Mikki M
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Quiz based on the summaries of chapter 17

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Mikki M
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S377 Chapter 17

Question 1 of 20

1

Differentiation is the process by which cells become ; it involves a sequence of molecular events that result in differential , which, in turn, determines the that a cell will express.

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    specialized
    gene expression
    proteins

Explanation

Question 2 of 20

1

Differentiation takes place both during development and in mature tissues.

Select one of the following:

  • True
  • False

Explanation

Question 3 of 20

1

Animal development involves a series of overlapping processes. divisions, which form the , are followed by , during which the three germ layers (ec, m and en) are formed and
specification of the n and the anterior–posterior axis take place. The neural tube forms during , and body segmentation begins.
Finally and in some species, metamorphosis, occur.

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    Cleavage
    blastula
    gastrulation
    toderm
    esoderm
    doderm
    eurectoderm
    neurulation
    organogenesis

Explanation

Question 4 of 20

1

involves molecules that are evolutionarily conserved between animal species, and act in different places and at different times during . These molecules include , and a number of different secreted and cell surface , their receptors and downstream intercellular signalling molecules. Differential exposure to signalling molecules results in of transcription factors, leading to .

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    Differentiation
    animal development
    transcription factors
    signalling proteins
    differential activation
    differential gene expression

Explanation

Question 5 of 20

1

Differentiation is studied by cell a, cell t, transplantation, genetic analysis and cell culture techniques.

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    blation
    racing

Explanation

Question 6 of 20

1

Similar mechanisms are involved in differentiation of different cells and tissues, of all animal species studied. These mechanisms include , cell interactions, protein and mRNA and control.

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    asymmetric division
    gradients
    combinatorial

Explanation

Question 7 of 20

1

Induction and patterning of the mesoderm, like that of other embryonic tissues, involves protein and mRNA gradients and combinatorial control.

Select one of the following:

  • True
  • False

Explanation

Question 8 of 20

1

Development of the cells of the nervous system involves a series of events, including neural , , patterning of the , neuronal , migration of and .

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    induction
    neurulation
    central nervous system
    differentiation
    neural crest cells
    axon guidance

Explanation

Question 9 of 20

1

In amphibians, neural induction involves inhibition of the action of BMP and Wnt proteins, by proteins that include and Frzb secreted by cells of the .

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    Noggin
    organizer

Explanation

Question 10 of 20

1

Inhibition of in the presumptive cells results in of the transcription factor GATA-1 which drives differentiation, and activation of , including neurogenin and NeuroD.

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    BMP signalling
    neurectodermal
    downregulation
    epidermal
    neural transcription factors

Explanation

Question 11 of 20

1

Increased expression of the cell surface signalling protein results in increased activation of its receptor, , and also of in adjacent cells. This upregulation results in reciprocal signalling from the adjacent cell, which stimulates expression of neurogenin in the first cell, which in turn promotes expression of the transcription factor , and subsequent .

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    Delta
    Notch
    neurogenin
    reduced
    increased
    NeuroD
    neuronal differentiation

Explanation

Question 12 of 20

1

A dorso-ventral gradient in expression along the developing nervous system provides positional information, which results in the formation of different along the anterior–posterior axis of the brain and .

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    Hox gene
    regions
    spinal cord

Explanation

Question 13 of 20

1

Different types of are specified by expression of different , induced by exposure to different levels of , such as and BMPs.

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    neuron
    regulatory genes
    signalling molecules
    Shh

Explanation

Question 14 of 20

1

cells give rise to a variety of cell types, including and melanocytes. They arise from the neural tube, and undergo a transition from an to a mesenchymal state, which involves a change in expression of and other adhesion molecules. Neural crest cells though the developing embryo along routes that are determined by cell surface molecules, ephrins, and by components of the .

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    Neural crest
    peripheral neurons
    epithelial
    cadherins
    migrate
    extracellular matrix

Explanation

Question 15 of 20

1

The projections of growing axons are determined by ; both diffusible and signalling are involved. Proteins in the environment of the growing axon are detected by expressed on the . Axons of neurons, which cross the developing spinal cord, are first attracted by , and then their onwards trajectory is determined by signals from the proteins and semaphorin.

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    guidance cues
    contact-mediated
    receptors
    growth cone
    commissural
    netrins
    repulsive
    Slit

Explanation

Question 16 of 20

1

Differentiation occurs in some tissues throughout life. An example is that of epithelial cells, which form from a pool of in the intestinal .

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    intestinal
    stem cells
    crypts
    villi

Explanation

Question 17 of 20

1

Adult exist in many tissues. Evidence suggests that their in vivo and in vitro may be broader than previously thought.

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    differentiated
    stem cells
    potential

Explanation

Question 18 of 20

1

stem cells are derived from the inner cell mass of mammalian . They can be engineered in culture to produce specific cell types. They are , and can differentiate into any kind of cell, unlike most stem cells which are only , where they can differentiate into several different types of cell, but not all.

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    Embryonic
    totipotent
    adult
    multipotent
    early embryos

Explanation

Question 19 of 20

1

Some cells may be able to , after injury in vivo , or as a result of manipulation in vitro. And then into another type of cell. An example is a newt regrowing a limb.

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    de-differentiate
    trans-differentiate

Explanation

Question 20 of 20

1

The of a nucleus from a fully or partially cell into an enucleated egg for the purpose of cloning requires of the genetic material. (And it usually doesn't work!)

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    transplantation
    differentiated
    reprogramming

Explanation