INTRO TO GEN ANALYSIS W/ACHIEVE ACCESS
12th Edition
ISBN: 9781319423865
Author: Griffiths
Publisher: MAC HIGHER
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Chapter 1, Problem 4P
a.
Summary Introduction
To determine: The representation of small blue spheres.
Introduction: The genetic material is all the living organism is the DNA (deoxyribonucleic acid). All the eukaryotes as well the prokaryotes have defined a set of DNA sequences, which is inherited from one generation to another and codes for all the characters of the organism.
b.
Summary Introduction
To determine: The representation of brown slabs.
Introduction. The DNA (deoxyribose
c.
Summary Introduction
To determine: The agreement with the analogy that DNA is structured like a ladder.
Introduction. The process of
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For entertainment on a Friday night, a genetics professor proposed that his children diagram a polynucleotide strand of DNA. Having learned about DNA in preschool, his 5-year-old daughter was able to draw a polynucleotide strand, but she made a few mistakes. The daughter’s diagram (represented here) contained at least 10 mistakes. a. Make a list of all the mistakes in the structure of this DNA polynucleotide strand. b. Draw the correct structure for the polynucleotide strand.
The following is diagram of a generalized tetranucleotide. Carbons exist at corners on the shapes and phosphate
groups are filled circles.
A. Is this a DNA or an RNA Molecule?
B. Where is the 3’ end of this tetranucleotide?
C. Given that the DNA strand which served as a template for the synthesis of this
tetranucleotide was composed of the bases 5’-ACAG-3’, where are the expected bases?
Refer to Figure 2 and compare this with the DNA model in Figure 1.
a. In what ways are they similar?
b. In what ways are they different?
c. What is the biological significance of such differences? Why is the DNA referred to as the genetic material?
Chapter 1 Solutions
INTRO TO GEN ANALYSIS W/ACHIEVE ACCESS
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Need a deep-dive on the concept behind this application? Look no further. Learn more about this topic, biology and related others by exploring similar questions and additional content below.Similar questions
- You have 2 solutions of DNA. Solution 1 contains single stranded viral DNA while Solution 2 has double stranded form of the same viral DNA. Both solutions contain 1 mg/ml of DNA. You then expose each of these solutions to UV light at 260 nm. Which of the following results would you expect to see after UV light exposure? a.Neither solution will absorb any UV light but the DNA in both solutions will be broken by the action of the UV light. b.Solution 1 will absorb less light than Solution 2 c.Solution 1 will absorb more light than solution 2. d.Nothing will occur. DNA can only absorb UV light if it is interchelated with ethidium bromide. e.Both solutions will absorb the same amount of light since their concentrations are the same.arrow_forwardIf a virus particle contained double-stranded B-DNA of 400,000 base pairs, A. How many complete helical turns would occur on each strand? B. How many atoms of phosphorus would be present? C. If the mole % of G in this genome is 17%, what is the mole % of A?arrow_forwardSuppose that a length of double-stranded DNA is 2520 base pairs long. Calculate the number of helical turns if the DNA were in the B form, given that B-form DNA contains 10.5 base pairs B form: helical turns per helical turn. Calculate the number of helical turns if the DNA were in the Z form, given that Z-form DNA contains 12 base pairs per Z form: helical turns helical turn.arrow_forward
- The Bacteria Escherichia coli DNA genome has a molecular mass of about 3.1 X 10° D. In your answers, show how you came up to each result? (a) How many base pairs does this bacterium contain? (b) How many full double-helical turns does this DNA contain? (c) How long is this DNA in um?arrow_forwardwhat is the difference between human DNA and strawberry DNA?arrow_forwardA. In NOT more than 200 words, explain how the double-helical structure of DNA suggests a mechanism for DNA replication? B. In NOT more than 200 words, explain the special mechanism used to replicate chromosome ends?arrow_forward
- Suppose the following base sequence was found in a 20-base DNA polymer. 3'CAGTTACGGCTCCTAGGTTATAATTCGTTTC 5' a. What would be the first 5 bases at the 3' end of the complementary strand? b. What would be the first 10 bases at the 5' end of the complementary strand? c. Assuming the presence of the complementary strand, what is the percentage composition of the polymer with respect to the A-T base pair? with respect to the G-C base pair? d. In the given segment in problem 1, illustrate and indicate the direction of the synthesis of: i. a 5-nucleotide RNA primer ii. a 5-nucleotide Okazaki fragmentarrow_forwardThe sequence below shows one strand of DNA. Parts of the sequence are in capital letters to help you identify important features – capitalization does not affect the nucleotide indicated. 5’…atacaATGcATGTCAaCTAcg[a]agatccgTAGaTAACATtCATatc…3’ a. Underneath that strand write the sequence of the strand of DNA it would be paired with in a doublestranded helix. Use the single letter code A-adenosine, G-guanosine, T-thymine, U-uracil and C-cytosine and remember to label the 5’ and 3’ ends. b. Next, write the sequence of a possible mRNA transcript of the double stranded DNA above. Remember that an mRNA must be translatable by a ribosome into a protein. Be sure to indicate 5’ and 3’ ends. c. Using the genetic code, translate your mRNA into the appropriate protein. Write the amino acid sequence of the protein below the mRNA sequence in (b) and label the amino and carboxy terminals d. Suppose the bracketed, bold [a] were mutated to be a t. Write the new sequence of your mRNA transcript…arrow_forwarda. Write the structural formula of GAC, a portion of DNA. Write the complementary strand adjacent to it so that the complementary bases are side by side. Connect the appropriate base pairs. b. Sticking to the convention of writing the nucleotide sequence in the 5'-3' direction, what is the nucleotide sequence of the DNA strand complementary to ATGCACCATGCT?arrow_forward
- 11) Examine the following two DNA sequences. Sequence 1: ATGCGATGCTAGCAT Sequence 2: ATGCGATGATAGCAT If both of these sequences code for proteins, how might the function of protein 2 differ from the function of protein 1? Use the table below for assistance. U C A G บบน UUC UUA UUG CUU CUC CUA CUG U Phe GUUT GUC GUA GUG Leu Leu AUU AUC lle AUA AUG Met or Start Val Ceweg 232 www... UCU UCC UCA UCG CCU CCC CCA CCG ACU ACC ACA ACG C GCU GCC GCA GCG Ser Pro Thr Ala CAU CAC CAA CAG A AAU AAC AAA AAG UAU U UAC C UAA Stop UGA Stop A UAG Stop UGG Trp G Tyr GAA GAG His Gin Asn Lys GAU GAC Asp G c] Glu UGU UGC CGU CGC CGA CGG AGU AGC AGA AGG GGU GGC GGA GGG Cys Arg Ser Arg Gly U C A G U C A G U C A G by Calin me press A) Protein 1 and protein 2 will function exactly the same. B) Protein 1 will be shorter than protein 2, so they will not function the same. C) Protein 2 will be shorter than protein 1, so they will not function the same. D) Protein 2 has a different sequence, so it will function…arrow_forwardGive the complimentary DNA strand for the following:ACG TAG CTA GTC AGT CGT AGC Give the RNA strand for the following:ACG TAG CTA GTC AGT CGT AGC Using the provided amino acid table and the RNA strand you created in #2, create the amino acid sequence: Name and explain two different ways in which DNA can be damaged. Once DNA is damaged, can we repair it? If not, what are some possible outcomes from the damaged DNA?arrow_forwardThe sequence below shows one strand of DNA. Parts of the sequence are in capital letters to help you identify important features - capitalization does not affect the nucleotide indicated. 5' ...atacaATGcATGTCAaCTAcg[a]agatccgTAGaTAACATtCATatc...3' a) Underneath that strand, write the sequence of the strand of DNA it would be paired with in a double-stranded helix. Use the single letter code A-adenosine, G-guanosine, T-thymine, C-cytosine, and U-uracil, and remember to label the 5' and 3' ends b) Next, write the sequence of a possible mRNA transcript of the double-stranded DNA above. Remember that an mRNA must be translatable by a ribosome into a protein. Be sure to indicate 5' and 3' ends c) Using the genetic code at the end, translate your mRNA into the appropriate protein. Write the amino acid sequence of the protein using the single letter amino acid code (also at the end) below the mRNA sequence in (b) and label the amino and carboxy terminals d) Suppose the bracketed bold [a] were…arrow_forward
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