SaplingPlus for Lehninger Principles of Biochemistry (Six-Month Access)
7th Edition
ISBN: 9781319108236
Author: David L. Nelson, Michael M. Cox
Publisher: W. H. Freeman
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Chapter 4, Problem 15BO
(a)
Summary Introduction
To determine: The protein sequence by using protein database such as UniProt, and also identify the identity of protein.
Introduction:
Protein is a
(b)
Summary Introduction
To determine: The identity of the protein by using different portions of amino acid sequences.
Introduction:
Protein is an essential biomolecule which also serves as building block of body. It helps in growth and development of body. It is involved in the formation of hair, skin, muscle and connective tissue.
(c)
Summary Introduction
To find: The information about the protein’s secondary, tertiary and quaternary structure by using database sites such as Protein Data Bank.
Introduction:
The Protein Data Bank is defined as a crystallographic database which is used for identification of three-dimensional structural data of large molecules such as proteins and
(d)
Summary Introduction
To explain: The cellular function of the protein.
Introduction:
Protein is a biomolecule which is made of repeating subunits of amino acids. There are four different types of structures of protein such as primary, secondary, tertiary and quaternary.
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fill in the blank and circle the active site for each molecule.
urgent!
fill in the table and circle the active site
The two half reactions
for beginning and end of the electron transport chain are given below in standard form. Calculate & for the overall process. Using the Nernst equation (AG° = -n Fo, F= 96.485 kJ/volt mol), calculate AG°. Explain the need for a stepwise process in the electron transport chain.
NAD* + H+ + 2 e- = NADH
½ 0г + 2H+ + 2е- = H20
= -0.32v
E = +0.82V
Chapter 4 Solutions
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- fill in the table and identify the general type of reaction catalayzed and an example step from the structures in the second page so you will answer the questions from the first page the second one is just a reference urgently!arrow_forwardPlease draw out the molecular structures of each molecule and show how each enzyme + cofactor would affect the following molecule in the human metabolic pathway. (This is a metabolic map)arrow_forwardPlease draw out the molecular structures of each molecule and show how an enzyme + cofactor would affect the following molecule in the human metabolic pathway to create energy.arrow_forward
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- The 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_forwardB- 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_forward
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Biomolecules - Protein - Amino acids; Author: Tutorials Point (India) Ltd.;https://www.youtube.com/watch?v=ySNVPDHJ0ek;License: Standard YouTube License, CC-BY