HUMAN HEREDITY (LL)-W/MINDTAP ACCESS
11th Edition
ISBN: 9781305717022
Author: Cummings
Publisher: CENGAGE L
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Chapter 13, Problem 13QP
Summary Introduction
Introduction: In the formation of human genomic library, the fragments of DNA used in the process can vary in size which can be picked up by the plasmid easily. About 8 million plasmids are required to include all the genetic information from an individual cell.
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What is a genomic DNA library?
O A. All DNA fragments identified with a probe
O B. A general collection of all genes sequenced thus far
C. A DNA fragment inserted into a vector
O D. A collection of DNA fragments that make up the entire genome of a particular organism that have been cloned into a vector
O E. A collection of DNA fragments that make up the entire genome of a particular organism
O e. Gene amplification
CLEAR MY CHOICE
To study the function of any gene of interest you would perform the loss and gain of function approaches
by either deleting or re-expressing the gene of interest, which of the following can be used to determine
and quantify the activity of the gene?
Oa.
Western blotting
O b. Gene knockdown
O. PCR/OLA
O d. Microscopy
O e. DNA hybridization
Paternity testing can be detected most precisely by using technique
What advantages do cDNA libraries provide over genomic DNA libraries? Describe cloning applications where the use of a genomic library is necessary to provide information that a cDNA library cannot.
Chapter 13 Solutions
HUMAN HEREDITY (LL)-W/MINDTAP ACCESS
Ch. 13.5 - Do you think the way this issue was handled should...Ch. 13.5 - Prob. 2EGCh. 13.7 - If you were offered the chance to have the genome...Ch. 13.7 - Prob. 2EGCh. 13 - Improving the nutritional value of food has long...Ch. 13 - Improving the nutritional value of food has long...Ch. 13 - Prob. 3CSCh. 13 - What Are Clones? Cloning is a general term used...Ch. 13 - Prob. 2QPCh. 13 - Prob. 3QP
Ch. 13 - Prob. 4QPCh. 13 - Prob. 5QPCh. 13 - Prob. 6QPCh. 13 - Cloning Genes Is a Multistep Process The following...Ch. 13 - Prob. 8QPCh. 13 - Prob. 9QPCh. 13 - Cloning Genes Is a Multistep Process Which enzyme...Ch. 13 - Cloning Genes Is a Multistep Process In cloning...Ch. 13 - Prob. 12QPCh. 13 - Prob. 13QPCh. 13 - Prob. 14QPCh. 13 - Prob. 15QPCh. 13 - Cloned Libraries You are running a PCR to generate...Ch. 13 - Prob. 17QPCh. 13 - Prob. 18QPCh. 13 - Prob. 19QPCh. 13 - Analyzing Cloned Sequences A base change (A to T)...Ch. 13 - Prob. 21QPCh. 13 - Analyzing Cloned Sequences What kind of...Ch. 13 - Prob. 23QP
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- Match Column A with Column B F. v Analysis of genome-wide patterns of gene expression F. v Elucidation of patterns of coordinate gene regulation A. Recombinant DNA Technology B. Sanger sequencing |derives its power from the distinctive evolutionary patterns C. Restriction Enzymes and Ligase v involves joining a donor DNA fragment of interest to a vector D. GRNA of CRISPR technology Enzymes that cleave the DNA strands E. Restriction enzymes Enzymes used in Recombinant DNA Technology F. Functional Genomics homologous to target DNA that can base pair with it The first sequencing technology that uses amplification and fluorescent dyearrow_forwardA has been assembled by researchers and transplanted into a donor bacterial strain to study never before seen gene functions. Select one: a. Transgenic genome b. Recombinant DNA sequence c. Knockdown gene d. Synthetic genome o e. Recombinant plasmid Clear my choice is changing our Sequencing the human genome, the development of microarray technology, and understanding of complex diseases like cancer. They help us to observe the gene expression patterns in genetic disease by comparing the healthy tissue of individuals against the disease state of others. Select one: C a. Proteomics o b. Metagenomics MO C. Functional genomics d. Personal genomics O e. Developmental genomics Clear my choicearrow_forwardCheck all the statements that are TRUE regarding 16S or ITS (microbiome) illumina (NGS) sequencing vs. whole genome illumina (NGS) sequencing. A. You don't need to trim the reads for 16S sequencing, but you do for whole genome sequencing. B. Whole genome sequencing files will have more reads in them because genomes are bigger than 16S amplicons. C. The read alignment and contig assembly steps would probably be harder for whole genome sequencing. D. The 16S molecules being sequenced are always DNA, while for whole genome sequencing they could be RNA or DNA going into the illumina sequencer. E. NGS for 16S and whole genome sequencing can both use sample indexes/barcodes to maximize efficiency. F. Whole genome sequencing doesn't necessarily require you to know any of the sequences/targets before hand to design specific primers for.arrow_forward
- How the Sequencing Technologies Have Progressed Rapidly ? Explain about this ?arrow_forwardCRISPR sequences are commonly found in O a. Prokaryotes; DNAse O b. Eukaryotes; Cas9 Ok. Eukaryotes; DNAse O d. Prokaryotes; Hexokinase O e. Prokaryotes; Cas9 and, when associated with an enzyme known as can serve to edit genes within an organism.arrow_forwarda. If you forgot to add dNTPs to a sequencing reaction, what would be the result? Only very long fragments would be synthesized Only very short fragments would be synthesized The fragments would not be labelled DNA polymerase would be inactivated Sequencing would proceed normally b. Please also answer the imagearrow_forward
- The BLAST program is a tool fora. inserting many DNA fragments into a cell at the same time.b. translating a DNA sequence into an amino acid sequence.c. identifying homology between a selected sequence and geneticsequences in databases.d. all of the above.e. both b and c.arrow_forwardA. What are some reasons a person might want to clone a human? B. What animal was cloned in 1885?arrow_forwardHi, I would like to know which program is used for the graphical presentation of the results of a meta-analysis of genome-wide linkage scans?arrow_forward
- An organism no longer needs to express a particular gene. What is one strategy it might use of the methods discussed in class? Select all that apply. 0.000 de-methylate C bases in the genome acetylate C bases in the genome methylate C bases in the genome acetylate histones de-acetylate histones de-acetylate C bases in the genomearrow_forwardShort tandem repeats (STR) profiling is based on O A. the fact that many foods are being genetically modified and this test allows food health officials to identify the transgenic ones. O B. the fact that you can clone mammals through fusion of one somatic (non-sex) cell with an egg cell whose nucleus has been removed O C. the fact that one strand of DNA can be turned into millions of identical copies by a process that heats and cools DNA and builds it using DNA polymerase and primers. OD. the fact that people's DNA is filled with short sequences, like "TCAT" that are found in different numbers in each person.arrow_forwardPCR errors during library amplification are one possible source of false positive results. If an error occurs in the first round of amplification, all the subsequent copies of that library fragment will also carry the variant, even though it is not present in the genome. However, reads from other library fragments spanning this same region will not have the variant, which means that identifying PCR copies, or clones, of library fragments during analysis can help to identify these types of errors. Based on what you know about PCR, which of the following statements would be true about the PCR clones in a sequencing library? A. PCR is subject to amplification bias, so reads derived from PCR clones will only map to regions that are not GC-rich. B. PCR is subject to amplification bias, so reads derived from PCR clones will only map to non-repetitive regions. C. PCR produces identical copies, so reads derived from PCR clones would map to the exact same location. D. PCR introduces many…arrow_forward
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