Discovering the Plant Cell Advanced Biotechnology c 5 (C)
Objectives The student will be able to: Identify the parts of a plant cell Describe the functions of each organelle Compare plant cells to other cells
Intro to Plant Cells Plants cells have some unique structures In particular, chloroplasts allow the plant to capture energy from the Sun Eukaryotic cells Means membrane-bound nucleus Some organelles are similar between other types of cells.
Types of Specialized Plant Cells Parenchyma Cells Synthesize and store organic products, “filler” tissue; e.g., the soft part of the plant. Collenchyma Cells Extra structural support, esp. in areas of new growth Sclerenchyma Cells Provide main structural support
Plant Cell Characteristics Plant cells generally larger than animal Plant cells more consistent in size and shape Unique structures: Cell wall Large vacuole Plastids chloroplasts
Plant Cell vs Animal Cell Various sizes and shapes Smaller than plant cells Organelles typically not found in plant cells: Centrioles Lysosomes Cilia/flagella Consistent shape and size Typically “cube-ish” Organelles typically not found in animal cells: Cell wall Large vacuole Plastids Chloroplasts
Organelles Cell (Plasma) Membrane Mitochondria Nucleus Cell Wall Nucleolus Chloroplast Nucleopore Peroxisomes Cytoplasm Plasmodesmata Cytoskeleton Ribosomes Endoplasmic Reticulum (ER) Vacuole Golgi Complex Microtubules
Plasma Membrane Plasma Membrane: Similar to other cell type plasma membranes Phospholipid bilayer acts as a permeability barrier. Location for transport of molecules into the cell.
Cell Wall Plant Cell Animal Cell Bacteria Cell Mostly composed of cellulose No cell wall Prokaryotic cells made up of murein aka peptidoglycan. The cell wall is a rigid layer on the outside of the plasma membrane. The cell wall offers structural support, filtration, and protection.
Chloroplasts Only found in plants Contain chlorophyll Green pigment that makes plants green Main function is photosynthesis Chloroplasts contain their own DNA Chloroplasts can host transgenes – better isolated than nuclear transformation
Cytoskeleton Supports cell shape and function. Composed of proteins which can assemble or disassemble as the needs of the cell change. Found in cells of all domains of life.
Endoplasmic Reticulum Two types: Rough (RER) System of sacks found in cell’s cytoplasm Rough is covered with ribosomes that give it a rough appearance. Functions as transport through the cell, produces proteins Transport vesicles take proteins from RER to Golgi apparatus Smooth System of tubes located in cytoplasm. Function as transport through the cell. Contains enzymes to assist in digestion of lipids proteins Smooth ER buds off of rough ER.
Golgi Complex Also known as Golgi body or apparatus. Flattened and layered organelle. Resembles a stack of pancakes. Receives the vesicles from RER and converts proteins and lipids to various useable products Transports out vesicles
Microtubules Component of the cytoskeleton Helps maintain structure of a cell Involved in cellular processes and intracelluar transport http://images.nigms.nih.gov/index.cfm?event=viewDetail&imageID=3611
Mitochondria Found in most eukaryotic cells. The “powerhouse of the cell”. Generate most of the cell’s adenosine triphosphate (ATP) chemical energy Maintains control over the cell cycle/growth. Mitochondria has it’s own DNA (mtDNA).
Cell is undergoing mitosis Nucleus Cell is undergoing mitosis Contains most of the cell’s genetic material Blausen.com staff. "Blausen gallery 2014". Wikiversity Journal of Medicine. DOI:10.15347/wjm/2014.010. ISSN 20018762.
Nucleus continued Contains chromosomes which house the DNA Nuclear pores around the nuclear membrane allow molecules to move across the membrane. Movement is needed for gene expression and chromosome maintenance
Nucleolus Inside the nucleus is the nucleolus Ribosomes are made inside the nucleolus
Peroxisome Produces enzymes for the breakdown of fatty acids Assist in photorespiration of leaves and germination of seeds.
Plasmodesmata Microscopic channels traversing cell walls of plant cells Transport proteins, mRNA, viral genomes from cell to cell Viral movement example: tobacco mosaic virus MP-30
Ribosomes Ribosomes are technically NOT an organelle as they are non-membrane bound. Free-floating and attached to rough endoplasmic reticulum. Site of protein synthesis. RNA translated into protein
Vacuole Present in all plant and fungal cells Some protist, animal, and bacterial cells Enclosed compartments filled with water Functions: Containing waste products Containing water Maintaining internal hydrostatic pressure Support structures such as leaves and flowers
Vacuoles
Identification Game http://www.sheppardsoftware.com/health/anatomy/cell/plant_cell_game.htm