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MIAMI-DADE COUNTY PUBLIC SCHOOLS
Student BYOD Resource Page
BIOLOGY I
Course Code: 200031001
TOPIC XVII: REPRODUCTION – Comparing Cell Processes: Mitosis
ESSENTIAL CONTENT
A. Cell Cycle (16.14)
1. Prokaryotic cell cycle
2. Eukaryotic cell cycle
3. Interphase (G1, S, G2)
4. Cell division (mitosis and cytokinesis)
5. Regulation of the Cell Cycle**
B. Process of Mitosis (Nuclear Division) (16.14)
1. Phases (Prophase, Metaphase, Anaphase, and
Telophase)
2. Importance of Maintaining Chromosome Number
C. Mistakes in the Cell Cycle (16.8)
1. Mutations
2. Uncontrolled Cell Growth
3. Cancer
D. Asexual vs. Sexual Reproduction
1. Role in genetic variation
Division of Academics – Department of Science
Third Nine Weeks
Pacing
OBJECTIVES
 Describe the role of mitosis in asexual reproduction,
including how this process may contribute to or limit
genetic variation.
 Review the importance and role of mitosis of a cell within
in an organism.
 Connect specific events to specific stages of the cell
cycle. (ALD)
 Predict and explain what is happening at the different
stages of mitosis.
 Explain how mitosis forms new cells and its role in
maintaining chromosome number during asexual
reproduction and cell and body growth.
 Predict the effects of mistakes made in the process of
mitosis in a cell on an organism.
 Explain the importance of cyclins and proteins in the role
of cell growth.
 State that the mutations that affect the proteins that
regulate the cell cycle may result in uncontrolled cell
growth. (ALD)
 Investigate ways to prevent cancer growth within the
body.
Traditional
6 days
Date
02-09-16 to 02-18-16
Block
3 days
02-09-16 to 02-18-16
INSTRUCTIONAL TOOLS
Core Text Book: Chapter 10
Vocabulary:
Cell division, Asexual reproduction, Sexual reproduction,
Chromosome, Chromatin, Cell cycle, Genetic variation,
Interphase, DNA replication, Mitosis, Cytokinesis,
Prophase, Centromere,
Technology:
1. Chapter Mystery: Pet Shop Accident
2. Untamed Science Video: A Tail of Cell Division
3. Visual Analogy: -Growing Pains
4. Interactive Art: Mitosis
5. Art in Motion: Growth of Cancer Cells
6. Cells Alive Website-Mitosis Animation
7. Glencoe McGraw Hill.com Visualizing the Cell Cycle
8. Khan Academy: Phases of Mitosis
9. Bozeman Podcast: Cell Division
10. Bozeman Podcast: Mitosis
11. TED Talks: How Do Cancer Cells Behave Differently
From Healthy Ones?
12. Edgenuity
13. Packet 17 Mitosis L.16.17
Page 1 of 7
MIAMI-DADE COUNTY PUBLIC SCHOOLS
Student BYOD Resource Page
BIOLOGY I
SC.912.L.16.14
Standard:
SC.912.N.1.6
Course Code: 200031001
Cell Division
Video
Video
Standard:
SC.912.L.14.6
Science
Content
Collection
Video
Standard:
SC.912.L.16.8
 Scientific Order & Classification
 The Greek Cosmos
 Observing the Planets
 Navigating the Open Seas
 Developing the Theory of Gravity
 Discovering Other Galaxies
 Cell Theory
 Theorizing Continental Drift and Plate
Tectonics
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Obesity and Genetics
What Are Nutritional Disorders?
Exploring Nutritional Disorders
Multifactorial Disorders
Risk Factors for Breast Cancer
Interpreting Epidemiological Data
Air Pollution and Public Health
Water in Manila's Poor Communities
Chemicals in the Environment
Introduction to Waste
Everyday Water Pollution
PCBs: What They Are and Where They
Come From
Contamination and Human Health
Anthrax
Invisible Poison
Wastewater Germs
Contaminated Eggs
Food Safety
 Human Body, Human Health
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DNA Mutations
Mutations
Basic Facts About Cancer
Cancer Cells
Abnormal cancer cells
 Cell Aging and Cancer
 Genetic Research: Identifying
Carcinogens in Environment That
Cause Cancer
 What is mRNA's Role in Cell Growth
and Cancer?
Image
Division of Academics – Department of Science
Third Nine Weeks
Page 2 of 7
MIAMI-DADE COUNTY PUBLIC SCHOOLS
Student BYOD Resource Page
BIOLOGY I
Course Code: 200031001
Video
Standard:
SC.912.L.16.14
Image
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 The Cell Cycle and Mitosis: Introduction
 The Cell Cycle and Mitosis: The Steps
of Cell Division
 The Cell Cycle: Replication
 The Cell Cycle and DNA
 Mitosis
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Four Stages of Mitosis
Elements of Biology: Genetics: Mitosis
Mitosis, Meiosis, & Binary Fission
Interphase, Mitosis, & Cytokinesis
Cytokinesis
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Mitosis: Anaphase
Mitosis: Telophase
Mitosis: Cytokinesis
Cell, animal; mitosis
Cell, animal; mitosis
Cell, animal; mitosis
Audio
Science
Content
Collection
Standard:
SC.912.L.16.17
Video
Division of Academics – Department of Science
Third Nine Weeks
Cell cycle: resting state (G+)
Chromosomes
Cellular fission
Cells; daughter cells from simple cell
Mitosis; each stage defined
Mitosis: Prometaphase
Mitosis: Metaphase
The Structure of the Cell: Reproductive
Cell Structures
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 Conservation of Energy and Matter in
the Cell Cycle
 Introduction: Cell Cycle, Mitosis and
Cytoplasmic Division
 Life Cycle of a Cell and Cell Division
 Cell Division: Mitosis & Cytokinesis
 Asexual Reproduction
 Cell, animal; mitosis
 Cell, animal; mitosis
 Cell, plant; mitosis
 Cell, plant; mitosis
 Cell, plant; mitosis
 Cell, plant; mitosis
 Cell, plant; mitosis
 Mitosis
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The Role of Genes
 How Humans Apply Knowledge of
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Meiosis to Agriculture: Condition of
Meiosis I
Polyploidy in Plants
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Meiosis II
 Increasing the Genetic Variability in
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Sex and Meiosis
Species: Crossing Over in Meiosis
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Meiosis versus Mitosis
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Elements of Biology: Genetics: Meiosis  Sexual Reproduction: Producing
Variations in the Genetic Material Within
a Population
How Humans Apply Knowledge of
Meiosis to Animal Breeding
Asexual & Sexual Reproduction
Chromosomes
Meiosis
Mitosis and Meiosis: Meiosis
Page 3 of 7
MIAMI-DADE COUNTY PUBLIC SCHOOLS
Student BYOD Resource Page
BIOLOGY I
Course Code: 200031001
Video
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NCI Researchers Try to Stop Cancer From Spreading
Microbiologist Elizabeth Blackburn: Role Model for Women in Science
Vaccine Offers Hope for Brain Cancer Patients
What Makes (Chicken) Cells Cancerous, Malignant
In Vitro Fertilization Advance Makes Eggs Easier to Fertilize
Mice Cloned in China Using Skin Cells
Scientists Create Test-Tube Burger with Lab-Grown Beef
Genetic Engineering of Tomatoes Is Fruitful, Says Company
Science Behind the News: Tomato - DECODED
No Bull: Genetic Manipulation Lets Breeders Select for Female Cows
First Baby Born Using Embryo Transfer Process
Breakthrough in Fight Against Two Cancers
Shape-Shifter: DNA Strands Coil, Twist, Know Inside Cells
When Breast Cancer Runs in the Family
Inherited Alzheimer's May Be Detected Early
Powerful Drug to Fight Antibiotic-Resistant Bacteria Approved by FDA
Division of Academics – Department of Science
Third Nine Weeks
Page 4 of 7
MIAMI-DADE COUNTY PUBLIC SCHOOLS
Learning Goals
BIOLOGY I
Course Code: 200031001
SC.912.L16.8: Explain the relationship between mutation, cell cycle, and uncontrolled cell growth potentially resulting in cancer. (Cognitive Complexity: Level 2: Basic
Application of Skills & Concepts)
SCALE
LEARNING PROGRESSION
SAMPLE PROGRESS MONITORING AND ASSESSMENT
ACTIVITIES

I am able to assess how uncontrolled cell growth may result from mutations that
affect the proteins that regulate the cell cycle.
Describe how to prevent cancer by preventing mutations.

I am able to assess how uncontrolled cell growth may result from mutations that
affect the proteins that regulate the cell cycle.
Given a scenario of a patient just diagnosed with cancer,
trace the history of those cancer cells back to when they
were healthy.

I am able to state that mutations that affect the proteins that regulate the cell cycle
may result in uncontrolled cell growth.
Sequence the events that result in uncontrolled cell growth:
certain proteins regulate checkpoints in the cell cycle so that
it proceeds normally, a mutation occurs in the DNA of a
gene of one of these proteins, the wrong protein is made,
the checkpoint is no longer properly regulated, cells divided
without control.

I am able to recall that uncontrolled cell growth may result in cancer.
Given two difference sequences that show normal cell
division and uncontrolled cell division, describe the end
result of each sequence.

I am able to recall that cells divide in order to make more cells.
Score/Step 5.0
Score/Step 4.0
Score/Step 3.0 Target
(Learning Goal)
Score/Step 2.0
Score/Step 1.0
Division of Academics – Department of Science
Third Nine Weeks
Page 5 of 7
MIAMI-DADE COUNTY PUBLIC SCHOOLS
Learning Goals
BIOLOGY I
Course Code: 200031001
SC.912.L16.14: Describe the cell cycle, including the process of mitosis. Explain the role of mitosis in the formation of new cells and its importance in maintaining chromosome
number during asexual reproduction. ( Cognitive Complexity: Level 2: Basic Application of Skills & Concepts )
SCALE
LEARNING PROGRESSION

I am able to relate specific events occurring to each of the stages of the cell cycle.
Develop an argument for the sequence of events in the cell
cycle and justify their level of importance within the cell.

I am able to relate specific events occurring to each of the stages of the cell cycle.
Given a random set of cell cycle events, sequence the
events in their proper order.

I am able to connect specific events to specific stages of the cell cycle.
Match the specific events of the cell cycle to the specific
stages of the cell cycle to include G1, S, G2, the major
stages of mitosis, and cytokinesis.

I am able to identify specific events that occur in each of the stages of the cell cycle.
Given a diagram of each stage of the cell cycle, in the
correct order, describe one event that is happening in that
stage.

I am able to recall that when cells divide they first make a copy of the hereditary
material, then divide it between the 2 resulting cells.
Score/Step 5.0
Score/Step 4.0
Score/Step 3.0 Target
(Learning Goal)
Score/Step 2.0
Score/Step 1.0
SAMPLE PROGRESS MONITORING AND ASSESSMENT
ACTIVITIES
Division of Academics – Department of Science
Third Nine Weeks
Page 6 of 7
MIAMI-DADE COUNTY PUBLIC SCHOOLS
Learning Goals
BIOLOGY I
Course Code: 200031001
SC.912.L16.17: Compare and contrast mitosis and meiosis and relate to the processes of sexual and asexual reproduction and their consequences for genetic variation.
(Cognitive Complexity: Level 3: Strategic Thinking &Complex Reasoning)
SCALE
LEARNING PROGRESSION
SAMPLE PROGRESS MONITORING AND ASSESSMENT
ACTIVITIES

I am able to differentiate the processes of mitosis and meiosis and/or show how
these processes may contribute to or limit genetic variation.
Compare the level of genetic variation in a bacterial colony to
the level of variation in an animal population. Defend an
argument on how sexual reproduction increases the
variability of a species and protects that species in terms of
natural selection.

I am able to differentiate the processes of mitosis and meiosis and describe how
these processes may contribute to or limit genetic variation.
Make a cartoon or skit where the characters are cells going
through mitosis and meiosis describing the processes of
each with an emphasis on how, where, and when each
process occurs.

I am able to contrast the processes of mitosis and meiosis and specify if these
processes may contribute to or limit genetic variation.
Make a graphic organizer that emphasizes the differences
between mitosis and meiosis in chromosome number,
genetic variation, number of cells produced, and type of
reproduction.

I am able to recognize that mitosis and meiosis are different processes that have
different outcomes.
Make a Venn Diagram showing the similarities and
differences between the final products of mitosis and meiosis
and how those cells are used.

I am able to recall that reproduction can be asexual or sexual.
Score/Step 5.0
Score/Step 4.0
Score/Step 3.0 Target
(Learning Goal)
Score/Step 2.0
Score/Step 1.0
Division of Academics – Department of Science
Third Nine Weeks
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