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Deck 1: Introduction to Genetics, Chromosomes and Cellular Reproduction

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Question
Heredity affects many of our physical features as well as our susceptibility to many diseases and disorders. Genetics contributes to advances in agriculture, pharmaceuticals, and medicine and is fundamental to modern biology. All organisms use similar genetic systems, and genetic variation is the foundation of the diversity of all life.

-What are some of the implications of all organisms having similar genetic systems?

A) That all life forms are genetically related
B) That research findings on one organism's gene function can often be applied to other organisms
C) That genes from one organism can often exist and thrive in another organism
D) All of the above
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Question
The three major divisions of genetics are transmission genetics, molecular genetics, and population genetics. Transmission genetics examines the principles of heredity; molecular genetics deals with the gene and the cellular processes by which genetic information is transferred and expressed; population genetics concerns the genetic composition of groups of organisms and how that composition changes geographically and with the passage of time. Model genetic organisms are species that have received special emphasis in genetic research; they have characteristics that make them useful for genetic analysis.
-Would the horse make a good model genetic organism? Why or why not?
Question
Humans first applied genetics to the domestication of plants and animals between 10,000 and 12,000 years ago. Developments in plant hybridization and cytology in the eighteenth and nineteenth centuries laid the foundation for the field of genetics today. After Mendel's work was rediscovered in 1900, the science of genetics developed rapidly and today is one of the most active areas of science.
-How did developments in cytology in the nineteenth century contribute to our modern understanding of genetics?
Question
Organisms are classified as prokaryotes or eukaryotes, and prokaryotes consist of archaea and eubacteria. A prokaryote is a unicellular organism that lacks a nucleus, its DNA is not complexed to histone proteins, and its genome is usually a single chromosome. Eukaryotes are either unicellular or multicellular, their cells possess a nucleus, their DNA is complexed to histone proteins, and their genomes consist of multiple chromosomes.
-List several characteristics that eubacteria and archaea have in common and that distinguish them from eukaryotes.
Question
Cells reproduce by copying and separating their genetic information and then dividing. Because eukaryotes possess multiple chromosomes, mechanisms exist to ensure that each new cell receives one copy of each chromosome. Most eukaryotic cells are diploid, and their two chromosome sets can be arranged in homologous pairs. Haploid cells contain a single set of chromosomes.

-Diploid cells have

A) two chromosomes
B) two sets of chromosomes
C) one set of chromosomes
D) two pairs of homologous chromosomes
Question
Sister chromatids are copies of a chromosome held together at the centromere. Functional chromosomes contain centromeres, telomeres, and origins of replication. The kinetochore is the point of attachment for the spindle microtubules; telomeres are the stabilizing ends of a chromosome; origins of replication are sites where DNA synthesis begins.
-What would be the result if a chromosome did not have a kinetochore?
Question
The active cell cycle phases are interphase and the M phase. Interphase consists of G1, S, and G2. In G1, the cell grows and prepares for cell division; in the S phase, DNA synthesis takes place; in G2, other biochemical events necessary for cell division take place. Some cells enter a quiescent phase called G0. The M phase includes mitosis and cytokinesis and is divided into prophase, prometaphase, metaphase, anaphase, and telophase. The cell cycle produces two genetically identical cells each of which possesses a full complement of chromosomes.

-Which is the correct order of stages in the cell cycle?

A) G1, S, prophase, metaphase, anaphase
B) S, G1, prophase, metaphase, anaphase
C) Prophase, S, G1, metaphase, anaphase
D) S, G1, anaphase, prophase, metaphase
Question
Meiosis consists of two distinct processes: meiosis I and meiosis II. Meiosis I includes the reduction division, in which homologous chromosomes separate and chromosome number is reduced by half. In meiosis II (the equational division) chromatids separate.

-Which of the following events takes place in metaphase I?

A) Crossing over
B) Chromosomes contract.
C) Homologous pairs of chromosomes line up on the metaphase plate.
D) Individual chromosomes line up on the metaphase plate.
Question
Cohesin holds sister chromatids together during the early part of mitosis. In anaphase, cohesin breaks down, allowing sister chromatids to separate. In meiosis, cohesin is protected at the centromeres during anaphase I, and so homologous chromosomes, but not sister chromatids, separate in meiosis I. The breakdown of centromeric cohesin allows sister chromatids to separate in anaphase II of meiosis.
-How does shugoshin affect sister chromatids in meiosis I and meiosis II?
Question
In the testes, a diploid spermatogonium undergoes meiosis, producing a total of four haploid sperm cells. In the ovary, a diploid oogonium undergoes meiosis to produce a single large ovum and smaller polar bodies that normally disintegrate.

-A secondary spermatocyte has 12 chromosomes. How many chromosomes will be found in the primary spermatocyte that gave rise to it?

A) 6
B) 12
C) 18
D) 24
Question
In the stamen of a flowering plant, meiosis produces haploid microspores that divide mitotically to produce haploid sperm in a pollen grain. Within the ovary, meiosis produces four haploid megaspores, only one of which divides mitotically three times to produce eight haploid nuclei. After pollination, one sperm fertilizes the egg cell, producing a diploid zygote; the other fuses with two nuclei to form the endosperm.

-Which structure is diploid?

A) Microspore
B) Egg
C) Megaspore
D) Microsporocyte
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Deck 1: Introduction to Genetics, Chromosomes and Cellular Reproduction
1
Heredity affects many of our physical features as well as our susceptibility to many diseases and disorders. Genetics contributes to advances in agriculture, pharmaceuticals, and medicine and is fundamental to modern biology. All organisms use similar genetic systems, and genetic variation is the foundation of the diversity of all life.

-What are some of the implications of all organisms having similar genetic systems?

A) That all life forms are genetically related
B) That research findings on one organism's gene function can often be applied to other organisms
C) That genes from one organism can often exist and thrive in another organism
D) All of the above
All of the above
2
The three major divisions of genetics are transmission genetics, molecular genetics, and population genetics. Transmission genetics examines the principles of heredity; molecular genetics deals with the gene and the cellular processes by which genetic information is transferred and expressed; population genetics concerns the genetic composition of groups of organisms and how that composition changes geographically and with the passage of time. Model genetic organisms are species that have received special emphasis in genetic research; they have characteristics that make them useful for genetic analysis.
-Would the horse make a good model genetic organism? Why or why not?
No, because horses are expensive to house, feed, and propagate, they have too few progeny, and their generation time is too long.
3
Humans first applied genetics to the domestication of plants and animals between 10,000 and 12,000 years ago. Developments in plant hybridization and cytology in the eighteenth and nineteenth centuries laid the foundation for the field of genetics today. After Mendel's work was rediscovered in 1900, the science of genetics developed rapidly and today is one of the most active areas of science.
-How did developments in cytology in the nineteenth century contribute to our modern understanding of genetics?
Developments in cytology in the 1800s led to the identification of parts of the cell, including the cell nucleus and chromosomes. The cell heory focused the attention of biologists on the cell, eventually leading to the conclusion that the nucleus contains the hereditary information.
4
Organisms are classified as prokaryotes or eukaryotes, and prokaryotes consist of archaea and eubacteria. A prokaryote is a unicellular organism that lacks a nucleus, its DNA is not complexed to histone proteins, and its genome is usually a single chromosome. Eukaryotes are either unicellular or multicellular, their cells possess a nucleus, their DNA is complexed to histone proteins, and their genomes consist of multiple chromosomes.
-List several characteristics that eubacteria and archaea have in common and that distinguish them from eukaryotes.
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5
Cells reproduce by copying and separating their genetic information and then dividing. Because eukaryotes possess multiple chromosomes, mechanisms exist to ensure that each new cell receives one copy of each chromosome. Most eukaryotic cells are diploid, and their two chromosome sets can be arranged in homologous pairs. Haploid cells contain a single set of chromosomes.

-Diploid cells have

A) two chromosomes
B) two sets of chromosomes
C) one set of chromosomes
D) two pairs of homologous chromosomes
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6
Sister chromatids are copies of a chromosome held together at the centromere. Functional chromosomes contain centromeres, telomeres, and origins of replication. The kinetochore is the point of attachment for the spindle microtubules; telomeres are the stabilizing ends of a chromosome; origins of replication are sites where DNA synthesis begins.
-What would be the result if a chromosome did not have a kinetochore?
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7
The active cell cycle phases are interphase and the M phase. Interphase consists of G1, S, and G2. In G1, the cell grows and prepares for cell division; in the S phase, DNA synthesis takes place; in G2, other biochemical events necessary for cell division take place. Some cells enter a quiescent phase called G0. The M phase includes mitosis and cytokinesis and is divided into prophase, prometaphase, metaphase, anaphase, and telophase. The cell cycle produces two genetically identical cells each of which possesses a full complement of chromosomes.

-Which is the correct order of stages in the cell cycle?

A) G1, S, prophase, metaphase, anaphase
B) S, G1, prophase, metaphase, anaphase
C) Prophase, S, G1, metaphase, anaphase
D) S, G1, anaphase, prophase, metaphase
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8
Meiosis consists of two distinct processes: meiosis I and meiosis II. Meiosis I includes the reduction division, in which homologous chromosomes separate and chromosome number is reduced by half. In meiosis II (the equational division) chromatids separate.

-Which of the following events takes place in metaphase I?

A) Crossing over
B) Chromosomes contract.
C) Homologous pairs of chromosomes line up on the metaphase plate.
D) Individual chromosomes line up on the metaphase plate.
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9
Cohesin holds sister chromatids together during the early part of mitosis. In anaphase, cohesin breaks down, allowing sister chromatids to separate. In meiosis, cohesin is protected at the centromeres during anaphase I, and so homologous chromosomes, but not sister chromatids, separate in meiosis I. The breakdown of centromeric cohesin allows sister chromatids to separate in anaphase II of meiosis.
-How does shugoshin affect sister chromatids in meiosis I and meiosis II?
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10
In the testes, a diploid spermatogonium undergoes meiosis, producing a total of four haploid sperm cells. In the ovary, a diploid oogonium undergoes meiosis to produce a single large ovum and smaller polar bodies that normally disintegrate.

-A secondary spermatocyte has 12 chromosomes. How many chromosomes will be found in the primary spermatocyte that gave rise to it?

A) 6
B) 12
C) 18
D) 24
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11
In the stamen of a flowering plant, meiosis produces haploid microspores that divide mitotically to produce haploid sperm in a pollen grain. Within the ovary, meiosis produces four haploid megaspores, only one of which divides mitotically three times to produce eight haploid nuclei. After pollination, one sperm fertilizes the egg cell, producing a diploid zygote; the other fuses with two nuclei to form the endosperm.

-Which structure is diploid?

A) Microspore
B) Egg
C) Megaspore
D) Microsporocyte
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