Cell Biology
Living organisms are made of one or more cells
Cells are the smallest unit of life
All cells come from pre-existing cells
There are exceptions to the Cell Theory.
ie. Red Blood Cells, Fungal Hyphae, Skeletal Muscle, Giant Algae
Metabolism
Excretion
Homeostasis
Reproduction
Growth
Nutrition
Response
Some ability to move
Function | Paramecium | Chlorella |
---|---|---|
Respiration | Diffusion of gases | By the diffusion of gases |
Growth and Reproduction | Binary fission | Binary fission |
Response | Surface sensitive to touch chemicals | Responds to light |
Homeostasis | Excretory products diffuse out | Carbon dioxide leaves by diffusion |
Nutrition | Feeds using cilia | Photosynthesis |
Movement | Cilia propel organism | Floats in water |
Totipotent- Can form any cell type, embryonic tissue
Pluripotent- Can form any cell type
Multipotent- Can differentiate into a number of closely related cell types
Unipotent- Can not differentiate, capable of self-renewal
Embryonic- Come from a blastocyst, like totipotent
Type of Transport | Explanation | Active or Passive | Membrane component? | Examples of molecules |
---|---|---|---|---|
Endocytosisinto the cell | Phagocytosis- eatingPinocytosis-drinking | A | Infolding of Phosopolipid bilayer | WBC- Bacteria, Pathogens, Debris, FoodVitamins, Sugars |
Exocytosis | Exit the cell | A | Vesicles from Golgi fuse | Proteins, Hormones, neurotransmitters |
Simple Diffusion | Go with a concentration gradient | P | Through Phospholipid bilayer | O2, CO2non-polar substances |
Facilitated Diffusion | Go with a concentration gradient | P | Protein channels or protein carrier | Glucose, amino acids, polar substances |
Osmosis | The net movement of H2O | P | Protein channels, Aquaporins | H2O |
Ion-exchange pump | Use energy to move molecules from low to high | A | Ion pumpsSodium/potassium pumps | NA+K+ |
Interphase-G1, S, G2, normal cell
Prophase- First stage, nuclear membrane disintegrates, chromosomes pair up, centrioles start to produce spindle fibers
Metaphase- Second phase, Spindle fibers attach to the kinetochore, chromosomes align on the metaphase plate
Anaphase- Third phase, spindle fibers separate pulling sister chromatids to opposite poles
Telophase- Final phase, spindle fibers disintegrate, daughter chromatids condense, cleavage furrow forms (animal) or cell plate forms (plant), nuclear membrane reforms
Cytokinesis- Returns to normal cell
Mitotic index= Cells in mitosis/total number of cells
Nucleus- houses the DNA of the cell
Mitochondria- converts ATP into energy
Rough ER- Protein synthesis
Smooth ER- Lipid synthesis
Golgi body- transportation
Vesicles- transports things inside and outside the cell
Vacuoles- storage
Ribosomes- make protein dipeptides
Nucleolus- processes of mRNA
Plasma membrane- allows things in and out, holds organelles inside
Centrioles- make spindle fibers
Lysosome- breaks down waste
Cytoplasm- a platform for organelles
Chloroplast- holds chlorophyll for photosynthesis
Cell Wall- provides a structure for plant cell
Living organisms are made of one or more cells
Cells are the smallest unit of life
All cells come from pre-existing cells
There are exceptions to the Cell Theory.
ie. Red Blood Cells, Fungal Hyphae, Skeletal Muscle, Giant Algae
Metabolism
Excretion
Homeostasis
Reproduction
Growth
Nutrition
Response
Some ability to move
Function | Paramecium | Chlorella |
---|---|---|
Respiration | Diffusion of gases | By the diffusion of gases |
Growth and Reproduction | Binary fission | Binary fission |
Response | Surface sensitive to touch chemicals | Responds to light |
Homeostasis | Excretory products diffuse out | Carbon dioxide leaves by diffusion |
Nutrition | Feeds using cilia | Photosynthesis |
Movement | Cilia propel organism | Floats in water |
Totipotent- Can form any cell type, embryonic tissue
Pluripotent- Can form any cell type
Multipotent- Can differentiate into a number of closely related cell types
Unipotent- Can not differentiate, capable of self-renewal
Embryonic- Come from a blastocyst, like totipotent
Type of Transport | Explanation | Active or Passive | Membrane component? | Examples of molecules |
---|---|---|---|---|
Endocytosisinto the cell | Phagocytosis- eatingPinocytosis-drinking | A | Infolding of Phosopolipid bilayer | WBC- Bacteria, Pathogens, Debris, FoodVitamins, Sugars |
Exocytosis | Exit the cell | A | Vesicles from Golgi fuse | Proteins, Hormones, neurotransmitters |
Simple Diffusion | Go with a concentration gradient | P | Through Phospholipid bilayer | O2, CO2non-polar substances |
Facilitated Diffusion | Go with a concentration gradient | P | Protein channels or protein carrier | Glucose, amino acids, polar substances |
Osmosis | The net movement of H2O | P | Protein channels, Aquaporins | H2O |
Ion-exchange pump | Use energy to move molecules from low to high | A | Ion pumpsSodium/potassium pumps | NA+K+ |
Interphase-G1, S, G2, normal cell
Prophase- First stage, nuclear membrane disintegrates, chromosomes pair up, centrioles start to produce spindle fibers
Metaphase- Second phase, Spindle fibers attach to the kinetochore, chromosomes align on the metaphase plate
Anaphase- Third phase, spindle fibers separate pulling sister chromatids to opposite poles
Telophase- Final phase, spindle fibers disintegrate, daughter chromatids condense, cleavage furrow forms (animal) or cell plate forms (plant), nuclear membrane reforms
Cytokinesis- Returns to normal cell
Mitotic index= Cells in mitosis/total number of cells
Nucleus- houses the DNA of the cell
Mitochondria- converts ATP into energy
Rough ER- Protein synthesis
Smooth ER- Lipid synthesis
Golgi body- transportation
Vesicles- transports things inside and outside the cell
Vacuoles- storage
Ribosomes- make protein dipeptides
Nucleolus- processes of mRNA
Plasma membrane- allows things in and out, holds organelles inside
Centrioles- make spindle fibers
Lysosome- breaks down waste
Cytoplasm- a platform for organelles
Chloroplast- holds chlorophyll for photosynthesis
Cell Wall- provides a structure for plant cell