IB BIO SL 1.2
Eukaryotes are compartmentalized what are some advantages of this?
*Efficiency of Metabolism* -enzymes & substrates can localized and much more concentrated *Localized Conditions* -pH and other factors can be kept at other levels *Toxic/Damaging substances can be Isolated* -digestive enzymes (that could digest itself) stored in lysomes *Number and Location of organelles can be changed* -depending on cell's requirements
Outline the major differences between prokaryotic and eukaryotic cells.
*Prokaryotic Cells* -Smaller (about 0.2 - 2 um) -DNA in nucleoid region (no nuclear membrane)No membrane bound organelles -Cell wall of peptidoglycan -Smaller ribosomes (70s) in cytoplasm -DNA is circular and without histone proteinsHas plasmid DNA -Asexual cell division *Eukaryotic Cells* -Bigger (10-100 um) -DNA in a true nucleus -Membrane bound organelles present -Cell wall of cellulose (plants) or chitin (fungus) -Larger ribosomes (80s) in cytoplasm and on ER//also has 70s ribosomes within mitochondria and chloroplasts// -DNA is linear with histone proteins -Do not have plasmid DNA -Asexual or sexual cell division
Structure of free ribosomes
-80s (eukaryote) -no membrane -appear as dark granules in the cytoplasm -synthesizes proteins in the cytoplasm to function
Outline binary fission, the process in which prokaryotes divide.
-DNA replicated semi-cons. -2 DNA loops attach to membrane -Membrane elongates and pinches off (cytokinesis) -Two daughter cells formed, genetically identical
Light vs. Electron: Resolution
-Human : 100 μm / 100,000 nm- Light : 0.2 μm / 200 nm Electron : 0.001 μm / 1 nm
Structure of mitochondria
-double membrane -smooth outer membrane and inner membrane with foldings -fold are cristae -variable in shape
Structure of chloroplast
-double membrane -stacks of thylakoids (flattened membrane discs) -variable but usually ovoid
Structure of RER
-flattened membrane sacs (cisternae) -located near nucleus -80s are attached to the outside of the cisternae
Ultrastructure of eukaryote
-image
Ultrastructure of prokaryote
-image
Structure of cell wall
-mainly consists of cellulose -permeable //doesn't affect transport in/out of cell -strong //gives support so plasma membrane won't burst -hard to digest //long-lasting as it's resistant to being broken down
Structure of nucleus
-pores in membrane -spherical double membrane -genetic info (DNA and ass. histone proteins) -mRNA is transcribed here, leaves via the pores
Structure of vesicles
-single membrane w/ fluid inside -small in size -transport materials inside the cell
Structure of vacuole
-single membrane w/ fluid inside PLANT -large and permanent -occupying majority of cell volume ANIMAL -small and temporary -used for various reason e.g absorb/digest food
Structure of lysomes
-spherical w/ single membrane -formed from Golgi vesicles -high conc. of enzymes so it stains heavily on microscopes
Structure of flagella
-thin projection from the surface of the cell -contains microtubules
Structure of cilia
-thin projection*s* from the cell's surface -contains microtubles
Structure of centrioles
-two groups of nine microtubules -mainly found in animal cells, not present in plant/fungal
Centrioles
A cell organelle that aids in cell division in animal cells only
Eukaryote
A cell that contains a nucleus and membrane bound organelles
Prokaryote
A unicellular organism that lacks a nucleus and membrane bound organelles
/e Which organelle is involved in generating vesicles destined for the cell membrane? A. Golgi apparatus B. Smooth endoplasmic reticulum C. Rough endoplasmic reticulum D. Lysosome
A. Golgi apparatus
/e State on function of mitochondria
ATP production/site of aerobic respiration
/e Which structure found in eukaryotes has a single membrane? A. Nucleus B. Lysosome C. Chloroplast D. Mitochondrion
B. Lysome
Lysomes
Breaks down food molecules from the Golgi apparatus with digestive enzymes
/e The following electron micrograph shows part of a palisade mesophyll cell. Which of the labelled structures controls the exchange of substances to and from the cell?
C.
/e An unknown cell is observed using a microscope. A cell wall, ribosomes and DNA are identified. What can be concluded from these observations? A. It can only be a prokaryotic cell. B. It can only be a eukaryotic cell. C. It could be a prokaryotic or eukaryotic cell. D. It can only be a plant cell.
C. It could be a prokaryotic or eukaryotic cell.
/e [images but,,,] Which organelle is involved in vesicle formation A. Mitochondria B. Chloroplast C. Leukocyte D. Nucleus
C. Leukocyte
/e What is the function of the Golgi apparatus? A. Transport of lipids B. Synthesis of polypeptides C. Processing of proteins for secretion D. Generation of most of the cell's supply of ATP
C. Processing of proteins for secretion
/e What is the role of the vesicles shown in the micrograph? A. To transport hormones between the rough endoplasmic reticulum and the Golgi apparatus B. To store glycogen when blood glucose levels are high C. To move enzymes out of the cell by exocytosis D. To digest cellulose
C. To move enzymes out of the cell by exocytosis
Chloroplast (plants only)
Converts sunlight energy into stored energy (sugar) via the process of photosynthesis. (glucose produced)
/e A cell has cytoplasm, a cell wall, naked DNA and ribosomes. Based on this information, what type of cell could this be? A. A cell from a pine tree B. A grasshopper cell C. A human red blood cell D. A bacterium
D. A bacterium
/e Which is a difference between prokaryote and eukaryote cells? D. No ribosomes vs. ribosomes D. No region containing DNA vs. region containing DNA D. No flagella vs. flagella D. No mitochondria vs. mitochondria
D. No mitochondria vs. mitochondria
/e What is a possible explanation for the total percentage resistance being larger than 100% in 2010? A. People do not take the antibiotics as prescribed. B. More people have been sampled in that year. C. There was an epidemic of Neisseria gonorrhoeae in that year. D. Some bacteria are resistant to more than one antibiotic.
D. Some bacteria are resistant to more than one antibiotic.
/e Where are proteins synthesized by free ribosomes used? A. Outside the cell after secretion B. Within the nucleus C. Within the lysosomes D. Within the cytoplasm
D. Within the cytoplasm
Nucleus
It contains DNA; it is the site of replication and transcription.
Light vs. Electron: Resolving
Light: 200 nm (500x better than our eyes) Electron: 0.2 nm (1000x better than light)
Light vs. Electron: Magnification
Light: 2000x (@ school only 400x) Electron: 250,000x (125x than avg. light)
Light vs. Electron: Field of view
Light: Larger Electron: Smaller
Light vs. Electron: Purpose
Light: Study dead or *living* cells in *colour* -cell movement can be studied -see the structure of the cell Electron: Requires cells to be dead and no stain is used -cell movement cannot be studied -see the ultrastructure of the cell
Can electron and light microscopes see viruses?
Light: cannot see viruses Electron: can see viruses
Structure of Golgi apparatus
Like RER has cisternae *BUT* -no attached ribosomes -close to plasma membrane -cisternae are shorter and more curved
/e [2 marks] State three structural difference between the cells of an onion and a honey bee
Onion Cell - cell wall, chloroplasts, large vacuole, fixed shape, starch stored no centrioles/centrosomes Honey Bee - *no* cell wall/chloroplasts/large vacuole/fixed shape - glycogen stored - centrioles/centrosomes
Golgi apparatus
Packages and releases (to vesicle) proteins from RER.
Microtubules
Play a role in cell division and are apart of flagella
Vacuoles
Stores food, water, wastes, and other materials
Cell wall (plants only)
The thick outer layer that surrounds the cell membrane of plant cells (extracellular component not an organelle)
Do chromatids stain dark?
Yes, they stain dark and are concentrated at the edge of the nucleus.
plasmid (prokaryotic)
a small circular piece of DNA carrying genetic information separate from the prokaryotic chromosome
What are ultrastructures ?
all the structures of a biological specimen that are at least 0.1nm in their smallest dimension
80S ribosomes
larger ribosomes found in eukaryotes
Vesicles
membrane sac containing proteins ready for secretion
Electron micrograph on mesophyll cells
mesophyll cells
Cilia (animals only)
move the cell or move fluids that are next to the cell
Smooth Endoplasmic Reticulum (SER)
no ribosomes present
Free ribosomes
site of protein synthesis
Structure of microtubules
small cylindrical fibres
70s ribosomes
smaller ribosomes found in prokaryotes
Rough Endoplasmic Reticulum (RER)
synthesizes and transports proteins (outside by the vesicles to the Golgi apparatus)
Mitochondria (mitochondrion singular)
the organelle that is the site of ATP (energy) production (inner membrane forms cristae)
Resolution
the shortest distance between two points that can be distinguished
Flagella (animals only)
used to move the cell
