Concept explainers
Videos
(a1)
To determine: The point where citric acid cycle is blocked.
Introduction:
The citric acid cycle is an aerobic respiration which produces excess amount of energy. The intermediate products of the citric acid cycle connect the
(a2)
To determine: The reason of accumulation of citrate and depletion of intermediates of other cycles.
Introduction:
The citric acid cycle is an aerobic respiration which produces excess amount of energy. The intermediate products of the citric acid cycle connect the metabolism of proteins, carbohydrates and fats. In the cycle, metabolism of acetyl CoA produces carbon dioxide and water.
(b1)
To determine: The structure of end product of fluoroacetate metabolism.
Introduction:
Metabolism is a chain of
(b2)
To determine: The reason for blockage of citric acid cycle due to the end product.
Introduction:
Metabolism is a chain of chemical reactions to break down the substances in order to generate new substance. In cellular metabolism, fluoroacetate combines with CoA to form fluoroacetyl CoA. It can replace acetyl CoA in the citric acid cycle and reacts with enzyme citrate synthase to produce fluorocitrate.
(b3)
To determine: The way to overcome the inhibition.
Introduction:
Metabolism is a chain of chemical reactions to break down the substances in order to generate new substance. In cellular metabolism, fluoroacetate combines with CoA to form fluoroacetyl CoA. It can replace acetyl CoA in the citric acid cycle and reacts with enzyme citrate synthase to produce fluorocitrate.
(c1)
To determine: The reason for decrement in glucose uptake and glycolysis in the experiment of heart perfusion.
Introduction:
Glycolysis is an aerobic respiration process which takes place to produce large amount of energy. Glycolysis process involves the continuous use of enzymes. Enzymes take part in the conversion of one cycle intermediate into another intermediate.
(c2)
To determine: The reason for accumulation of hexose monophosphate.
Introduction:
Glycolysis is an aerobic respiration process which takes place to produce large amount of energy. Glycolysis process involves the continuous use of enzymes. Enzymes take part in the conversion of one cycle intermediate into another intermediate. Any kind of inhibition in the enzymatic activity can cause decrement in the glycolysis cycle.
(d)
To describe: The reason for fatal property of fluoroacetate
Introduction:
Fluoroacetate is used as a rodenticide. It affects mammals and birds. The property of fluoroacetate is poisonous for cells because it is analog to citrate and is an inhibitor of citrate synthase enzyme. Inhibition of the enzymatic activity stops the cycle to proceed further and the cells lose their metabolic activity.
Want to see the full answer?
Check out a sample textbook solution
Chapter 16 Solutions
Lehninger Principles Of Biochemistry 7e & Study Guide And Solutions Manual For Lehninger Principles Of Biochemistry 7e
- please draw it for me and tell me where i need to modify the structurearrow_forwardPlease help determine the standard curve for my Kinase Activity in Excel Spreadsheet. Link: https://mnscu-my.sharepoint.com/personal/vi2163ss_go_minnstate_edu/_layouts/15/Doc.aspx?sourcedoc=%7B958f5aee-aabd-45d7-9f7e-380002892ee0%7D&action=default&slrid=9b178ea1-b025-8000-6e3f-1cbfb0aaef90&originalPath=aHR0cHM6Ly9tbnNjdS1teS5zaGFyZXBvaW50LmNvbS86eDovZy9wZXJzb25hbC92aTIxNjNzc19nb19taW5uc3RhdGVfZWR1L0VlNWFqNVc5cXRkRm4zNDRBQUtKTHVBQldtcEtWSUdNVmtJMkoxQzl3dmtPVlE_cnRpbWU9eEE2X291ZHIzVWc&CID=e2126631-9922-4cc5-b5d3-54c7007a756f&_SRM=0:G:93 Determine the amount of VRK1 is present 1. Average the data and calculate the mean absorbance for each concentration/dilution (Please over look for Corrections) 2. Blank Correction à Subtract 0 ug/mL blank absorbance from all readings (Please over look for Corrections) 3. Plot the Standard Curve (Please over look for Corrections) 4. Convert VRK1 concentration from ug/mL to g/L 5. Use the molar mass of VRK1 to convert to M and uM…arrow_forwardMacmillan Learning Cholesterol synthesis begins with the formation of mevalonate from acetyl CoA. This process activates mevalonate and converts it to isopentenyl pyrophosphate. Identify the atoms in mevalonate and isopentenyl pyrophosphate that will be labeled from acetyl CoA labeled with 14C in the carbonyl carbon. Place 14C atoms and C atoms to denote which carbon atoms are labeled and which are not labeled. H₂C COA 14C-labeled acetyl-CoA HHH [c] H H OH 014C - OH H HH H Mevalonate CH3 H H 14C H Η H H Incorrect Answer of o -P-O-P-0- Isopentenyl pyrophosphate с Answer Bank 14Carrow_forward
- Draw the reaction between sphingosine and arachidonic acid. Draw out the full structures.arrow_forwardDraw both cis and trans oleic acid. Explain why cis-oleic acid has a melting point of 13.4°C and trans-oleic acid has a melting point of 44.5°C.arrow_forwardDraw the full structure of the mixed triacylglycerol formed by the reaction of glycerol and the fatty acids arachidic, lauric and trans-palmitoleic. Draw the line structure.arrow_forward
- Draw out the structure for lycopene and label each isoprene unit. "Where is lycopene found in nature and what health benefits does it provide?arrow_forwardWhat does it mean to be an essential fatty acid? What are the essential fatty acids?arrow_forwardCompare and contrast primary and secondary active transport mechanisms in terms of energy utilisation and efficiency. Provide examples of each and discuss their physiological significance in maintaining ionic balance and nutrient uptake. Rubric Understanding the key concepts (clearly and accurately explains primary and secondary active transport mechanisms, showing a deep understanding of their roles) Energy utilisation analysis ( thoroughly compares energy utilisation in primary and secondary transport with specific and relevant examples Efficiency discussion Use of examples (provides relevant and accurate examples (e.g sodium potassium pump, SGLT1) with clear links to physiological significance. Clarity and structure (presents ideas logically and cohesively with clear organisation and smooth transition between sections)arrow_forward
- 9. Which one of the compounds below is the major organic product obtained from the following reaction sequence, starting with ethyl acetoacetate? 요요. 1. NaOCH2CH3 CH3CH2OH 1. NaOH, H₂O 2. H3O+ 3. A OCH2CH3 2. ethyl acetoacetate ii A 3. H3O+ OH B C D Earrow_forward7. Only one of the following ketones cannot be made via an acetoacetic ester synthesis. Which one is it? Ph کہ A B C D Earrow_forward2. Which one is the major organic product obtained from the following reaction sequence? HO A OH 1. NaOEt, EtOH 1. LiAlH4 EtO OEt 2. H3O+ 2. H3O+ OH B OH OH C -OH HO -OH OH D E .CO₂Etarrow_forward
BiochemistryBiochemistryISBN:9781319114671Author:Lubert Stryer, Jeremy M. Berg, John L. Tymoczko, Gregory J. Gatto Jr.Publisher:W. H. Freeman
Lehninger Principles of BiochemistryBiochemistryISBN:9781464126116Author:David L. Nelson, Michael M. CoxPublisher:W. H. Freeman
Fundamentals of Biochemistry: Life at the Molecul...BiochemistryISBN:9781118918401Author:Donald Voet, Judith G. Voet, Charlotte W. PrattPublisher:WILEY
BiochemistryBiochemistryISBN:9781305961135Author:Mary K. Campbell, Shawn O. Farrell, Owen M. McDougalPublisher:Cengage Learning
BiochemistryBiochemistryISBN:9781305577206Author:Reginald H. Garrett, Charles M. GrishamPublisher:Cengage Learning
Fundamentals of General, Organic, and Biological ...BiochemistryISBN:9780134015187Author:John E. McMurry, David S. Ballantine, Carl A. Hoeger, Virginia E. PetersonPublisher:PEARSON