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Campbell Biology Concepts & Connections

Martha R. Taylor, Jean L. Dickey, Eric J. Simon, Kelly Hogan, Jane B. Reece

Chapter 11

How Genes Are Controlled - all with Video Answers

Educators

Chapter Questions

01:34

Problem 1

Complete the following concept map to test your knowledge of gene regulation.

Yokshitha Reddy Bathula
Yokshitha Reddy Bathula
Numerade Educator
05:08

Problem 2

Which of the following methods of gene regulation do eukaryotes and prokaryotes have in common?
a. elaborate packing of DNA in chromosomes
b. activator and repressor proteins, which attach to DNA
c. the addition of a cap and tail to mRNA after transcription
d. lac and trp operons

Eric Goldman
Eric Goldman
Numerade Educator
00:54

Problem 3

A homeotic gene does which of the following?
a. It serves as the ultimate control for prokaryotic operons.
b. It regulates the expression of groups of other genes during development.
c. It represses the histone proteins in eukaryotic chromosomes.
d. It helps splice mRNA after transcription.

Yokshitha Reddy Bathula
Yokshitha Reddy Bathula
Numerade Educator
00:45

Problem 4

Which of the following is a valid difference between embryonic stem cells and the stem cells found in adult tissues?
a. In laboratory culture, only adult stem cells are immortal.
b. In nature, only embryonic stem cells give rise to all the different types of cells in the organism.
c. Only adult stem cells can differentiate in culture.
d. Embryonic stem cells are generally more difficult to grow in culture than adult stem cells.

Yokshitha Reddy Bathula
Yokshitha Reddy Bathula
Numerade Educator
00:27

Problem 5

The control of gene expression is more complex in multicellular eukaryotes than in prokaryotes because
a. eukaryotic cells are much smaller
b. in a multicellular eukaryote, different cells are specialized for different functions
c. prokaryotes are restricted to stable environments
d. eukaryotes have fewer genes, so each gene must do several jobs

Yokshitha Reddy Bathula
Yokshitha Reddy Bathula
Numerade Educator
00:45

Problem 6

Your bone cells, muscle cells, and skin cells look different because
a. each cell contains different kinds of genes.
b. they are present in different organs.
c. different genes are active in each kind of cell.
d. they contain different numbers of genes.

Yokshitha Reddy Bathula
Yokshitha Reddy Bathula
Numerade Educator
02:21

Problem 7

All your cells contain proto-oncogenes, which can change into cancer-causing oncogenes. Why do cells possess such potential time bombs?

Yokshitha Reddy Bathula
Yokshitha Reddy Bathula
Numerade Educator
01:26

Problem 8

You obtain an egg cell from the ovary of a white mouse and remove the nucleus from it. You then obtain a nucleus from a liver cell from an adult black mouse. You use the methods of nuclear transplantation to insert the nucleus into the empty egg. After some prompting, the new zygote divides into an early embryo, which you then implant into the uterus of a brown mouse. A few weeks later, a baby mouse is born. What color will it be? Why?

Yokshitha Reddy Bathula
Yokshitha Reddy Bathula
Numerade Educator
03:43

Problem 9

Mutations can alter the function of the lac operon (see Module 11.1). Predict how the following mutations would affect the function of the operon in the presence and absence of lactose:
a. Mutation of regulatory gene; repressor cannot bind to lactose.
b. Mutation of operator; repressor will not bind to operator.
c. Mutation of regulatory gene; repressor will not bind to operatok
d. Mutation of promoter; RNA polymerase will not attach to promoter.

Yokshitha Reddy Bathula
Yokshitha Reddy Bathula
Numerade Educator
01:07

Problem 10

It took three sheep to create the clone Dolly: A blackface sheep donated the egg, a whiteface sheep donated the mammary cells from which the nucleus was taken, and a blackface sheep served as surrogate. Assuming face color is genetically determined, what color face did Dolly have?

Yokshitha Reddy Bathula
Yokshitha Reddy Bathula
Numerade Educator
02:32

Problem 11

A mutation in a single gene may cause a major change in the body of a fruit fly, such as an extra pair of legs or wings. Yet it probably takes the combined action of hundreds or thousands of genes to produce a wing or leg. How can a change in just one gene cause such a big change in the body?

Yokshitha Reddy Bathula
Yokshitha Reddy Bathula
Numerade Educator
02:45

Problem 12

A chemical called dioxin is produced as a by-product of some chemical manufacturing processes. This substance was present in Agent Orange, a defoliant sprayed on vegetation during the Vietnam War. There has been a continuing controversy over its effects on soldiers exposed to it during the war. Animal tests have suggested that dioxin can be lethal and can cause birth defects, cancer, organ damage, and immune system suppression. But its effects on humans are unclear, and even animal tests are inconclusive. Researchers have discovered that dioxin enters a cell and binds to a protein that in turn attaches to the cell's DNA. How might this mechanism help explain the variety of dioxin's effects? How might you determine whether a particular individual became ill as a result of exposure to dioxin?

Yokshitha Reddy Bathula
Yokshitha Reddy Bathula
Numerade Educator
00:37

Problem 13

Each scientist works as part of a broader community of scientists, building on the work of others. Scientific advances often depend on the application of new technologies and/or on new techniques applied to an existing problem. What improvements to existing cloning methods did Wilmut make that allowed him to successfully clone Dolly the sheep from an adult cell?

Yokshitha Reddy Bathula
Yokshitha Reddy Bathula
Numerade Educator