BIOCHEMISTRY
9th Edition
ISBN: 2818440090622
Author: BERG
Publisher: MAC HIGHER
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Chapter 29, Problem 5P
Interpretation Introduction
Interpretation:
The physical significance of the interaction of DNA polymerase with
Concept introduction:
The DNA polymerases are enzymes which replicate DNAmolecules by joining nucleotides.These enzymes are necessary for replication of DNA and usually two of the enzymesworks simultaneously to create two identical strands from the original DNA molecule.
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A solution containing single stranded DNA with the sequence 5’ATGGTGCACCTGACTCCTGAGGAGAAGTCTNNNNN’3 undergoes DNA replication in vitro in the presence of all four nucleotides plus an amount of dideoxyadenosine triphosphate sufficient to compete for incorporation with deoxyadenosine triphosphate.
How many and what DNA fragments are expected?
Although DNA polymerases require both a template and a primer, the following single-stranded polynucleotide was found to serve as a substrate for DNA polymerase in the absence of any additional DNA.3′ HO-ATGGGCTCATAGCCGGAGCCCTAACCGTAGACCACGAATAGCATTAGG-p 5′What is the structure of the product of this reaction?
DNA ligase has the ability to relax supercoiled circular DNA in the
presence of AMP but not in its absence.
(a) What is the mechanism of this reaction, and why is it dependent
on AMP?
(b) How might one determine that supercoiled DNA had in fact
been relaxed?
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- DNA ligase has the ability to relax supercoiled circular DNA in the presence of AMP but not in its absence. (a) What is the mechanism of this reaction, and why does it depend on AMP? (b) How could you determine that supercoiled DNA had in fact been relaxed?arrow_forwardpppApCpCpUpApGpApU-OH(a) Using the straight-chain sugar convention, write the structure of the DNA strand that encoded this short stretch of RNA.(b) Using the simplest convention for representing the DNA base sequence, write the structure of the nontemplate DNA strand.arrow_forwardExplain how DNA-binding proteins can make sequence-specific contacts to a double-stranded DNA molecule without breaking the hydrogen bonds that hold the bases together. indicate how, through such contacts, a protein can distinguish a T-A from a C-G pair. indicate the parts of the nucleotide base pairs that could form noncovalent interactions— hydrogen bonds, electrostatic attractions, or hydrophobic interactions -with a DNA-binding protein.arrow_forward
- Given the following eukaryotic DNA strand, transcribe and translate the DNA into a polypeptide using the 3’ – 5’ strand as the template. use drawings, diagrams, colours and annotations to describe how the DNA strand will be synthesized into a functional protein. 5’ - TATAAAAASSMSBMDATGSBDCCMBDBAATBSMDSTGTGTCCTMSBAG – 3’ (KEY: The letters SBMD are “made up” nucleic acids that depict non-coding regions in the DNA, hypothetically S pairs with B and M pairs with D).arrow_forwardRecall the DNA’s three-dimensional model. The DNA is a right-handed helix wherein onecomplete 360 0 turn covers a distance of 34 angstroms (Å) or 3.4 nm and 10 base pairs. As a result, thebase pairs are separated by a distance of approximately 3.4 Å. The diameter of the Watson and CrickDNA molecule is 20 Å.Calculate the average number of nucleotide pairs (or base pairs) per micrometer of DNA doublehelix according to the dimension mentioned above. Round off your answer to the nearest wholenumber. Note also that 1 micrometer = 10,000 angstroms.arrow_forwardIf a given double stranded DNA undergoes enzymatic hydrolysis targeting only the "b" side in the phosphodiester bond, what are the consequent nucleotide products of the hydrolysis of the 2 strands? (Please write the answers using only the letters corresponding to the bases with either the p or OH beside it to indicate the phosphate and OH groups respectively.) Sequence in one strand: TCGATCAGarrow_forward
- If a given double stranded DNA undergoes enzymatic hydrolysis targeting only the "a" side in the phosphodiester bond, what are the consequent nucleotide products of the hydrolysis of the 2 strands? (Please write the answers using only the letters corresponding to the bases with either the p or OH beside it to indicate the phosphate and OH groups respectively.) Sequence in one strand: TCGATCAGarrow_forward(i) (.:, From the diagram to the right of the trp repressor in its approximate binding relationship to a double-stranded DNA mole- cule, what is the relative orientation of the macrodipoles of helices 4 and 5 to each other? Indicate the N-terminal ends of helices 4 and DNA 5 5? Which residue in the sequence above is the N-terminal residue of each helix? N N (ii) :. Comparing the two protein sequences above, identify all amino acid pairs that differ in electrostatic charge due to proton dis- sociable groups (assume pH 7). Indicate the charge of both residues for each pair. C.arrow_forwardHelicase Unwinding of the E. coli Chromosome Hexameric helicases, such as DnaB, the MCM proteins, and papilloma virus El helicase (illustrated in Figures 16.22 to 16.25), unwind DNA by passing one strand of the DNA duplex through the central pore, using a mechanism based on ATP-dependent binding interactions with the bases of that strand. The genome of E. coli K12 consists of 4,686,137 nucleotides. Assuming that DnaB functions like papilloma virus El helicase, from the information given in Chapter 16 on ATP-coupled DNA unwinding, calculate how many molecules of ATP would be needed to completely unwind the E. coli K 12 chromosome.arrow_forward
- Given the following eukaryotic DNA strand, transcribe and translate the DNA into a polypeptide using the 3’ – 5’ strand as the template. You may use drawings, diagrams, colours and annotations to describe how the DNA strand will be synthesized into a functional protein 5’ - TATAAAAASSMSBMDATGSBDCCMBDBAATBSMDSTGTGTCCTMSBAG – 3’ (KEY: The letters SBMD are “made up” nucleic acids that depict non-coding regions in the DNA, hypothetically S pairs with B and M pairs with D).arrow_forwardCompare the DNA binding modes of minor groove binding, intercalating, and crosslinking agents and explain how these interactions give rise to specific pharmaceutical applications. Use the molecular structures of at least one DNA PLEASE DISCUSS THIS IN DETAIL! and correct answers only ! will give good rating! thank you.arrow_forwardIt is known that double stranded DNA is denatured at low pH. pKa values should allow the determination of whether this is due to perturbation of the hydrogen bonding in A-T and/or G-C base pairs. The table gives values for the pKas of different protonated groups in the nucleobases.Nucleobase Position & pKa A N1, 3.5 G N7, 1.6; N1, 9.2 C N3, 4.2 T N3, 9.7a) Draw the A-T and G-C base pairs. - Label the bases with the one-letter code. – - Number the atoms in the rings and label the atom that attaches to the sugar. - Mark the groups that interact in normal…arrow_forward
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