# Unit 2: Biology
## Cellular Biology
A person contains roughly 100 trillion cells
- Cells are roughly 20 `μm` (micrometre, 10-6 m), around 250 cells / cm
## Cell Theory
1. All living things are composed of cells
2. Cells are the basic units of living organisms
3. All cells came from pre-existing cells
## Eukaryotic versus Prokaryotic Cells
`Prokaryotic cell`: Meaning before/lacking nucleus
`Eukaryotic cell`: Means complete nucleus
|Factors|Prokaryotic|Eukaryotic|
|:-----------|:----------|:---------|
|DNA|In nucleoid region|Usually in membrane-bound nucleus|
|Size|Usually smaller|Usually larger|
|Organelles|Not membrane-bound, smaller|Membrane-bound, more complex|
|Organization|Usually singlecelled|Often form multicellular organisms|
|Metabolism|May not need oxygen|Usually need oxygen|
## Cellular Organelles
### Business Analogy
| In a business | In a cell |
| ------------- | --------- |
| Building | Cytoplasm & Cytoskeleton |
| Department Head | Organelles |
| Boss | DNA |
| Workers | Ribosomes & Enzymes |
| Waste management | Lysosomes |
| Storage | Vacuoles |
| Powerhouse | Chloroplasts & Mitochondria |
| Security gate | Cell membrane controls entrance and exit from the cell |
| Transportation Department | IMPORT: Cell membranes and vesicles, INTERNAL: Endoplasmic reticulum & vesicles, EXPORT: Golgi apparatus, vesicles, and cell membrane |
### Cell Membrane
- Controls what substances **enter/leave** the cell selectively via various receptors/osmosis
- Allows **nutrients** to enter
- Allows **waste products** to leave (removal of waste)
- Surrounds and holds other organelles in cell
- Interact with outside chemicals (e.g., hormones)
- Must transport food (ATP), nutrients into the cell
### Nucleus
- Is the control center of the cell
- Holds deoxyribonucleic acid (DNA) in form of `chromatin`
- DNA is a double helix containing genes
- `Genes` are a full set of instructions in DNA to make either RNA or a protein, they are **found** in the DNA
- `Chromatin`: is DNA **wrapped tightly** in protein
- `Chromosomes`: are even more tightly wrapped `chromatin` used in cell division only, formed when `DNA` **condenses** in `mitosis`
- Surrounded by a double membrane
- Substances enter and exit the nucleus via `nuclear pores`. `Nuclear pores` are holes in the membrane that allow `proteins` and `nucleic acids` into the `cytoplasm`
- Messenger RNA (mRNA) is encoded from DNA and sent to `ribosomes` to produce proteins
- Humans have ~2 meters of genes per cell per nucleus tightly wrapped
### Nucleolus
- Dense region of DNA located in the nucleus (codes `ribosomes`; enzyemes that make protein)
- This area of DNA is specially for ribosomal DNA (rDNA), or DNA used to make ribosomes
- Produce "large" and "small" subunits of `ribosomes`, which either form complete `ribosomes` in `cytosol` or mix with `endoplasmic reticulum`, forming `rough endoplasmic reticulum` (RER)
### Cytoplasm & Cytosol
- `Cytosol` is the fluid cells contain
- **All organelles** are suspended in `cytosol`
- `Cytoplasm` is the `cytosol` along with everything in a cell, excluding the nucleus
## Endoplasmic Reticulum
- The endoplasmic reticulum is a network of `tubules` and **flattened sacs** with a *rough* appearance because of the presence of `ribosomes` on the surface
- Network of tubules and flattened sacs
- **Transports** proteins via cytoskeleton in vesicles
## Specific to Rough ER
- Appears "rough" due to the `ribosomes` attached to its outer surface
- Located directly adjacent and attached to nucleus
- Located next to `Golgi apparatus`
- `Ribosomes` in rough ER **synthesize proteins**
- Transports synthesized proteins to `Golgi apparatus` for packaging and distribution
- About half the cell's proteins are produced here
- Folds, fixes and **modifies both newly-created and pre-existing proteins** somewhat like **proof-reading**
## Specific to Smooth ER
- **Does not** synthesize proteins
- Appears "smooth" due to lack of `ribosomes`
- Located directly adjacent and attached to nucleus
- Synthesizes lipids (fats, e.g., cholesterol)
- **Metabolises** carbohydrates
## Golgi Apparatus
- Also known as Golgi body, Golgi complex, etc.
- **Receives, modifies and transports** proteins that were produced by the rough ER
- **Packages** proteins into `vesicles` and sends them `cell membrane` for export
## Lysosome
- Spherical vesicle that containing `enzymes`
- **Digests and kills** foreign matter which is then excreted
- E.g., white blood cells use lysosomes to kill bacteria then spit it out
- **Digests and breaks down** old and unused material/non-functional organelles as needed
- If lysosome ruptures everything dies, hence they are known as "suicude sacs"
## Mitochondria
- **Singular form is "mitochondrion"**
- Contains an inner and outer membrane
- Processes glucose + oxygen gas to form carbon dioxide + adenosine triphosphate (ATP)
- ATP allows proteins to do things (e.g., spend 1 ATP break 1 molecule)
- ATP cannot be stored
- ATP is needed for daily function of the cell
## Cytoskeleton
- Made of **protein filaments**
- **Maintains** and **changes** cell structure, much like a human skeleton + muscular system
- Moves cells
- Modifies and adjusts cell structure as needed
- Chemicals can travel along `cytoskeleton`, e.g., `organelles`, `vesicles`, etc.
## Organelles specific to animal cells
1. Centrioles and centrosomes
2. Lysosomes
### Centrioles and centrosomes
- Made of same protein as `cytoskeleton`
- Important to cell division in animal cells
- Create cilia and flagella (e.g., small hair-like things that swipe dirt out of lungs and tails of sperm, respectively)
### Lysosomes
- Explained before.
## Organelles specific to plant cells
1. Cell wall
2. Chloroplast
3. Central Vacuole
### Cell wall
- Provides **structure** and prevents **cell rupture**
- A more stronger, thicker, rigit version of the `cell membrane`
- Made of **cellulose** (type of sugar)
- Also present in most bacteria, fungi, and protists
- The antibotic **Penicillin** works by destroying the cell walls of bacteria, thereby killing the bateria
### Chloroplast
- The **solar panel** of the plant cell
- Conducts **photosynthesis**
- All chlorophyll is located in chloroplasts
- Looks green
- Parts of the plant that do not photosynthesize do not have chloroplasts
### Central Vacuole
- Extremely large, may take up to 90% of volume in cell
- Contains water
- Maintains `turgor` pressure against cell wall (pushes against cell wall in all directions)
- Maintains cell shape and resistance
- Plant cells that lack **turgor pressure** (e.g., celery left in fridge) become **flaccid**
## Cell Division
## Purpose
### 1. Reproduction
- Single-cellular organisms reproduce via division **asexually**
- Multicellular organisms reproduce via combining two germ cells ("sex cells") that contain half the DNA each of two organisms
- This is **sexual**
### 2. Growth
- Cells have maximum size before transportation of substances within cell becomes **inefficient**, due to **larger cells** decreasing efficiency of `diffusion`
- Cells transport chemicals (e.g., nutrients) via `diffusion`, this **limits cell size**
- The only way to maintain proper function and get bigger is to **add more cells**
### 3. Repair
- **Organisms need to repair cells to stay alive and maintain proper health**
- Millions of cells are replaced everyday
- Cells naturally die and need to be replaced
- e.g., red blood cells, hair cells, skin, injuries, broken bones
## Cell cycle
- **Interphase**
- **G1** (normal groth and function),
- Prepare for cell divison
- Duplication of DNA **S**,
- Duplication of organelles **G2**
- **Mitosis**
- Occurs only in eukaryotic cells
- P-MAT: Prophase Prometaphase, Metaphase, Anaphase, Telophase Cytokinesis
- nuclear divison
- **Cytokinesis**
- **cell division**
- **G0**
- Cell no longer divides
- Outisde of cell cycle
### Mitosis
- PMAT (prophase, metaphase, anaphase, telophase)
## Cell Specialization
- `Zygote`: A one-celled organism formed from the fertilization of an egg by a sperm cell
- A cell's position in the `gastrula` (outer, middle, inner layer) will determine the fate of the cell, or its potiental.
- (LOCATION LOCATION LOCAION!)
### Stem Cells
- They are an **unspecialized** cell that has the potential to become one of several types of cells.
- After cell division, either both can become stem cells or one stays as a stem cell and the other becomes a specialized cell
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