early a century ago, biologists found that if they
separated an invertebrate animal embryo into two parts
at an early stage of its life, it would survive and develop
as two normal embryos. This led them to believe that the
(5) cells in the early embryo are undetermined in the sense
that each cell has the potential to develop in a variety of
different ways. Later biologists found that the situation
was not so simple. It matters in which plane the embryo
is cut. If it is cut in a plane different from the one used
(10) by the early investigators, it will not form two whole
embryos.
A debate arose over what exactly was happening.
Which embryo cells are determined, just when do they
become irreversibly committed to their fates, and what
(15) are the "morphogenetic determinants" that tell a cell
what to become? But the debate could not be resolved
because no one was able to ask the crucial questions
in a form in which they could be pursued productively.
Recent discoveries in molecular biology, however, have
(20) opened up prospects for a resolution of the debate.
Now investigators think they know at least some of the
molecules that act as morphogenetic determinants in
early development. They have been able o show that,
in a sense, cell determination begins even before an egg
(25) is fertilized.
Studying sea urchins, biologist Paul Gross found
that an unfertilized egg contains substances that function
as morphogenetic determinants. They are located
in the cytoplasm of the egg cell; i.e., in that part of the
(30) cell's protoplasm that lies outside of the nucleus. In the
unfertilized egg, the substances are inactive and are not
distributed homogeneously. When the egg is fertilized,
the substances become active and, presumably, govern
the behavior of the genes they interact with. Since the
(35) substances are unevenly distributed in the egg, when the
fertilized egg divides, the resulting cells are different
from the start and so can be qualitatively different in
their own gene activity.
The substances that Gross studied are maternal
(40) messenger RNA's --products of certain of the maternal
genes. He and other biologists studying a wide variety
of organisms have found that these particular RNA's
direct, in large part, the synthesis of histones, a class
of proteins that bind to DNA. Once synthesized, the
(45) histones move into the cell nucleus, where section of
DNA wrap around them to form a structure that resembles
beads, or knots, on a string. The beads are DNA
segments wrapped around the histones; the string is the
intervening DNA. And it is the structure of these beaded
(50) DNA strings that guides the fate of the cells in which
they are located
25. It can be inferred from the passage that the morphogenetic
determinants present in the early embryo are
(A) located in the nucleus of the embryo cells
(B) evenly distributed unless the embryo is not developing normally
(C) inactive until the embryo cells become irreversibly committed to
their final function
(D) identical to those that were already present in the unfertilized egg
(E) present in larger quantities than is necessary for the development
of a single individual
26. The main topic of the passage is
(A) the early development of embryos of lower marine organisms
(B) the main contribution of modern embryology to molecular biology
(C) the role of molecular biology in disproving older theories of
embryonic development
(D) cell determination as an issue in the study of embryonic development
(E) scientific dogma as a factor in the recent debate over the value
of molecular biology
27. According to the passage, when biologists believed that the cells
in the early embryo were undetermined, they
made which of the following mistakes?
(A) They did not attempt to replicate the original experiment of
separating an embryo into two parts.
(B) They did not realize that there was a connection between the issue
of cell determination and the outcome of the
separation experiment.
(C) They assumed that the results of experiments on embryos did not
depend on the particular animal species used
for such experiments.
(D) They assumed that it was crucial to perform the separation
experiment at an early stage in the embryo's life.
(E) They assumed that different ways of separating an embryo into two
parts would be equivalent as far as the fate
of the two parts was concerned.
28. It can be inferred from the passage that the initial production of
histones after an egg is fertilized takes place
(A) in the cytoplasm
(B) in the maternal genes
(C) throughout the protoplasm
(D) in the beaded portions of the DNA strings
(E) in certain sections of the cell nucleus
29. It can be inferred from the passage that which of the following is
dependent on the fertilization of an egg?
(A) Copying of maternal genes to produce maternal messenger RNA's
(B) Sythesis of proteins called histones
(C) Division of a cell into its nucleus and the cytoplasm
(D) Determination of the egg cell's potential for division
(E) Generation of all of a cell's morphogenetic determinants
30. According to the passage, the morphogenetic determinants present
in the unfertilized egg cell are which of the
following?
(A) Proteins bound to the nucleus
(B) Histones
(C) Maternal messenger RNA's
(D) Cytoplasm
(E) Nonbeaded intervening DNA
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