Biochemistry
6th Edition
ISBN: 9781305577206
Author: Reginald H. Garrett, Charles M. Grisham
Publisher: Cengage Learning
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Chapter 5, Problem 10P
Answers to all problems are at the end of this book. Detailed solutions are available in the Student Solutions Manual, Study Guide, and Problems Book.
- Identify Proteins Using BLAST Searches of Peptide Fragment Sequences Go to the National Center for
Biotechnology Information Web site at httlp:llhwww.ncbi.nlm.niih.goyl. From the menu (if Popular Resources on the right-hand side, click on “BLAST." Under the Basic BLAST heading on the new page that comes up, dick on "protein blast." lit the Enter Query Sequence box at the top of the page that comes up, enter the following sequence: NQMMK.SR.N- LTKDRCKP. Confirm that the database under "ChoOsC Search Set" us set (111 "nr" (nonredundant protein Sequences), then click the BLAST button at the bottom (if the page td see the results of your search. Next, enter this sequence from a different protein: SLQTASAPDVYAlGfcCA. Identify the protein from which this sequence was derived.
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Chapter 5 Solutions
Biochemistry
Ch. 5 - Answers to all problems are at the end of this...Ch. 5 - Answers to all problems are at the end of this...Ch. 5 - Answers to all problems are at the end of this...Ch. 5 - Answers to all problems are at the end of this...Ch. 5 - Answers to all problems are at the end of this...Ch. 5 - Answers to all problems are at the end of this...Ch. 5 - Answers to all problems are at the end of this...Ch. 5 - Answers to all problems are at the end of this...Ch. 5 - Answers to all problems are at the end of this...Ch. 5 - Answers to all problems are at the end of this...
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- Answers to all problems are at the end of this book. Detailed solutions are available in the Student Solutions Manual, Study Guide, and Problems Book. Preparing cDNA Libraries from Different Cells Describe an experimental protocol for the preparation of to cDNA libraries, one from anaerobically grown yeast cells and the second from aerobically grown yeast cell.arrow_forwardAnswers to all problems are at the end of this book. Detailed solutions are available in the Student Solutions Manual, Study Guide, and Problems Book. CRISPR/Cas9: Design of a gRNA to Target the Human PVALB Gene The human PVALB gene, which encodes the Ca2+-binding protein parvalbumin, can be Targeted by CRISPR/Cas9, at the protospacer sequence - ATGCAGGAGGGTGGCGAGAGGGGCCGAGAT- followed by a -TGG-PAM trinucleotide. Give the sequence of the spacer region of a gRNA that will target the complementary DNA strand at this site. Include at the 3'-end of your gRNA sequence a region that will form a stem-loop structure with a 5'-AGCAUAGCUGUAAAAC- sequence downstream in the gRNA to create the dsRNA-binding site for Cas9.arrow_forwardAnswers to all problems are at the end of this book. Detailed solutions are available in the Student Solutions Manual, Study Guide, and Problems Book. Deducing DNA Sequence from Sanger Sequencing Results The output of an automated DNA sequence determination by the Sanger dideoxy chain termination method, performed as illustrated in Figure 11.3, is disp1ayed at right. What is the sequence of the original oligonucleotide?arrow_forward
- Answers to all problems are at the end of this book. Detailed solutions are available in the Student Solutions Manual, Study Guide, and Problems Book. Designing Primers for PCR Amplification of a DNA Sequence Given the following short DNA duplex of sequence (53)ATGCCGTAGTCGATCATTACGATAGCATAGCACAGGGATCCA- CATGCACACACATGACATAGGACAGATAGCAT what oligonucleotide primers (17-mers) would be required for PCR amplification of this duplex?arrow_forwardAnswers to all problems are at the end of this book. Detailed solutions are available in the Student Solutions Manual, Study Guide, and Problems Book. (Research Problem) The Nature and Roles of Linear Motifs in Proteins In addition to domains and modules, there are other significant sequence patterns in proteins—known as linear motifs—that are associated with a particular function. Consult the biochemical literature to answer the following questions: 1. What are linear motifs? 2. How are they different from domains?. 3. What are their functions? 4. How can they be characterized? 5. There are several papers that are good starting points for this problem. Neduva, V., and Russell, R., 2005. Linear motifs: evolutionary interaction switches. FEBS Letters 579:3342-3345. Gibson, T., 2009. Cell regulation: determined to signal discrete cooperation. Trends in Biochemical Sciences 34:471-482. Diella, K. Haslam, N., Chica., C. et aL, 2009. Understanding eukaryotic linear motifs and their role in cell signaling and regulation. Frontiers of Bioscience 13:6580-6603.arrow_forwardAnswers to all problems are at the end of this book. Detailed solutions are available in the Student Solutions Manual, Study Guide, and Problems Book. Consider the following peptide sequences: EANQIDEMLYNVQCS LTTLE DTVPW LG VHLDITVPL SWTWTLYVKL QQNWGGLWILTLVWFLM CNMKHGDSQCDERTYP YTREQSDGHIPKMNCDS AGPFGPDGPTIGPK Which of the preceding sequences would be likely to be found in each of the following: A parallel -sheet An antiparallel -sheet A tropocollagen molecule The helical portions of a protein found in your hairarrow_forward
- Answers to all problems are at the end of this book. Detailed solutions are available in the Student Solutions Manual, Study Guide, and Problems Book. Calculate the Frequency of Occurrence of an RNAi Target Sequence The RNAs acting in RNAi are about 21 nucleotides long. To judge whether it is possible to uniquely target a particular gene with a RNA of this size, consider The following calculation: What is the expected frequency of occurrence of a specific 21-nucleotide sequence?arrow_forwardAnswers to all problems are at the end of this book. Detailed solutions are available in the Student Solutions Manual, Study Guide, and Problems Book. Structural complementarity is the key to molecular recognition, a lesson learned in Chapter 1. The principle of structural complementarity is relevant to answering problems 5, 6, 7,11, 12, and 19. The quintessential example of structural complementarity in all of biology is the DNA double helix. What features of the DNA double helix exemplify structural complementarity?arrow_forwardAnswers to all problems are at the end of this book. Detailed solutions are available in the Student Solutions Manual, Study Guide, and Problems Book. Calculating Tms and Separating DNA Molecules That Differ in G:C Content At 0.2 M Na+, the melting temperature of double-stranded DNA is given by the formula, Tm = 69.3 + 0 41 (% G + C). The DNAs from mice and rats have (G + C) contents of 44% and 40%, respectively. Calculate the Tms for these DNAs in 0.2 M NaCl. If samples of these DNAs were inadvertently mixed, how might they be separated from one another?arrow_forward
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