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GRE Biochemistry

Subjects : gre, science

Instructions:

Answer 50 questions in 15 minutes.
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Match each statement with the correct term.
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This is a study tool. The 3 wrong answers for each question are randomly chosen from answers to other questions. So, you might find at times the answers obvious, but you will see it re-enforces your understanding as you take the test each time.

1. Failure of chromosome pairs to separate during meiosis
euchromatin
nondisjunction
pleiotropic
SRP - signal recognition particle

2. Gene has multiple effects
Signal recognition particle (SRP)
Aromatic/Achiral AAs
pyruvate dehydrogenase
pleiotropic

3. Acetyl-CoA to malonyl-CoA - rate limiting step in fatty acid synthesis
Steroid Hormones
Acetyl-CoA carboxylase
Polytene chromosome
phosphorolysis

4. Phosphotransferase - is a type of enzyme that transfers phosphate groups from high-energy donor molecules - such as ATP -[2] to specific substrates. The process is referred to as phosphorylation -
pH
Acetyl-CoA carboxylase
kinase
gene conversion

5. Catalyzes the addition of bicarbonate to phosphoenolpyruvate (PEP) to form the four-carbon compound oxaloacetate
pH
catalase
PEP carboxylase
Charged AAs

6. Circular and double stranded
northern blot
2D gel electrophoresis
mtDNA and chDNA
Steroid Hormones

7. Enter cells freely
phosphatase
Steroid Hormones
mtDNA and chDNA
temperate bacteriophage

8. Recognizes and targets specific proteins to the endoplasmic reticulum in eukaryotes and the plasma membrane in prokaryotes
Signal recognition particle (SRP)
cell plate
eEF-1 and eEF-2
alternative splicing

9. FAD-2 - NADP-3
FAD and NADP ATP equivalents
mitochondria
SOS repair
centimorgans

10. It uncouples oxidative phosphorylation by carrying protons across the mitochondrial membrane - leading to a rapid consumption of energy without generation of ATP.
2 -4 DNP
northern blot
gene conversion
temperate bacteriophage

11. Secondary messenger - used for intracellular signal transduction - such as transferring the effects of hormones like glucagon and adrenaline - which cannot pass through the cell membrane. It is involved in the activation of protein kinases and regula
cAMP
F- bacteria
3' terminal -OH
Acetyl-CoA carboxylase

12. 1e-14
F- bacteria
chymotrypsin
PEP carboxylase
[A][B]

13. Cis faces the ER and trans faces the plasma membrane
Charged AAs
FAD and NADP ATP equivalents
cis and trans golgi network
Signal recognition particle (SRP)

14. Isoelectric point and MW
Signal recognition particle (SRP)
epinephrine
Polar AAs
2D gel electrophoresis

15. Can undergo both lytic and lysogenic cycle
origin of multi gene families
Polar AAs
alternative splicing
temperate bacteriophage

16. Enzymes in Krebs cycle that produce NADH
temperate bacteriophage
Aromatic/Achiral AAs
isocitrate dehydrogenase and a-ketogluterase
chymotrypsin

17. Triglycerides - cholesterols - and phospholipids
Polar AAs
kinase
VLDL
EF-G

18. Ser - Cys - Thr - Gln - Asn
pleiotropic
FAD and NADP ATP equivalents
Polar AAs
PEP carboxylase

19. Makes Acetyl-CoA from pyruvate
intermediate filiments
kb
pyruvate dehydrogenase
kinase

20. Non-protein chemical compound that is bound to a protein and is required for the protein'S biological activity
EF-G
cofactors
Thiamine Pyrophosphate (TPP)
[A][B]

21. Val - Leu - Ile - Ala - Met
Non Polar AAs
aconitase
heterochromatin
gene conversion

22. Vitamin B1 - cofactor that aids in dehydrogenase mostly
Thiamine Pyrophosphate (TPP)
epinephrine
tyrosine kinase
Aromatic/Achiral AAs

23. Contain their own DNA - mRNA - and proteins to synthesize more
nondisjunction
Hfr bacteria
euchromatin
mitochondria

24. Measure tendency for recombination (frequency) 1cM = 1% chance of being separated
mitochondria
cis and trans golgi network
centimorgans
chance of in frame fusion for operon? and gene?

25. Catalyzes the irreversible carboxylation of pyruvate to oxaloacetate (OAA).
Pyruvate carboxylase
VLDL
Acetyl-CoA carboxylase
epinephrine

26. Acts as a coenzyme in all transamination reactions - and in some decarboxylation and deamination reactions of amino acids. The aldehyde group of PLP forms a Schiff-base linkage (internal aldimine) with the e-amino group of a specific lysine group of
microtubules
mtDNA and chDNA
PEP carboxykinase
Pyridoxal-phosphate (PLP)

27. Can serve as a primer

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28. Cleaves on C terminal side of lysine and arginine
trypsin
2D gel electrophoresis
chymotrypsin
Acetyl-CoA carboxylase

29. Possess F factor integrated into the bacterial genome. After integration into the host chromosomal DNA - these plasmids possess portions of - or entire - F factor and portions of the bacterial genome.
microfiliments
nondisjunction
Hfr bacteria
kb

30. Phe - Trp - Tyr - Gly - Pro
F+ bacteria
FAD and NADP ATP equivalents
nondisjunction
Aromatic/Achiral AAs

31. Operon 1/2 - gene 1/6
centimorgans
chance of in frame fusion for operon? and gene?
PFK2
Aromatic/Achiral AAs

32. Gene duplication
nucleophile
microtubules
nondisjunction
origin of multi gene families

33. Catalyzes the transport of tRNA and mRNA down the ribosome in prokaryotes
intermediate filiments
EF-G
phosphorolysis
Pyridoxal-phosphate (PLP)

34. Repeated replication w/o cell division
mitochondria
trypsin
eEF-1 and eEF-2
Polytene chromosome

35. Unwound - participates in the active transcription of DNA to mRNA products - site of RNA Pol II regulation
FAD and NADP ATP equivalents
euchromatin
heterochromatin
epinephrine

36. Measures physical base pair distance
kb
cis and trans golgi network
Polar AAs
biotin

37. Donates electrons to form a bond such as N in amines and O in alcohols
phosphatase
nucleophile
EF-G
pH

38. Nuclear lamins - desmins - keratins - internexins (structure)
microtubules
intermediate filiments
FAD and NADP ATP equivalents
Charged AAs

39. Tightly packed form of DNA - less accessible to protein factors that usually bind DNA
catalase
origin of multi gene families
heterochromatin
pyruvate dehydrogenase

40. The most important regulatory enzyme of glycolysis. It is an allosteric enzyme made of 4 subunits and controlled by many activators and inhibitors. PFK-1 catalyzes the important 'committed' step of glycolysis - the conversion of fructose 6-phosphate
PFK1
[A][B]
PFK2
Non Polar AAs

41. PKa = pH
microtubules
pleiotropic
[B]=[A] - ratio = 1
gene conversion

42. Regulator of glycolysis when glucose is low by cleaving 2;6 BPG lowering PFK1 - opposite effect when glucose is high
chymotrypsin
mitochondria
PFK2
heterochromatin

43. = pKa+ log(B/A) - -log(Ka)
Hfr bacteria
F+ bacteria
3' terminal -OH
pH

44. Possess an F plasmid that also includes some DNA taken from the bacterial genome. Sometimes it is formed by incorrect excision from the chromosome

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45. Dynins and kinesins (movement) - cilia and flagella
chance of in frame fusion for operon? and gene?
eEF-1 and eEF-2
PFK1
microtubules

46. When exons are arranged in multiple orders after removal of introns
VLDL
alternative splicing
pH
epinephrine

47. Gprotein association - exchanges GDP to GTP - converts AMP into cyclic AMP. Cyclic AMP binds to protein kinase A: Protein kinase A phosphorylates phosphorylase kinase. increases Ca which binds calmodulin proteins which then binds to phosphorylase kin
Hexokinase and PFK1
biotin
epinephrine
F- bacteria

48. Serine protease that cleaves on c terminal side of aromatics
phosphorolysis
chymotrypsin
Non Polar AAs
Pyruvate carboxylase

49. RNA protein-complex
Polytene chromosome
SRP - signal recognition particle
FAD and NADP ATP equivalents
microfiliments

50. Actin - myosin - and other muscle proteins
catalase
Hexokinase and PFK1
microfiliments
kb