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5 Written questions

5 Matching questions

  1. Cytochrome a₃
  2. Net reaction of photosynthesis
  3. Proteins
  4. FMN (flavin mononuclotide)
  5. Fermentation
  1. a - first molecule of the ETC
    - reduced when it accepts electrons from NADH, therefore oxidizing NADH to NAD⁺
  2. b 6CO₂ + 2H₂O + energy --> C₆H₁₂O₆ + 6O₂
  3. c - last carrier of the ETC
    - passes its electron to the final eectron acceptor, O₂
    - in addition, O₂ picks up a pair of hydrogen ions from the surrounding medium and forms water
    - 2H⁺ + 2e⁻ + ½ O₂ --> H₂O
  4. d - regeneration NAD⁺ to continue glycolysis without O₂
    - reduce pyruvate to ethanol or lactic acid
    - fermentation produces only 2 ATP per glucose molecule
  5. e - the body degrades amino acids only when there isn't enough carbs available
    - most amino acids undergo a transamination reaction where they lose an amino group to form an alpha-keto acid
    - carbon atoms of most amino acids are converted into acetyl CoA, pyruvate or one of the intermediates of the citric acid cycle

5 Multiple choice questions

  1. - series of reactions that lead to the oxidative breakdown of glucose into two molecules of pyruvate, the production of ATP and reduction of NAD⁺ into NADH
    - occurs in cytoplasm
    - mediated by specific enzymes
  2. - stored in adipose tissue in the form of triglyceride
    - when needed, they are hydrolyzed by lipases to fatty acids and glycerol, and are carried by the blood to other tissues for oxidation
    - glycerol can be converted into PGAL
    - a fatty acid must be "activated" first in the cytoplasm, this requires 2 ATP
    - on active, it is transorted into mitochondrion and taken through a series of "beta-oxidation cycles" that convert it into two carbon fragments, then converted to acetyl CoA, which enter TCA cycle.
    - each round of beta oxidation generates 1 NADH and 1 FADH₂
    -fats yield the most ATP per gram
  3. - most efficient catabolic pathway to harvest energy stored in glucose
    - occurs in mitochondrion and catalyzed by reaction specific enzymes
    - produces 36-38 ATP
    - aerobic, O₂ acts as the final acceptor of electrons that are passed from carrier to carrier during the final stage of glucose oxidation
    - three stages: pyruvate decarboxylation, citric acid cycle and electron transport chain
  4. - occurs in certain fungi and bacteria and in human muscle cells during strenuous activity
    - happens when oxygen supply to muscle cells lags behind the rate of glucose catabolism
    - pyruvate generated is reduced to lactic acid, which can lower blood pH if accumulated, eventually becomes muscle fatigue
    - oxygen debt: the amount of oxygen needed to oxidize lactic acid back to pyruvate and enters cellular respiration
  5. - known as the Krebs cycle or the tricarboxylic acid cycle (TCA cycle)
    - begins when the two carbon acetyl group from acetyl CoA combines with oxaloacetate, a four carbon molecule, to form the six carbon citrate
    - 2CO₂ are released, oxaloacetate is regenerated to use for another turn of the cycle
    - 1 cycle = 1 ATP produced by substrate level phosporylation via GTP intermediate
    - electrons are transferred to NAD⁺ and FAD, generating NADH and FADH₂, which transport electrons to electron transport chain

5 True/False questions

  1. ATP Generation and the Proton Pump6CO₂ + 2H₂O + energy --> C₆H₁₂O₆ + 6O₂

          

  2. Oxidative Phosphorylation- ATP is produced when high energy potential electrons are transferred from NADH and FADH₂ to oxygen by a series of carrier molecules located in the inner mitochondrial membrane
    - as the electrons are transferred from carrier to carrier, free energy is released
    - later this energy is used to form ATP

          

  3. Reduction- gain of electrons

          

  4. NADP⁺nicotinamide adenine dinuclotide

          

  5. Net Reaction for Glycolysisglucose + 2ADP + 2Pi + 2 NAD⁺

    -->

    2 pyruvate + 2ATP + 2NADH + 2H⁺ + 2H₂O

          

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