highschool/Grade 10/Science/SNC2DZ/Unit 2: Biology.md

# Unit 2: Biology

## Cellular Biology
A person contains roughly 100 trillion cells
- Cells are roughly 20 `μm` (micrometre, 10<sup>-6</sup> 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)
- Transports food and 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`: any section of DNA that contains a full set of instructions to make either RNA or a protein, **found** in nucleus
    - `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
 - This area of DNA is specially for ribosomal DNA (rDNA), or DNA used to code `ribosomes`, enzymes that assemble proteins
 - 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 <b>*rough*</b> 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

### Centrosomes
 - Made of same protein as `cytoskeleton`
 - Crucial to mitosis in animal cells
 - **Create and manipulate spindle fibres** during mitosis in animal cells

### 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, killing it

### 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

<img src="https://www2.le.ac.uk/projects/vgec/diagrams/22-Cell-cycle.gif" width="600">

- **Interphase**
    - Large majority of a cell's time is spent in interphase
    - **G1**: (normal growth and function), 
    - Prepare for cell divison
    - **S**: Replication of DNA
    - **G2**: Replication of organelles
    - Checkpoints
        - Cells check various things before progressing through various stages in interphase
        - Causes of stopping via checkpoints include damaged DNA, not replicated DNA, lack of nutrients for cell growth, and/or signals from other cells
- **Mitosis**
    - Occurs only in eukaryotic cells
    - P-MAT: Prophase, Metaphase, Anaphase, Telophase
    - Division of the nucleus
- **Cytokinesis**
    - **cell division**
    - The parent cell splits into two daughter cells
- **G0**
    - Cell no longer divides ("cell cycle arrest")
    - Outside of cell cycle 

### Mitosis
- `Chromatid`: Supercoiled DNA, only visible during mitosis, cannot be read without unwinding, similar to compressed zip file
- `Chromosome`: Two identical "sister chromatids" held together in centre by `centromere`, or one sister chromatid after anaphase
- `Centromere`: Proteins sticking sister chromatids
- PMAT (prophase, metaphase, anaphase, telophase)
- Division of the nucleus

| Phase | Diagram | Description |
| :--- | :--- | :--- |
| Prophase | <img src="http://www.edupic.net/Images/Mitosis/prophase_3D.png" width="250"> | - Chromatin condenses into two identical `sister chromatids` which condense into `chromosomes` <br>      - Happens to 23 pairs of chromosomes <br> - Nuclear membrane dissolves <br> - Centrosomes move to opposite ends (`poles`) of cell, creating `spindle fibres` that begin to attach to `centromeres` in animal cells |
| Metaphase | <img src="http://www.edupic.net/Images/Mitosis/metaphase_3D.png" width="250"> | - Chromosomes line up in centre of cell to ensure they divide evenly <br> - Everything in prophase has completed (e.g., nuclear membrane has dissolved completely) |
| Anaphase | <img src="http://www.edupic.net/Images/Mitosis/anaphase_3D.png" width="250"> | - Centromeres split, separating sister chromatids <br> - Sister chromatids are pulled towards opposite sides of cell via shortening spindle fibres <br>     - Sister chromatids are now called `daughter chromomsomes` |
| Telophase | <img src="http://www.edupic.net/Images/Mitosis/telophase_3D.png" width="250"> | - Effectively opposite of prophase <br> - Nuclear membranes form across each of the two new nuclei <br> - Daughter chromosomes unwind into chromatin and are no longer visible <br> - Nucleolus forms in each nucleus <br> - Spindle fibres break apart <br> - **Cytokinesis** usually begins in telophase <br>     - Cells starts to **cleave** (cell centre starts to pinch itself) |

### Cytokinesis
 - Cell division
 - Cell splits completely to two daughter cells
 - In **animal cells**: Cell membrane pulled inward by cytoskeleton
 - **"Pinches in"** along equator of cell, forming **"cleavage furrow"**
 - In **plant cells**: Golgi apparatus produces and sends vesicles to centre of plant cell **"cell plate"** to make new cell wall and membrane between daughter cells

## Cell Specialization
- `Zygote`: A single-celled organism formed from the fertilization of an egg by a sperm cell, is a totipotent stem cell
- A cell's position in the `gastrula` (outer, middle, inner layer) will determine the fate of the cell, or its potiental. 
- Chemical signals from other cells will also determine activated genes that lead to specialisation
- (LOCATION LOCATION LOCAION!)
- Specialisation is determined by reading only certain genes

### Stem Cells
- They are an **unspecialized** cell that has the potential to become one of several types of cells. 
- Can either divide to two stem cells or one stem cell and one specialised cell
- Specialised cells generally do not divide

| Type of Stem Cell | Obtaining | Potential | Pros | Cons |
| :--- | :--- | :--- |:--- | :--- |
| Totipotent | Morula (16-cell ball) 3-4 days after lab-fertilised zygote | Unlimited | Unlimited potential, does not initiate immune response | Ethical concerns of destroying fertilized embryos |
| Pluripotent | Blastocyst (200-300 cell ball) 4-7 days after fertilisation | Nearly unlimited | Nearly unlimited potential, no need to create new embryo as most are taken from discarded in vitro fertilisation | Ethical concerns of destroying embryos, greater chance of initiating immune response |
| Multipotent | Adult stem cells | Limited to cells of their group/organ/location (e.g., blood stem cells to red blood cells, white blood cells, etc.) | Easy to harvest, easy to find | Immune response, limited potential |
| Induced pluripotent | Multipotent stem cells | Reprogramming multipotent stem cells using embryonic genes using a virus | Same as pluripotent | Does not require new embryos, immune response not expected, high potential | Technology not there yet to make this possible |

### Potential uses of stem cells
 - Studying cell growth and function
 - Testing drugs on specific target cells
 - Lab-grown meat for vegetarian purposes
 - Regenerative medicine to replace tissues (e.g., blindness, bone marrow transplant, cancers, limb regrowth)

## Telomeres

## Cancer
 - Group of diseases that involve out-of-control cell division which may spread throughout the body
 - `Tumour`: Uncontrolled lump of cells that do not perform normal cellular functions
 - `Benign`: Cells that do not metastasise or interfere with normal cell function (harmless)
 - `Malignant`: Cells that interefere with normal cell activity and metastasise
 - `Carcinoma`: Cancerous/cancer
 - `Metastasis`: Primary (original) tumour spreading throughout the body to create secondary tumours
 - `Carcinogens`: Anything that can cause cancer, e.g., chemicals, radiation/energy, some viruses
 - `Neoplasm`: A solid or fluid-filled sac that the body forms to isolate defective from healthy cells (e.g., cysts)
 - Random mutations can also lead to a cancer cell due to irregular DNA replication
 - Generally, multiple mutations in several key genes are required for a cell to become cancerous
 - Cancer is *not* contagious, neither can it be inherited
    - A genetic predisposition to cancer *can* be inherited
 - By the time cancer is detected, it can contain millions of cells that have been growing for years

### Cancer screening
 - PAP smear for cervical cancer
 - Mammogram for breast cancer
 - Colonoscopy for colorectal cancer
 - PSA blood test for prostate cancer

### Cancer diagnosis
 - Endoscopy (using a flexible camera with tissue extractor to search for cancers of the respiratory and/or digestive systems)
 - X-rays
 - Ultrasounds for soft tissues
 - CAT/CT scan (more x-rays)
 - MRI scan (uses radio waves and magnetic fields)

### Cancer treatments
 - Surgery
    - Physically removing tumour with stabby things
    - Ineffective if cancer has metastasised
    - If even one cell escapes the stabby cancer can regrow
 - Radiation therapy
    - Blasting radiation at tumours so that their DNA becomes so damaged that DNA replication, and, as a result, cell division is impossible
    - Can harm neighbouring cells
    - Ineffective if cancer has metastasised
 - Chemotherapy
    - Blasting drugs that kill dividing cells
    - Does not feel very good for the patient
    - Fast-growing cells may die off (e.g., hair, skin cells)
 - Biophonics
    - Using light beams to detect and treat cancer

## Organ systems
**Business model for organ/organ systems**
| Business thing | Corresponding organ/organ system |
| :--- | :--- |
| Management | Central nervous system (brain) |
| Messaging | Endocrine + peripheral nervous systems |
| Workplace | Body | 
| Transport | Circulatory, digestive, urinary systems (internal, import, export, respectively) |
| Storage | Fats |
| Cash flow | Digestive + respiratory systems |
| Security | Immune + integumentary (skin) systems |
| Workers | Cells + muscular system |

## Tissues
 - `Tissues`: Different cell types grouped together performing the same task
 - Organisms have a hierarchical organisation
 - Basic tissues: Connective, muscle, nervous, and epithelial tissues
 - Epithelial tissue
    - Tightly packed cells that line body surfaces, e.g., skin
 - Connective tissue
    - Produces collagen fibres that support organ structures and bone, e.g., ligaments (bone -> bone), tendons (muscle -> bone)
 - Muscle tissue
    - Fibrous tissue that can be subdivided into cardiac (heart), smooth (digestive), and skeletal (voluntary) muscle tissues
    - They contract
 - Nervous tissue
    - Responds to external/internal stimuli, e.g., brain, nerves

## Digestive system
 - Two types of digestive systems
 - Bag digestive system
    - One way in, same way out (e.g., coral, jellyfish)
 - Tube digestive system
    - One way in, another way out (e.g., worms, humans)
    - Mouth -> esophagus -> stomach -> small intestine -> large intestine -> rectum -> anus all part of the tube
    - Gallbladder, liver, salivary glands, and pancreas produce digestive enzymes/juices in humans
    - Process of eating food: **Ingestion** (eat) -> **digestion** (physical and chemical breakdown) -> **absorption** (of nutrients to bloodstream) -> **egestion** (poo)
    - Flies digest before ingesting
    - `Jujunum`: Centre of small intestine
    - `Duodenum`: Beginning of small intestine
    - `Ileum`: End of small intestine
    - `Rectum`: Holds waste to be excreted voluntarily
    - `Anus`: Controls waste to be defecated voluntarily
    - `Appendix`: Used to be used to digest plant matter, now virtually useless in humans
    - `Gallbladder`: Stores and secretes bile as buffer between liver and small intestine that helps break down fats (lipids)
    - `Ruminants`: Herbivores that digest food using a chambered tube
        - Chew -> Reticulum and rumen (first and second stomachs) -> regurgitate and rechew -> Omasum (third stomach) -> Abomasum (fourth stomach) -> small intestine -> large intestine -> waste
    - `Eoprophagy`: Consumption of feces

### Human digestive system
 - Mouth ingests food
 - Teeth, tongue, and salivary glands work to begin digestion
 - Esophagus squeezes food down in waves (peristalsis) down its smooth muscle tube
 - Stomach
    - Mixes hydrochloric acid with digestive enzymes to break down food
        - Hydrochloric acid is diluted and does not break down the food itself much, enzymes are more effective at a lower pH
    - Liquifies food and kills bacteria
    - **Goblet cells** produce **mucous**, which lubricates the stomach and intestines, protecting the stomach
    - Made of smooth muscle to churn food, somewhat like cooking with enzymes or a washing machine
 - Intestines
    - Pancreas makes most digestive enzymes and pumps them in the duodenum
    - Absorbs nutrients and water to bloodstream
    - Duodenum digests food chemically even more
    - Forms and excretes feces
    - Contains smooth muscle to continue peristalsis
    - Contains plenty of blood vessels for faster nutrient absorption
    - Intestinal epithelium
        - Optimised for surface area
        - Folds contain `villi` (singular, "villus")
        - Villi contain capillaries and absorbing and goblet cells
        - Absorbing cells caintain microvilli, which absorb nutrients via diffusion

### Respiratory system
 - Exchanges oxygen gas and carbon dioxide gas between red blood cells and the surrounding air, which is required for cellular respiration
 - Diaphragm contracts to lower itself, causing the rib cage to rise, which increases lung volume, which subsequently causes pressure to decrease and air to rush in to the lungs
 - Diaphragm relaxes to return everything to its normal position
 - Air is warmed and moisted while passing through nasal cavity blood vessels
 - Trachea and bronchi are made of rigid cartilage rings
    - Prevents airways from closing, similar to a vacuum hose
 - Respiratory epithelium
    - Contains goblet and ciliated cells
    - `Cilia`: Singular "cilius", sweep mucous out of the lungs and throat
    - Nose hairs and mucous trap debris which is swept out by cilia
 - Alveoli (singular "alveolus") epithelial tissue is one cell thick
    - Surrounded with capillaries which exchange gases via diffusion
 - Trachea -> 2 bronchi -> bronchioles -> alveoli