1. Diversity of livinng Organisms Read pages 18-30 Department of biology

2. Cell Structure is Evidence for Relatedness There are two main types of cells, prokaryotes and eukaryotes. Prokaryotes are bacteria. (Monera) Prokaryotes are much simpler and usually much smaller than Eukaryotes. Eukaryotes are represented by the remaining four kingdoms: Animalia, Plantae, Fungi, and Protista.

3. Monera (Prokaryota) : http://community.webshots.com/photo/95521344/95541019zbQjjB http://fig.cox.miami.edu/Faculty/Dana/monera.html Prokaryotes are simple cells. The DNA is loose in the cytoplasm—there is no separate nucleus. The ribosomes are also in the cytoplasm. In prokaryotes, transcription (synthesis of RNA) and translation (synthesis of proteins) occurs simultaneously. The cell is surrounded by a membrane, but there are no internal membranes. Outside the membrane is a cell wall, and sometimes an outer capsule which can have structures projecting form it. Bacteria move using flagella: whip-like hairs similar to the flagellum of a sperm cell.

5. Bacterial Reproduction Bacteria reproduce by the process of binary fission. The circular chromosome replicates its DNA. Then, the cell splits into 2 halves, each containing a single chromosome No spindle apparatus (as exists in eukaryotic mitosis and meiosis).

6. Shape: coccus (spheres) and bacillus (rods). Spirillum (spiral) is less common. Aggregation of cells: single cells, pairs (diplo), chains (strepto), clusters (staphylo). Thus we have types such as diplococcus (pair of spheres) and streptobacillus (chain of rods).

7. Exercise one

8. Eukaryotic cell components Cell wall ( optional ) Plasma membrane Cytosol containing organelles: *Nucleus – DNA in chromosomes *Other membrane-bound organelles Mitochondria Chloroplasts (optional) *Ribosomes *Membrane system Flagella (optional)

9. Eukaryotic vs. prokaryotic cells Size *Prokaryotes ≤ 10 µm *Eukaryotes ≥ 10 µm Complexity *Prokaryotes – simple *Eukaryotes – complex Location of chromosomes *Prokaryotes – free in cytosol *Eukaryotes – within a nucleus Flagellar mechanisms differ Bacteria & Archea protists, Fungi, Plants, Animals

10. Bacterium (prokaryote) Animal (eukaryote) Plant (eukaryote) Figures 7.4, 7.7, 7.8 (Actual size relative to eukaryotes below)

11. Protista – single celled with a nucleus http://www.mcwdn.org/Animals/Paramecium.html

12. Euglena sp. *Members of the Euglenid group of the clade Euglenozoa *Characterized by an anterior pocket from which one or two flagella emerge, and the storage polysaccharide paramylon - The eyespot functions as a light shield allowing only certain light rays to strike the light detector - The pellicle is constructed of protein bands beneath the plasma membrane and provides strength and flexibility

13. . Nutrition Euglena are mixotrophic – Perform photosynthesis in the light Lose chlorophyll in the dark & absorb organic molecules via the plasma membrane Locomotion Locomotion is either swimming (flagellar motion), gliding, or euglenoid movement 1 1 Euglena exhibit positive phototaxis – the light detector senses light, the flagellum propels the Euglena toward it Osmoregulation Euglena are hypertonic to their freshwater environment Water enters by osmosis and needs to be removed The contractile vacuole fills with water and then fuses with the gullet to release it

14. II. Protista A. General Info B. Groups 1.Protozoa (“Animal-like”)- heterotrophs

15. Amoeba use “pseudopodia” to move

19. Paramecium-uses cilia to move

22. Macronucleus w/ micronuclei behind Oral groove on surface Site of cell “anus” Food vacuoles Cilia Undulating membrane in groove (ciliary) Contractile vacuoles Food particles Paramecium, a ciliated protozoan