Concept explainers
Interpretation:
The simple diffusion and facilitated diffusion needs to be compared.
Concept introduction:
Diffusion is the process in which particles moves from higher concentration region to lower concentration region. Diffusion is classified by the presence and absence of the facilitator molecule they are simple diffusion and facilitated diffusion.
Answer to Problem 1P
Simple diffusion is a passive process whereas facilitated diffusion is an active process that uses energy. Simple diffusion occurs without any intermediate molecule like channel protein or carrier molecules and facilitated diffusion occur across cells membrane through specific trans-membrane proteins. Molecules pass only in one direction of concentration region in simple diffusion. Whereas molecule in facilitated diffusion passes in both direction opposite to each other in the concentration region.
Explanation of Solution
Passive transport methods can be classified into two types via simple and facilitated diffusion. It is the process of transporting molecules across the cell membrane. Both the types are different from each other, as follows:
Simple Diffusion:
Simple diffusion is a type of diffusion where the particle moves from higher to lower concentration region.
Simple diffusion can transfer smaller and nonpolar particle like oxygen, carbon dioxide phospholipid bilayer.
Rate of diffusion is proportional to concentration gradient, permability of membrane molecule, temperature, molecular size.
Speed of simple diffusion is lower than facilitated diffusion.
Facilitated Diffusion:
Facilitated diffusion is a type of diffusion in which particles were transferred across biological membranes in assistance with a carrier molecule.
Large and polar ions can be transferred through transmembrane carrier protein in facilitated diffusion.
Rate of diffusion depends on the kinetics of carrier molecules and the rate of diffusion is high at a lower concentration.
Speed of facilitated diffusion is faster comparative to simple diffusion.
Both the diffusion methods are passive transport method that carries molecules across the membrane. Diffusion occurs through concentration gradient but in a different manner. Like, molecules move down in simple diffusion and molecules move in unfacilitated diffusion. Simple diffusion allows direct transportation of molecules whereas facilitated diffusion transports molecules through transmembrane proteins.
Want to see more full solutions like this?
Chapter 13 Solutions
BIOCHEM-ACHIEVE(FIRST DAY DISCOUNTED)
- Please draw out the mechanism with curved arrows showing electron flow. Pyruvate is accepted into the TCA cycle by a “feeder” reaction using the pyruvate dehydrogenase complex, resulting in acetyl-CoA and CO2. Provide the mechanism for this reaction utilizing the TPP cofactor. Include the roles of all cofactors.arrow_forwardPyruvate is accepted into the TCA cycle by a “feeder” reaction using the pyruvate dehydrogenase complex, resulting in acetyl-CoA and CO2. Provide the mechanism for this reaction utilizing the TPP cofactor. Include the roles of all cofactors.arrow_forwardThe mitochondrial ATP synthase has 10 copies of the F0 subunit “c”, and the [H ] in the mitochondrial inner membrane space (IMS) is 6.31 x 10-8 M and the [H + ] in the matrix is 3.16 x 10-9 M. Calculate the minimum membrane potential (∆Ψ) necessary to make ATP synthesis thermodynamically favorable. [Assume ∆G' ofphosphate hydrolysis of ATP is - 45 kJ/mol.]arrow_forward
- B- Vitamins are converted readily into important metabolic cofactors. Deficiency in any one of them has serious side effects. a. The disease beriberi results from a vitamin B 1 (Thiamine) deficiency and is characterized by cardiac and neurological symptoms. One key diagnostic for this disease is an increased level of pyruvate and α-ketoglutarate in the bloodstream. How does this vitamin deficiency lead to increased serumlevels of these factors? b. What would you expect the effect on the TCA intermediates for a patient suffering from vitamin B 5 deficiency? c. What would you expect the effect on the TCA intermediates for a patientsuffering from vitamin B 2 /B 3 deficiency?arrow_forwardPyruvate is accepted into the TCA cycle by a “feeder” reaction using the pyruvate dehydrogenase complex, resulting in acetyl-CoA and CO2. Provide a full mechanism for this reaction utilizing the TPP cofactor. Include the roles of all cofactors.arrow_forwardMap out all of the metabolic pathways in the liver cell. Draw out the structures and names of all compounds neatly by hand and the pathways responsible for metabolizing them. Some examples are: Glycolysis/gluconeogenesis, PPP, Glycogenesis/glycogenolysis, Krebs, ETC, selectamino acid pathways (Ala, Glu, Asp) Lipogenesis/lipolysis. Citrate/MAS/glycerol phosphate shuttlesystems, and the Cori/Glc-Ala cycles. Rules:-Draw both a mitochondrial area of metabolism and a cytoplasmic area of metabolism.-Draw the liver and its roles in glucose recycling (Cori cycle/Glc-Alanine recycling)-Avoid drawing the same molecule twice (except for separate mitochondrial/cytoplasmic populations. i.e. Design the PPP/Glycolysis so that GAP is only drawn once)-Label Carbon 4 of glucose and highlight where you would expect to find it in EVERY compound in whichit is present.-Have one or two locations for NADH/NADPH/ATP/GTP/CoQH2 – many arrows will come to/from thesespots.arrow_forward
- a. Draw the Krebs Cycle and show the entry points for the amino acids Alanine,Glutamic Acid, Asparagine, and Valine into the Krebs Cycle. (Include name of Enzymes involved) b. How many rounds of Krebs will be required to waste all Carbons of Glutamic Acid as CO2? (Show by drawing out the mechanism that occurs)arrow_forwardThe malate-aspartate shuttle allows malate to be exchanged for aspartate acrossthe inner mitochondrial membrane. (a) Describe the role of the malate-aspartate shuttle in liver cells under HIGHblood glucose conditions. Be sure to explain your answer. (b) Describe the role of the malate-aspartate shuttle in liver cells under LOW blood + glucose conditions.arrow_forward(a) Write out the net reaction, calculate ∆E ̊' for the reaction, and calculate the standard free-energy change (∆G°') for the overall oxidation/reduction reaction. (h) How many moles of ATP could theoretically be generated per mole of FADH2 oxidized by this reaction, given a ∆G ̊' of ATP synthesis of + 31 kJ/mol? How many moles of ATP could be generated per mole of FADH2 oxidized by this reaction under more typical cellular conditions (where ∆G' of ATP hydrolysis is ~ -50 kJ/mol)? Be sure to show your work and explain your answer.arrow_forward
- Indicate for the reactions below which type of enzyme and cofactor(s) (if any) would be required to catalyze each reaction shown. 1) Fru-6-P + Ery-4-P <--> GAP + Sed-7-P2) Fru-6-P + Pi <--> Fru-1,6-BP + H2O3) GTP + ADP <--> GDP + ATP4) Sed-7-P + GAP <--> Rib-5-P + Xyl-5-P5) Oxaloacetate + GTP ---> PEP + GDP + CO26) DHAP + Ery-4-P <--> Sed-1,7-BP + H2O7) Pyruvate + ATP + HCO3- ---> Oxaloacetate + ADP + Piarrow_forwardThe phosphate translocase is an inner mitochondrial membrane symporter that transports H2PO4- and H+ into the mitochondrial matrix. Phosphate is a substrate for Complex V (the ATP Synthase), the enzyme that couples the synthesis of ATP to the H+ gradient formed by the electron transport chain. (a) Bongotoxin is a hypothetical compound that inhibits the phosphate translocase of the inner mitochondrial membrane. Explain why electron transport from NADH to O2 stops when bongotoxin is added to mitochondria (i.e., why do electrons stop flowing through the electron transport chain even with an abundance of NADH and O 2 present). What effect will the addition of the weak acid dinitrophenol (DNP) to the cytosol have on electron transport in bongotoxin-inhibited mitochondria? Be sure to explain your answers. (b) How much free energy is released (in kJ) when one mole of protons flows from the mitochondrial inner membrane space (IMS) to the mitochondrial matrix when the [H+ ] in the IMS is 7.9 x…arrow_forwardWhen TMPD/ascorbate is added to mitochondria as a source of electrons (TMPD/ascorbate reduce cytochrome c directly) oxygen is reduced to H2O by the electron transport chain (ETC).(a) Approximately how many ATPs would result per O2 consumed when electrons come from TMPD/ascorbate? (b) If dinitrophenol (DNP) is added to the mitochondria in (a) above, what effect would DNP have on the yield of ATPs per O2 reduced from TMPD/ascorbate electrons?arrow_forward
Human Physiology: From Cells to Systems (MindTap ...BiologyISBN:9781285866932Author:Lauralee SherwoodPublisher:Cengage Learning
Nutrition Through the Life Cycle (MindTap Course ...Health & NutritionISBN:9781305628007Author:Judith E. BrownPublisher:Cengage Learning
Biology 2eBiologyISBN:9781947172517Author:Matthew Douglas, Jung Choi, Mary Ann ClarkPublisher:OpenStax
Biology Today and Tomorrow without Physiology (Mi...BiologyISBN:9781305117396Author:Cecie Starr, Christine Evers, Lisa StarrPublisher:Cengage Learning