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Deck 18: Genomics and Proteomics
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Deck 18: Genomics and Proteomics
1
Compared with prokaryotic chromosomes, eukaryotic chromosomes are _.
A) large, linear, less densely packed with protein -coding genes, mainly organized in single -gene units with introns
B) large, mainly organized in single -gene transcription units without introns
C) small, mainly organized in -single gene transcription units with introns
D) large, mainly organized in polygenic transcription units without introns
E) small, mainly organized in polygenic transcription units without introns
A) large, linear, less densely packed with protein -coding genes, mainly organized in single -gene units with introns
B) large, mainly organized in single -gene transcription units without introns
C) small, mainly organized in -single gene transcription units with introns
D) large, mainly organized in polygenic transcription units without introns
E) small, mainly organized in polygenic transcription units without introns
A
2
Proteomics is the _.
A) changing of the terminal sequences of proteins to alter their function
B) harvesting of proteins from a cell to determine their economic value
C) manipulation of amino acid sequences in proteins to alter their function
D) rational design of drugs based on protein structure
E) process of defining the complete set of proteins encoded by a genome
A) changing of the terminal sequences of proteins to alter their function
B) harvesting of proteins from a cell to determine their economic value
C) manipulation of amino acid sequences in proteins to alter their function
D) rational design of drugs based on protein structure
E) process of defining the complete set of proteins encoded by a genome
E
3
The Human Genome Project, which got underway in 1990, is an international effort to ________.
A) clone deleterious genes from humans and study their mode of action
B) clone beneficial genes from humans for eventual use in gene therapy
C) collect samples of cells from all parts of the world in order to preserve human genetic diversity
D) construct a physical map of the billions of base pairs in the human genome
E) determine how many different human populations share in a common gene pool
A) clone deleterious genes from humans and study their mode of action
B) clone beneficial genes from humans for eventual use in gene therapy
C) collect samples of cells from all parts of the world in order to preserve human genetic diversity
D) construct a physical map of the billions of base pairs in the human genome
E) determine how many different human populations share in a common gene pool
D
4
Name the two strategic methods that scientists are using to sequence genomes.
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5
Compared with eukaryotic chromosomes, bacterial chromosomes are _.
A) large, triple -helix, Z -DNA, organized in single gene units with introns
B) small, mainly organized in single -gene transcription units with introns
C) large, mainly organized in single -gene transcription units without introns
D) small, with high gene density
E) large, mainly organized in polygenic transcription units without introns
A) large, triple -helix, Z -DNA, organized in single gene units with introns
B) small, mainly organized in single -gene transcription units with introns
C) large, mainly organized in single -gene transcription units without introns
D) small, with high gene density
E) large, mainly organized in polygenic transcription units without introns
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6
One major difference between prokaryotic and eukaryotic genes is that eukaryotic
genes can contain internal sequences, called message.
genes can contain internal sequences, called message.
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7
Mycoplasma are among the smallest and perhaps the simplest self -replicating prokaryotes known. M. genitalium contains a genome of 0.58 Mb. Approximately how many genes does this bacterium contain?
A) between 400 and 550
B) 1200
C) 3000
D) 426,000
E) 12
A) between 400 and 550
B) 1200
C) 3000
D) 426,000
E) 12
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8
A number of generalizations can be made about the organization of protein -coding genes in bacterial chromosomes. First, the gene density is very high, averaging about
________.
________.
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9
What is meant by the term low gene density? Give an example of an organism with low gene density.
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10
Numerous scientists around the world have proposed to sequence 10,000 vertebrate genomes in five years. What is the name of this plan?
A) Vertebrate Beginnings
B) Vertebrate Enlightenment
C) Bigger Than Life Plan
D) Genome 10K
E) 10K or Bust
A) Vertebrate Beginnings
B) Vertebrate Enlightenment
C) Bigger Than Life Plan
D) Genome 10K
E) 10K or Bust
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11
Archaea (formerly known as archaebacteria) is one of the three major divisions of
living organisms; the other two are eubacteria and eukaryotes. Nanoarchaeum equitans is in the Archaea domain and has one of the smallest genomes known, about 0.5 Mb.
How can an organism complete its life cycle with so little genetic material?
living organisms; the other two are eubacteria and eukaryotes. Nanoarchaeum equitans is in the Archaea domain and has one of the smallest genomes known, about 0.5 Mb.
How can an organism complete its life cycle with so little genetic material?
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12
Most of the eukaryotic genomes described in the text have more than
A) 50 chromosomes
B) 100,000 genes
C) ten million genes
D) a million base pairs
E) 50,000 genes
A) 50 chromosomes
B) 100,000 genes
C) ten million genes
D) a million base pairs
E) 50,000 genes
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13
Which two factors contribute significantly to the wide ranges of genome size among eukaryotes?
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14
A bacterial operon _.
A) contains information for more than one protein product
B) is capped at the 5' end and carries a poly -A tail at the 3' end
C) is void of start (AUG) and termination (UAA, UGA, UAG) triplets
D) contains information for one protein product
E) None of the answers listed is correct.
A) contains information for more than one protein product
B) is capped at the 5' end and carries a poly -A tail at the 3' end
C) is void of start (AUG) and termination (UAA, UGA, UAG) triplets
D) contains information for one protein product
E) None of the answers listed is correct.
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15
What is ELSI?
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16
In general, the organization of genes in bacteria is different from that in eukaryotes. In E. coli, approximately 27 percent of all genes are organized into contiguous, functionally related units containing multiple genes under coordinate control that are transcribed as a single unit. Such contiguous gene families are called _.
A) proteomes
B) transcriptomes
C) pseudogenes
D) contigs
E) operons
A) proteomes
B) transcriptomes
C) pseudogenes
D) contigs
E) operons
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17
What is one major limitation of two -dimensional gel electrophoresis (2DGE)?
A) When products are separated, they tend to leach out of the gel matrix.
B) Only the most abundant products are detected.
C) 2DGE can be run only on nucleic acids.
D) It is extremely costly to execute in a typical molecular biology laboratory.
E) 2DGE is useful only in separating eukaryotic gene products.
A) When products are separated, they tend to leach out of the gel matrix.
B) Only the most abundant products are detected.
C) 2DGE can be run only on nucleic acids.
D) It is extremely costly to execute in a typical molecular biology laboratory.
E) 2DGE is useful only in separating eukaryotic gene products.
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18
The human genome contains approximately 20,000 protein -coding genes, yet it has the capacity to produce several hundred thousand gene products. What can account for the vast difference in gene number and product number?
A) Much of the DNA is in the form of trinucleotide repeats, thus allowing multiple start sites for different genes.
B) There are more introns than exons.
C) Alternative splicing occurs.
D) Every gene can be read in both directions, and each gene can have inversions and translocations.
E) There are more exons than introns.
A) Much of the DNA is in the form of trinucleotide repeats, thus allowing multiple start sites for different genes.
B) There are more introns than exons.
C) Alternative splicing occurs.
D) Every gene can be read in both directions, and each gene can have inversions and translocations.
E) There are more exons than introns.
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19
Intron frequency varies considerably among eukaryotes. Provide a general comparison of intron frequencies in yeast and humans. What about intron size?
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20
What appears to be the range of the number of protein -coding genes per genome in eukaryotes?
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21
It appears as if about 5000 functional genes is the minimum genome size necessary for life of a prokaryote.
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22
What is comparative genomics?
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23
Present a general definition for a multigene family and how it relates to a superfamily.
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24
Typically, bacterial DNA contains less repetitive DNA than eukaryotic DNA.
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25
The terms proteomics and genomics mean essentially the same thing.
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26
In humans, no genes are larger than 2 kb.
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27
Briefly describe general trends relating to DNA content and gene number in major groups of organisms.
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28
The term paralog is often used in conjunction with discussions of hemoglobin genes. What does this term mean, and how does it apply to hemoglobin genes?
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29
Present an overview of the gene organization in large -genome plants.
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30
In what way will the discipline called metagenomics contribute to human health and welfare?
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31
How are pseudogenes formed?
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32
Introns are found only in prokaryotic genomes.
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33
What is meant by the term pseudogene?
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34
The genomic organization of all living creatures is identical.
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35
The Human Genome Project is an international effort to construct a physical map sequence of the approximately 3 billion base pairs in the haploid human genome.
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36
Describe the relationship between introns (size and number) and organismic complexity in eukaryotes.
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37
Explain the goal of the emerging discipline called systems biology.
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38
The molecular bases for approximately 60 percent of dog inherited diseases are similar or identical to those found in humans.
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39
The dog (Canis familiaris) genome has recently been sequenced. About how many of the dog's genes are shared with humans?
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40
Describe the organization of the a -globin gene in humans.
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41
There is a general inverse relationship between DNA content and organismic complexity.
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42
Bacterial genes have introns, and eukaryotic genes lack introns.
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43
Multigene families are characterized by clusters of tandemly arranged unique pseudogenes organized as operons.
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44
Humans have more DNA and more genes than any other organism.
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