Chapter 5: Cell Growth and Division. PART ONE Sections 1, 2, & 4.

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Chapter 5: Cell Growth and Division

Transcript of Chapter 5: Cell Growth and Division. PART ONE Sections 1, 2, & 4.

Page 1: Chapter 5: Cell Growth and Division. PART ONE Sections 1, 2, & 4.

Chapter 5:Cell Growth and

Division

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PART ONE Sections 1, 2, & 4

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KEY CONCEPT : Cells have distinct phases of growth, reproduction, and normal functions.

5.1 The Cell Cycle

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Cell Reproduction

“All cells come from pre-existing cells”Two main types of cell reproduction:

◦Asexual: (MITOSIS) – offspring is identical to the parent cell

◦Sexual: (MEIOSIS) – offspring is not identical to either parent

◦produces gametes (sperm and egg cells)

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The Cell Cycle

The complete series of events from one cell division to the next.

Why Do Cells Divide?◦Reproduction: new organisms are produced

from parents◦Growth: multicellular organisms grow by

producing more cells ◦Repair: damaged cells are replaced by

producing new cells

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The cell cycle is a regular pattern of growth, DNA replication, and cell division.

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– Interphase: Longest phase of the cell cycle– Gap 1 (G1): cell growth and

normal functions– DNA synthesis (S): copies DNA– Gap 2 (G2): additional growth

and prepares for division– Mitosis (M): includes division of

the cell nucleus (mitosis) and division of the cell cytoplasm (cytokinesis)– Prophase– Metaphase– Anaphase– Telophase

The cell cycle has four main stages.

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Overview of the Cell Cycle.url

CELL CYCLE OVERVIEW

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Put it all together!

1. What are the stages of cell cycle?◦ G1, S, G2, and Mitosis

2. What happens during G1?◦ Cell grows

3. What happens during S?◦ Replication of DNA

4. What happens during G2?◦ Cell Prepares to divide

5. What happens during M?◦ Cell divides

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KEY CONCEPT : Cells divide during mitosis and cytokinesis.

5.2 Mitosis and Cytokinesis

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Chromosomes condense at the start of mitosis.

DNA doublehelix

DNA andhistones

Chromatin

SupercoiledDNA

Each continuous ,double-stranded DNA molecule makes one chromosome.

DNA wraps around proteins called histones, forming chromatin.

Interactions between parts of the histones further compact the DNA

The chromatin coils more and more tightly around organizing proteins.

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Chromosome Structure• DNA plus proteins is called

chromatin.• One half of a duplicated

chromosome is a chromatid.• Sister chromatids are held

together at the centromere.• Telomeres (far ends of each

chromatid) protect DNA and do not include genes.

Condensed, duplicated chromosome

chromatidtelomere

centromere

telomere

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Parent cell

centrioles

spindle fibers

centrosome

nucleus withDNA

Longest phase of cell cycle

Interphase has 3 stages: ◦G1, S, & G2

The cell contains a pair of centrioles.

The cell's chromosomes have duplicated but are in the form of chromatin.

Interphase

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Mitosis produces 2 genetically identical daughter cells.

Mitosis divides the cell’s nucleus in four phases.◦Prophase◦Metaphase◦Anaphase◦Telophase

I remember it as PMAT

Mitosis

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1) Prophase: o The nuclear membrane begins to

disappearo chromatin condense into chromosomeso spindle fibers form

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2) Metaphase:o Spindle fibers attach to centromereso Spindle fibers line up chromosomes in the

middle of the cell.

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3) Anaphase:o spindle fibers condense and separate sister

chromatids to opposite sides of the cell.

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4) Telophase:o chromosomes begin to uncoilo the nuclear membrane reformso the spindle fibers disappearo Cytokinesis, which divides the cell in two,

begins.

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Cytokinesis

– Divides cytoplasm between 2 daughter cells each with genetically identical cells.

– Cytokinesis differs in animal and plant cells

– In animal cells, cleavage furrow separates two new nuclei

– In plant cells, a cell plate forms.

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Mitosis

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What stage is this?

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What stage is this?

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What stage is this?

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What stage is this?

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Elodea cells

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Cheek cells

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KEY CONCEPT: Many organisms reproduce by cell division.

5.4 Asexual Reproduction

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Asexual ReproductionBinary fission is similar in function to mitosis.Asexual reproduction is the creation of offspring from

a single parent.◦Binary fission produces two daughter cells genetically

identical to the parent cell.◦Binary fission occurs in

prokaryotes.

parent cell

DNA duplicates

cell begins to divide

daughter cells

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PART TWO Sections 3 & 5

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KEY CONCEPT: Cell cycle regulation is necessary for healthy growth.

5.3 Regulation of the Cell Cycle

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◦Apoptosis is programmed cell death.

◦ It’s a normal feature of healthy organisms◦ It’s caused by a cell’s production of self-destructive enzymes◦ It’s a mechanism by which organisms limit the growth and

replication of cells. ◦Loss of apoptosis is one of the key mechanisms behind

cancer.

Apoptosis

PICTURE: http://www.brecorder.com/world/north-america/104165-half-of-world-countries-unprepared-to-deal-with-cancer-who.html

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Cell division is uncontrolled in cancer.

Cancer cells form disorganized clumps called tumors.

cancer cellbloodstream

normal cell

– Benign tumors – Remain clustered and can be removed.– Remain at the original site

– Malignant tumors – metastasize, or break away, and can form more tumors.– Spread in the body

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Cancer cells do not carry out necessary functions.

• Cancer cells come from normal cells with damage to genes involved in cell-cycle regulation.

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Carcinogens are substances known to promote cancer.

Carcinogens - College Biologyhttp://

www.youtube.com/watch?v=9-I3kKYY7zE

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Cancer Treatment• Surgery: Remove tumor(s)• Radiation & Chemotherapy: used to disrupt

cell division– May have undesirable side effects

• Standard cancer treatments typically kill both cancerous and healthy cells

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FYI: Number of deaths for leading causes of death

1. Heart disease: 597,689 Risk factors: obesity, smoking, high blood pressure & cholesterol, and diabetes

2. Cancer: 574,743 Lung cancer causes the most deaths among men & women, followed in women by breast cancer

3. Chronic lower respiratory diseases: 138,080 smoking & second hand smoking

4. Stroke: 129,476 Risk factors: alcohol, smoking, obesity, high blood pressure & cholesterol, and diabetes

• Occurs when the blood supply to an area of the brain is obstructed, causing brain cells to die

5. Accidents (unintentional injuries): 120,8596. Alzheimer's disease: 83,494 It’s genetics; memory problems

7. Diabetes: 69,071 Risk factors: obesity, old age, a family history of diabetes and not exercising

• abnormally high blood sugar levels, and can lead to kidney failure, blindness, heart disease

8. Nephritis and nephrotic syndrome: 50,476• Nephritis is the inflammation of the kidneys• Nephrotic syndrome is caused by different disorders that damage

the kidneys

9. Influenza and Pneumonia: 50,097 caused by a virus; A seasonal flu shot can help prevent it

10. Intentional self-harm (suicide): 38,364

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THE TEN LEADING CAUSES OF DEATH

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KEY CONCEPT: Cells work together to carry out complex functions.

5.5 Multicellular Life

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Multicellular organisms depend on interactions among different cell types.

Tissues are groups of cells that perform a similar function.

Organs are groups of tissues that perform a specific or related function.

Organ systems are groups of organs that carry out similar functions.

CELL TISSUE ORGAN

vascular tissue

leaf

stem

lateralroots primary

root

SYSTEMS

root

syste

msh

oot

syste

m

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Lung cell Lung tissue Lung Respiratory System Person

cells tissue organ organ system organism

cells tissues

organs

organ system

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Specialized cells perform specific functions.Cells develop into their mature forms through the

process of cell differentiation.Cells differ because different combinations of genes

are expressed.A cell’s location in an embryo helps determine how it

will differentiate.

Outer: skin cells Middle: bone cells Inner: intestines

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Stem cells are unique body cells.

Stem cells have the ability to◦divide and renew themselves◦remain undifferentiated in form◦develop into a variety of specialized cell types

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First, an egg is fertilized by a sperm cell in a petri dish. The egg divides, forming an inner cell mass. These cells are then removed and grown with nutrients. Scientists try to control how the cells specialize by adding or removing certain molecules.

Stem cells come from adults and embryos.– Adult stem cells can be hard to isolate and grow.– The use of adult stem cells may prevent transplant rejection.– The use of embryonic stem cells raises ethical issues– Embryonic stem cells can be grown indefinitely in culture.

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The use of stem cells offers many currently realized and potential benefits.– Stem cells are used to treat leukemia and lymphoma.– Stem cells may cure disease or replace damaged organs.– Stem cells may revolutionize the drug development process.