General Biology PDF

Summary

This document discusses the different types of cells and organelles within them in detail. It explains the endosymbiotic theory and the structures found in prokaryotic and eukaryotic cells. It also includes extra cellular components and intercellular junctions.

Full Transcript

Endosymbiotic theory - suggests certain organelles originated as independent prokaryotic
cells engulfed by host cell
both prokaryotic and eukaryotic has membrane bound organelle but prokaryotic has no
nucleus (nucleus has majority of cell genes/)
prokaryotic - bacteria, archaea; has nucleoid (DNA source - cell genes) and membrane
bound organelles
plasma membrane - made of phospholipids and protein
cell wall - made of peptidoglycan, structural support
glycocalyx: outer coating, slime layer
flagella - locomotion organelles
1. Monotrichous - 1:1 pole
2. Lophotrichous - many:1 pole
3. Petrichous - many all around
4. Amphitrichous - one for each pole
ribosomes - made of rna and protein, site of protein synthesis

eukaryotic -plants, animals, fungi, protist (has nucleus and membrane bound organelle),
more complex
flagella - locomotion organelle
fimbrae - attachment structure
endospore - dormant protection against environmental stress
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eukaryotic
nucleus - contains most cell's genes. Inside it: chromatin - makes chromosomes, regular
form of chromosomes
nucleolus - site of ribosome rna synthesis
nuclear envelope - encloses w double phospholipid bilayer
nuclear pores - regulates entry exit of molecules from nucleus
nuclear lamina - maintains nucleus shape
endoplasmic reticulum -has 2 parts
smooth reticulum -synthesizes lipids, metabolizes carbs, detoxifies, stores calcium
rough reticulum - secretes glycoproteins, distributes vesicles
golgi apparatus - modifies, manufactures, packages transport vesicles
lysosome - digest macromolecules. split into 3 parts: phagocytosis - eats cells forming
vacuoles
phagolysosome - combi of lysosomes and vacuoles
autophagy - absorb useless
vacoules are: food vacuoles, contractile vacuoles - pump water, central vacuoles - found in
plant cells

Kirsten remember: Mitochondria - site of cell respiration generating ATP (energy source and
see storage), has smooth outer membrane and inner membrane
 chloroplast - contains chlorophyll (green pigment) found in plants and algae. Includes
Thylakoids - sacs
Stroma - internal fluid
Peroxisome - hydrogen peroxide converts to water
cytoskeleton - supports cells and maintains shape. 3 fibers making it up is: 1. Microtubules
- thickest , controls beating of cilia and flagella
2. Microfilaments - thinnest, plays a role in cell structure, organization , movement
3. intermediate filaments - structural protein in eukaryotic cells
cytoplasm - semifluid
plasma membrane - separates cells from surrounding, has proteins embedded
svedberg unit - how fast organelles propel

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Extracellular components:
Cell wall - protects plant cell, maintains shape, prevents excess water, made of cellulose
fibers embedded in other polysaccharides and protein
extracellular matrix - animal cells lack cell walls but are covered by extracellular matrix
(ECM), Functions: (SAMR) - SUPPORT, ADHESION, MOVEMENT, REGULATION
Intercellular junction - direct physical contact
1. Plasmodesmata -channel between adjacent plant cells
2. tight junctions - membranes of neighboring cells are pressed together
3. Desmosomes - (anchoring junctions) fasten cells together to strong sheets
4. Gap junctions - (communicating junctions) provide cytoplasmic channels between
adjacent cells