NHM 454 Exam 2 Questions with Detailed Verified Answers

NHM 454 Exam 2 Questions with Detailed
Verified Answers
What determines if a compound can act as an antioxidant? ANSWER: if
a compound can donate a hydrogen or electron and not become a

radical itself, it is a compound with antioxidant potential. It is all about
the chemical structure of the compound.


What does oxidation and reduction reactions involve? ANSWER: involves
the transfer of oxygen, hydrogen, or electrons


What is oxidation and reduction reactions commonly referred to as?
ANSWER: redox reactions


What is an antioxidants? ANSWER: substances which markedly delay or

prevent the oxidation of a substrate


Resonance stability ANSWER: stability of antioxidant after it donates

either a H+ or e-


What are the antioxidant actions in a compound? ANSWER: 3 ways: 1)
they can donate hydrogen or electon to a free radical;; 2) bind metals or

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compounds that can initate oxidation;; 3)antioxidant can bind to free

radical (servces as stabilizer)


What is oxidation by O2? reduction? ANSWER: gain of oxygen --- loss of
oxygen


What is redox reaction by H transfer? ANSWER: oxidation = loss of a

hydrogen ---- reduction = gain of a hydrogen


What is redox reaction by electron transfer? ANSWER: oxidation = loss
of electrons --- reduction = gain of electrons


Most common type of redox reaction? ANSWER: By transfer of H+


H+ to be extracted from protein, lipid, DNA


Hydrogen Atom Transfer Mechanism ANSWER: H+ have to be added to
the compound that was oxidized in order to stabilize it


What is the compound stability based on? ANSWER: the instability of

the valence shell is in free radicals and where antioxidants come in


What can be a free radical? ANSWER: ANY compound that has lost an e-
from its valence shell

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Can an O2 become a free radical? How? ANSWER: Yes becuase of their

role in generation of ATP -- terminal electron acceptor in mitochondria
that in its ground state, oxygen has two unpaired electrons in outer
shell. electrons have the same spin, so oxygen can only receive one

electron at a time int he ETC. the rate of the elctrons in ETC stomeimes
slows or speeds --> free electron linkage occurs. when they link the

readily bind oxygen, if the rate excessed the ability of oxygen to bind,
free radicals will form due to a leark OR superoxide can form from the

slowing flow that causes a oxygen to spin out with one free valence
electron in cell


How much of oxygen results in production of reactive oxygen species?

ANSWER: 2-5% of oxygen in gneeration of ATP


What is a source of oxidative stress? Why? Quenches this stress?

ANSWER: exercise is a source of oxidative stress due to increase O2
intake --- food quenches it


What is superoxide? ANSWER: an oxygen that became a free radical due

to the unpaired valence electron in its outer cell


What is ROS? ANSWER: reactive oxidative species


free radicals containing O2 (w/ unpaired e- in outer shell)

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are strong oxidants and can be beneficial


detrimental at high levels


What are examples of ROS? ANSWER: hydroxyl radical, singlet oxygen,
hydrogen peroxide, peroxyl radical, etc.


What does excess ROS do? ANSWER: overwhelms protective enzymes

resulting in oxidative stress (destroying tissues/disrupting DNA)


What is the most potent radical? ANSWER: oxygen


What are endogenous antioxidant enzymes? ANSWER: superoxide

dismutase


gluathione peroxidase


catalase


glutathone reductase


produced based on amnt of BASAL oxidative stress


What were endogenous antioxidant enzymes created for? ANSWER: By
body to: