Question 67

List the active sites on tRNA?

Answer 67

A site = incoming Aminoacyl-tRNA.
P site = accommodates growing Peptide.
E site = holds Empty tRNA as it Exits.

Question 68

Most amino acyl-tRNA binds to A site, except?

Answer 68

Aminoacyl-tRNA binds to A site - except for initiator methionine, which binds the P site

Question 69

How is translation stopped?

Answer 69

Eukaryotic release factors (eRFs) recognize the stop codon and halt translation –> completed polypeptide is released from ribosome. Requires GTP.

Question 70

Sx of Fanconi anemia

Answer 70

Short stature, café-au-lait spots, thumb/radial defects, incidence of tumors/leukemia, aplastic anemia

Question 71

hnRNA is what?

Answer 71

Initial transcript is called heterogeneous nuclear RNA (hnRNA). hnRNA is then modified and becomes mRNA