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Plant Cells

Plant Cells. Organism. Organs. Tissue Systems. Tissues. Cells. Organelles. The Body’s Organization Each level represents a different compartment. What is a Cell?. What is a Cell?. The smallest unit that conforms to the definition of life Reproduction Response to stimuli Metabolism

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Plant Cells

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  1. Plant Cells

  2. Organism Organs Tissue Systems Tissues Cells Organelles The Body’s OrganizationEach level represents a different compartment

  3. What is a Cell?

  4. What is a Cell? • The smallest unit that conforms to the definition of life • Reproduction • Response to stimuli • Metabolism • Movement • Complexity of Organization • Adaptation to the environment

  5. Major Evolutionary Events in the Origin of Life Multicellular Organisms 700-500 mya Eukaryotic Cells 1.7 bya First Cells Prokaryotes “the animation of matter” 3.5 bya Primordial Soup

  6. Domains: Eubacteria Archaea Eukarya Kingdoms: Animal Fungi Plant Archaebacteria Protist Eubacteria Common ancestor Fig. 1.10

  7. There are Two Groups of Cells • Bacterial Cells (Prokaryotic cells) • The first cell to have evolved • Relatively small and less complex than the… • Eukaryotic Cells • On average 100X larger than a bacterial cell • Contains organelles: internally more complex

  8. The Bacterial Cell

  9. Cyanobacteria The Cyanobacteria are capable of photosynthesis. It is believed that they are responsible for the first oxygen levels in the early atmosphere.

  10. Cyanobacterium: Oscillatoria sp.

  11. Anatomy of a Eukaryotic Plant Cell

  12. Cell wall Cell membrane Cytoplasm Cytoskeleton Nucleus chromosomes Mitochondria Plastids Chloroplast Amyloplast Chromoplast Vacuole Organelles of the cell

  13. Cell Walls • Made of carbohydrates (cellulose) • Protection and structure • All cells, except animal cells, have cell walls

  14. The Cell Wall • Cell walls are: • Structural • Provide defense against invading pathogens • Provide pathways for communications between cells • Structural components: • cellulose • hemicellulose (glue that holds cellulose fibers together) • pectin (stiffens fruit jellies) • Proteins

  15. Cell wall organization • Growing plant cells produce a primary cell wall, which stretches as the cell grows • A secondary cell wall may then be produced, inside the primary wall • Strong, thick • Secondary cell walls set limits to cell growth • Middle Lamella is the area between adjacent plant cells and is made of pectin

  16. The cell membrane

  17. The cell membrane • Semi-fluid cell boundary (thick oil) • controls passage in/out of cell • Made of 2 lipid layers with proteins on its surface and embedded within the layers

  18. Cytoplasm • A rich “soup” of carbohydrates, proteins, fats and nucleic acids • Sometimes referred to as protoplasm • Watery or gelatin-like substance in which all organelles are suspended

  19. “Control center” • Genetic information stored as chromosomes • The Genome: all the genetic material in a cell • Nuclear Pores allow passage between the nucleus and the cytoplasm Nucleus

  20. Plant Chromosomes

  21. The CYTOSKELETON • Extensive network of protein fibers • Functions in • internal support • provides internal structure to the cell • transport of organelles and protein vesicles • cell motility • cilia • flagella

  22. View of Cytoskeleton • Network of protein fibers • Provides structure and shape to the cell • Movement of the cell • Internal movement of organelles and other molecules

  23. Flagella

  24. ATP= energy The MightyMitochondrion! Powerhouse of the Cell

  25. Mitochondria • “powerhouse of the cell” • ATP production • Cell “breathing” is called cellular respiration • The mitochondrion has its own Genome Cellular respiration: converts sugars to energy (ATP)

  26. Plastids • Contain pigments or storage products • Chloroplasts • Chromoplasts • Amyloplasts Cells of a red pepper

  27. Chloroplast • Vary in size and shape • Thylakoids • where photosynthesis takes place • Stroma • Calvin cycle • sugar synthesis • The chloroplast has its own genome Photosynthesis converts light energy to chemical energy (sugars)

  28. Chloroplasts of Elodeaand Spyrogyra

  29. Amyloplasts store Starch

  30. Vacuoles • stores water, ions, and nutrients • receptacles for waste products • regulates turgor pressure through osmosis

  31. The Central Vacuole of Plant Cells

  32. Domains: Eubacteria Archaea Eukarya Kingdoms: Animal Fungi Plant Archaebacteria Protist Eubacteria Common ancestor

  33. The Algae • Many Algae live life as a single cell, but some are • Multicellular like the seaweeds • Members of Kingdom Protista • Primary producers of aquatic ecosystems

  34. Spirogyra • Watersilk • Float in masses at the surface of quiet waters • Contain ribbon-shaped chloroplasts • Each chloroplast contains a pyrenoid • Pyrenoids contain enzymes for starch synthesis

  35. Euglena • They live in fresh water streams and ponds, and are especially common in warm seasons when they may form a green scum on the surfaces of small ponds or drainage ditches. • Euglenas have spindle-shaped bodies, and range in size from 1/1000 to 1/100 of an inch (0.025 to 0.254 millimeter) long.

  36. Volvox • Volvox is a colonial algae • It is a complete hollow ball of cells. • Note the smaller daughter colonies that are beginning to form within the parent body. • Each cell has 2 flagella which helps the entire colony swim.

  37. Diatoms • Best known and economically most important algae • Cold and warm waters • Fresh and marine • Damp cliffs, sides of buildings, bark of trees, bare soil • The cell resides inside a glass box

  38. Diatoms What often looks like an oil slick is a bio-film of diatoms

  39. Diatoms: Melosera

  40. Plant Tissues

  41. Examples of the Different Types of Plant Cells • Parenchyma • Collenchyma • Sclerenchyma • fibers and sclerids • Vessels • Tracheids • Sieve tube members • Companion cells • Egg (ovum) • Sperm

  42. The Parenchyma Cell • The generic plant cell • Most abundant and versatile • Function: • storage • flesh of fruit • storage in roots and seeds • basic metabolism • They can change and become other cells (differentiation) • Alive at maturity • Primary cell wall

  43. The Collenchyma Cell • “glue” cells • Flexible support • Found in growing shoots, stems, & leaves • Differentiate from parenchyma cells • Alive at maturity • Primary and secondary cell walls • Ex: resilient strings found in celery

  44. Thickened corner of cell wall Nucleus Cytoplasm Vacuole (b)

  45. Rigid cells Function: support and strengthen non extending regions of a plant like mature stems Thick, non stretchable secondary cell walls Dead at maturity Two Types: Fibers long, slender, occur in strands Cotton Hemp Flax (Linen) Sclerids short, varying shape, occur in groups Gristle in pears Sclerenchyma

  46. Plants Eggs and Sperm

  47. CellsTissues • Like animal cells, plant cells are organized into tissues • Tissues are groups of cells that form a structural and functional unit • Simple tissues have one cell type • Complex tissues have two or more cell types

  48. Tissues Tissue System • Tissues are organized into tissue systems • Vascular plants have three tissue systems • Ground tissue • Energy transformation, storage and support • Vascular tissue • Water and nutrient conduction system • Dermal tissue • Covering for the plant body

  49. P r i m a r y M e r i s t e m T i s s u e S y s t e m T i s s u e s C e l l s e p i d e r m i s d e r m a l p a r e n c h y m a p e r i d e r m p r o t o d e r m v e s s e l s t r a c h e i d s p a r e n c h y m a x y l e m f i b e r s A p i c a l M e r i s t e m v a s c u l a r p r o c a m b i u m s i e v e t u b e m e m b e r s p h l o e m c o m p a n i o n c e l l s p a r e n c h y m a f i b e r s g r o u n d m e r i s t e m p a r e n c h y m a p a r e n c h y m a g r o u n d c o l l e n c h y m a c o l l e n c h y m a s c l e r e n c h y m a s c l e r e i d s C e l l D i f f e r e n t i a t i o n i n P l a n t s f i b e r s

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