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The Cell

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Kevin Winge Barro
Kevin Winge Barro
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CELL Structures of the Cell & Cell Division
Early Contributions • Robert Hooke - The first person • Rudolf Virchow - also reported to see cells, he was looking at that every living thing is made of cork and noted that he saw "a up vital units, known as cells. He great many boxes. (1665) also predicted that cells come • Anton van Leeuwenhock - from other cells. (1850 ) Observed living cells in pond water, which he called "animalcules" (1673) • Theodore Schwann - zoologist who observed that the tissues of animals had cells (1839) • Mattias Schleiden - botonist, observed that the tissues of plants contained cells ( 1845)
1. Every living organism is made of one or more cells. 2. The cell is the basic The Cell unit of structure and function. It is the Theory smallest unit that can perform life functions. 3. All cells arise from pre-existing cells.
Cell Features • Ribosomes - make protein for use by the organism • Cytoplasm - jelly-like goo on the inside of the cell • DNA - genetic material • Cytoskeleton - the internal framework of the cell • Cell membrane - outer boundary of the cell, some stuff can cross the cell membrane.
Prokaryotic Cells Prokaryotes are very simple cells, probably first to inhabit the earth. Prokaryotic cells do not contain a membrane bound nucleus.
The eukaryotic cell is composed of 4 main parts: 1. cell membrane - outer boundary of the cell 2. cytoplasm - jelly- like fluid interior of the cell 3. nucleus - the "control center" of the cell, contains the cell's DNA (chromosomes) 4. organelles - "little organs" that carry out cell functions Eukaryotic Cells Eukaryotic cells are more advanced cells. These cells are found in plants, animals, and protists (small unicellular "animalcules").
Make protein Ribosomes Located inside the nucleus, makes ribosomes
Endoplasmic Reticulum Smooth ER - no ribosomes Rough ER - ribosomes Transport, "intracellular highway". Ribosomes are positioned along the rough ER, protein made by the ribosomes enter the ER for transport. Chloroplast Uses sunlight to create food, photosynthesis Cell Wall (only found in plant Provides additional support (plant and cells) bacteria cells) Microtubules Part of the cytoskeleton, function in support Also make up cilia and flagella (cell movement)
Animal Cell Plant Cell
ORGANELLES WITH DNA • The Mitochondria and Chloroplasts have their own DNA • ENDOSYMBIOSIS THEORY - eukaryotic cells evolved from the engulfing of bacteria cells, thus creating additional cell parts
CELL MEMBRANE • Function: to regulate what comes into the cell and what goes out • Composed of a double layer of phospholipids and proteins
Interphase • Stages of Interphase to increase in size. Note that the G G1 phase: The period prior to the in G2 represents gap and the 2 synthesis of DNA. In this phase, the represents second, so the G2 cell increases in mass in phase is the second gap phase. preparation for cell division. Note • In the latter part of interphase, the that the G in G1 represents gap and cell still has nucleoli present. the 1 represents first, so the G1 • The nucleus is bounded by a phase is the first gap phase. nuclear envelope and the cell's • S phase: The period during which chromosomes have duplicated but DNA is synthesized. In most cells, are in the form of chromatin. there is a narrow window of time • In animal cells, two pair during which DNA is synthesized. of centrioles formed from the Note that the S represents replication of one pair are located synthesis. outside of the nucleus. • G2 phase: The period after DNA synthesis has occurred but prior to the start of prophase. The cell synthesizes proteins and continues
Prophase
Changes that occur in a cell during prophase: • Chromatin fibers become • In animal cells, the mitotic coiled into chromosomes with spindle initially appears as each chromosome having two structures called asters which chromatids joined at surround each centriole pair. a centromere. • The mitotic spindle, composed • The two pair of microtubules and proteins, of centrioles (formed from the forms in the cytoplasm. replication of one pair in Interphase) move away from one another toward opposite ends of the cell due to the lengthening of the microtubules that form between them.
In late prophase: • The nuclear envelope breaks • The kinetochore fibers "interact" up. with the spindle polar fibers connecting the kinetochores to • Polar fibers, which are the polar fibers. microtubules that make up the spindle fibers, reach from each • The chromosomes begin to cell pole to the cell's equator. migrate toward the cell center. • Kinetochores, which are specialized regions in the centromeres of chromosomes, attach to a type of microtubule called kinetochore fibers.
Metaphase •The nuclear membrane disappears completely. In animal cells, the two pair of centrioles align at opposite poles of the cell. •Chromosomes move randomly until •Polar fibers they attach (at their kinetochores) to (microtubules that make polar fibers from both sides of up the spindle fibers) their centromeres. Chromosomes align at the continue to extend from metaphase plate at right angles to the the poles to the spindle poles. •Chromosomes are held at the metaphase plate by the equal forces of the polar fibers pushing on the centromeres of the chromosomes.
Anaphase •The paired centromeres in each distinct chromosome begin to move apart. •Once the paired sister chromatids separate from one another, each is considered a "full" chromosome. They are •The daughter chromosomes migrate referred to as daughter centromere first and chromosomes. the kinetochore fibers become shorter as the chromosomes near a pole. •Through the spindle apparatus, the daughter •In preparation for telophase, the two chromosomes move to the cell poles also move further apart during poles at opposite ends of the course of anaphase. At the end of the cell. anaphase, each pole contains a complete compilation of chromosomes.
Telophase • In telophase, the chromosomes are cordoned off in distinct new nuclei in the emerging daughter cells.
Interphase • G1 phase: The period prior to the to increase in size. Note that the G synthesis of DNA. In this phase, the in G2 represents gap and the 2 cell increases in mass in represents second, so the G2 preparation for cell division. Note phase is the second gap phase. that the G in G1 represents gap and the 1 represents first, so the G1 • In the latter part of interphase, the phase is the first gap phase. cell still has nucleoli present. • S phase: The period during which • The nucleus is bounded by a DNA is synthesized. In most cells, nuclear envelope and the cell's there is a narrow window of time chromosomes have duplicated but during which DNA is synthesized. are in the form of chromatin. Note that the S represents synthesis. • In animal cells, two pair of centrioles formed from the • G2 phase: The period after DNA replication of one pair are located synthesis has occurred but prior to outside of the nucleus. the start of prophase. The cell synthesizes proteins and continues
Interphase
Prophase I: •Chromosomes thicken and detach from the nuclear envelope. •Similar to mitosis, •Chromosomes condense the centrioles migrate away and attach to the nuclear from one another and both envelope. the nuclear envelope and nucleoli break down. •Synapsis occurs (a pair of •Likewise, the homologous chromosomes chromosomes begin their lines up closely together) migration to the metaphase and a tetrad is formed. plate. Each tetrad is composed of four chromatids. Crossing over may occur.
Metaphase I: •Tetrads align at the metaphase plate. •Note that the centromeres of homologous chromosomes are oriented toward the opposite cell poles.
Anaphase I: •Chromosomes move to the opposite cell poles. Similar to mitosis, the microtubules and the kinetochore fibers interact to cause the movement. •Unlike in mitosis, the homologous chromosomes move to opposite poles yet the sister chromatids remain together.
Telophase I: •The spindles continue to move the homologous chromosomes to the poles. Once movement is complete, each pole has a haploid number of chromosomes. •At the end of telophase I and cytokinesis, two daughter cells are •In most cases, cytokinesis produced, each with one half the occurs at the same time as number of chromosomes of the original telophase I. parent cell. •Depending on the kind of cell, various processes occur in preparation for meiosis II. There is however a constant: The genetic material does not replicate again.
Prophase II: •The nuclear membrane and nuclei break up while the spindle network appears. •Chromosomes do not replicate any further in this phase of meiosis. •The chromosomes begin migrating to the metaphase II plate (at the cell's equator).
Metaphase II: •The chromosomes line up at the metaphase II plate at the cell's center. •The kinetochores of the sister chromatids point toward opposite poles.
Anaphase II: The sister chromatids separate and move toward the opposite cell poles.
Telophase II: •Distinct nuclei form at the opposite poles and cytokinesis occurs. •At the end of meiosis II, there are four daughter cells each with one half the number of chromosomes of the original parent cell.
OVERVIEW OF THE CELL Barro, Kevin Winge B. Casas, Gregorio Jr. A. CELL DIVISION: MITOSIS & MEIOSIS

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The Cell

  • 1. CELL Structures of the Cell & Cell Division
  • 2.
  • 3. Early Contributions • Robert Hooke - The first person • Rudolf Virchow - also reported to see cells, he was looking at that every living thing is made of cork and noted that he saw "a up vital units, known as cells. He great many boxes. (1665) also predicted that cells come • Anton van Leeuwenhock - from other cells. (1850 ) Observed living cells in pond water, which he called "animalcules" (1673) • Theodore Schwann - zoologist who observed that the tissues of animals had cells (1839) • Mattias Schleiden - botonist, observed that the tissues of plants contained cells ( 1845)
  • 4. 1. Every living organism is made of one or more cells. 2. The cell is the basic The Cell unit of structure and function. It is the Theory smallest unit that can perform life functions. 3. All cells arise from pre-existing cells.
  • 5. Cell Features • Ribosomes - make protein for use by the organism • Cytoplasm - jelly-like goo on the inside of the cell • DNA - genetic material • Cytoskeleton - the internal framework of the cell • Cell membrane - outer boundary of the cell, some stuff can cross the cell membrane.
  • 6.
  • 7. Prokaryotic Cells Prokaryotes are very simple cells, probably first to inhabit the earth. Prokaryotic cells do not contain a membrane bound nucleus.
  • 8. The eukaryotic cell is composed of 4 main parts: 1. cell membrane - outer boundary of the cell 2. cytoplasm - jelly- like fluid interior of the cell 3. nucleus - the "control center" of the cell, contains the cell's DNA (chromosomes) 4. organelles - "little organs" that carry out cell functions Eukaryotic Cells Eukaryotic cells are more advanced cells. These cells are found in plants, animals, and protists (small unicellular "animalcules").
  • 9. Make protein Ribosomes Located inside the nucleus, makes ribosomes
  • 10. Endoplasmic Reticulum Smooth ER - no ribosomes Rough ER - ribosomes Transport, "intracellular highway". Ribosomes are positioned along the rough ER, protein made by the ribosomes enter the ER for transport. Chloroplast Uses sunlight to create food, photosynthesis Cell Wall (only found in plant Provides additional support (plant and cells) bacteria cells) Microtubules Part of the cytoskeleton, function in support Also make up cilia and flagella (cell movement)
  • 11. Animal Cell Plant Cell
  • 12. ORGANELLES WITH DNA • The Mitochondria and Chloroplasts have their own DNA • ENDOSYMBIOSIS THEORY - eukaryotic cells evolved from the engulfing of bacteria cells, thus creating additional cell parts
  • 13. CELL MEMBRANE • Function: to regulate what comes into the cell and what goes out • Composed of a double layer of phospholipids and proteins
  • 14.
  • 15. Interphase • Stages of Interphase to increase in size. Note that the G G1 phase: The period prior to the in G2 represents gap and the 2 synthesis of DNA. In this phase, the represents second, so the G2 cell increases in mass in phase is the second gap phase. preparation for cell division. Note • In the latter part of interphase, the that the G in G1 represents gap and cell still has nucleoli present. the 1 represents first, so the G1 • The nucleus is bounded by a phase is the first gap phase. nuclear envelope and the cell's • S phase: The period during which chromosomes have duplicated but DNA is synthesized. In most cells, are in the form of chromatin. there is a narrow window of time • In animal cells, two pair during which DNA is synthesized. of centrioles formed from the Note that the S represents replication of one pair are located synthesis. outside of the nucleus. • G2 phase: The period after DNA synthesis has occurred but prior to the start of prophase. The cell synthesizes proteins and continues
  • 17. Changes that occur in a cell during prophase: • Chromatin fibers become • In animal cells, the mitotic coiled into chromosomes with spindle initially appears as each chromosome having two structures called asters which chromatids joined at surround each centriole pair. a centromere. • The mitotic spindle, composed • The two pair of microtubules and proteins, of centrioles (formed from the forms in the cytoplasm. replication of one pair in Interphase) move away from one another toward opposite ends of the cell due to the lengthening of the microtubules that form between them.
  • 18. In late prophase: • The nuclear envelope breaks • The kinetochore fibers "interact" up. with the spindle polar fibers connecting the kinetochores to • Polar fibers, which are the polar fibers. microtubules that make up the spindle fibers, reach from each • The chromosomes begin to cell pole to the cell's equator. migrate toward the cell center. • Kinetochores, which are specialized regions in the centromeres of chromosomes, attach to a type of microtubule called kinetochore fibers.
  • 19. Metaphase •The nuclear membrane disappears completely. In animal cells, the two pair of centrioles align at opposite poles of the cell. •Chromosomes move randomly until •Polar fibers they attach (at their kinetochores) to (microtubules that make polar fibers from both sides of up the spindle fibers) their centromeres. Chromosomes align at the continue to extend from metaphase plate at right angles to the the poles to the spindle poles. •Chromosomes are held at the metaphase plate by the equal forces of the polar fibers pushing on the centromeres of the chromosomes.
  • 20. Anaphase •The paired centromeres in each distinct chromosome begin to move apart. •Once the paired sister chromatids separate from one another, each is considered a "full" chromosome. They are •The daughter chromosomes migrate referred to as daughter centromere first and chromosomes. the kinetochore fibers become shorter as the chromosomes near a pole. •Through the spindle apparatus, the daughter •In preparation for telophase, the two chromosomes move to the cell poles also move further apart during poles at opposite ends of the course of anaphase. At the end of the cell. anaphase, each pole contains a complete compilation of chromosomes.
  • 21. Telophase • In telophase, the chromosomes are cordoned off in distinct new nuclei in the emerging daughter cells.
  • 22.
  • 23. Interphase • G1 phase: The period prior to the to increase in size. Note that the G synthesis of DNA. In this phase, the in G2 represents gap and the 2 cell increases in mass in represents second, so the G2 preparation for cell division. Note phase is the second gap phase. that the G in G1 represents gap and the 1 represents first, so the G1 • In the latter part of interphase, the phase is the first gap phase. cell still has nucleoli present. • S phase: The period during which • The nucleus is bounded by a DNA is synthesized. In most cells, nuclear envelope and the cell's there is a narrow window of time chromosomes have duplicated but during which DNA is synthesized. are in the form of chromatin. Note that the S represents synthesis. • In animal cells, two pair of centrioles formed from the • G2 phase: The period after DNA replication of one pair are located synthesis has occurred but prior to outside of the nucleus. the start of prophase. The cell synthesizes proteins and continues
  • 25. Prophase I: •Chromosomes thicken and detach from the nuclear envelope. •Similar to mitosis, •Chromosomes condense the centrioles migrate away and attach to the nuclear from one another and both envelope. the nuclear envelope and nucleoli break down. •Synapsis occurs (a pair of •Likewise, the homologous chromosomes chromosomes begin their lines up closely together) migration to the metaphase and a tetrad is formed. plate. Each tetrad is composed of four chromatids. Crossing over may occur.
  • 26. Metaphase I: •Tetrads align at the metaphase plate. •Note that the centromeres of homologous chromosomes are oriented toward the opposite cell poles.
  • 27. Anaphase I: •Chromosomes move to the opposite cell poles. Similar to mitosis, the microtubules and the kinetochore fibers interact to cause the movement. •Unlike in mitosis, the homologous chromosomes move to opposite poles yet the sister chromatids remain together.
  • 28. Telophase I: •The spindles continue to move the homologous chromosomes to the poles. Once movement is complete, each pole has a haploid number of chromosomes. •At the end of telophase I and cytokinesis, two daughter cells are •In most cases, cytokinesis produced, each with one half the occurs at the same time as number of chromosomes of the original telophase I. parent cell. •Depending on the kind of cell, various processes occur in preparation for meiosis II. There is however a constant: The genetic material does not replicate again.
  • 29. Prophase II: •The nuclear membrane and nuclei break up while the spindle network appears. •Chromosomes do not replicate any further in this phase of meiosis. •The chromosomes begin migrating to the metaphase II plate (at the cell's equator).
  • 30. Metaphase II: •The chromosomes line up at the metaphase II plate at the cell's center. •The kinetochores of the sister chromatids point toward opposite poles.
  • 31. Anaphase II: The sister chromatids separate and move toward the opposite cell poles.
  • 32. Telophase II: •Distinct nuclei form at the opposite poles and cytokinesis occurs. •At the end of meiosis II, there are four daughter cells each with one half the number of chromosomes of the original parent cell.
  • 33. OVERVIEW OF THE CELL Barro, Kevin Winge B. Casas, Gregorio Jr. A. CELL DIVISION: MITOSIS & MEIOSIS