Cell Components

1.The Nucleus – Cell Prime Minister and Info Storagea.Large, dense, spherical organelleb.Enclosed by double membrane (nuclear membrane)c.Has nucleoplasm, dark sphere (nucleolus)d.Chromatin (uncondensed chromosome) in nucleoplasme.Chromosomes carry genetic information that determine cell characteristic + functionf.Controls all cell activities

2.Rough Endoplasmic Reticulum – Highway + Ribosomes – FactoryWorkersa.RER – Network of folded membrane forming interconnected sacsb.Physically continuous with nuclear membranec.Has ribosomes attached to surfaced.Transports Made in Ribosome Proteins™ and encloses them invesicles when exitinge.Ribosome – Compact spherical organelles attached to RER or free in cytoplasm f. Consists of 2 sub‐units (small+large) made of RNA+Protein g.Synthesises proteins based on chromosome info

3.Nuclear Membrane – Checkpointa.Made of proteins + phospholipidsb.Boundary – separates cell from environmentc. Semi‐permeable, selective barrier d.Regulates substance movement in and out of cytoplasm

4.MitoChondria – Power Planta.Spherical or cylindrical organellesb.Involved in cellular respirationc.Releases energy when food (eg glucose) is broken down with mitochondrion enzymes d.Energy stored in ATP (adenosine triphosphate – try saying that 10 times)

5. Golgi Apparatus‐ Factory a.Stack of flattened membranous sacsb.Processes, packages and transports carbohydrates, proteins, phospholipids and glycoproteinsc.Vesicles fuse with GA, stuff goes into GA, modified, sorted, packaged into vesiclesd.Vesicles bud off and travel to other organelles or plasma membrane

6.Smooth Endoplasmic Reticulum – Fat and Poison Centera.Continuous with nuclear membraneb.Detoxifies toxins and produces lipids such as steroids

7.Centrioles – North and South (Animal Only) a.Small cylindrical structures outside nucleus, composed of microtubules b.Form spindle fibres in animal cell division ONLY

8.Lysosomes – Stuff Smashera.Membrane‐bound sacs with hydrolytic enzymesb.Enzymes break down complex organic moleculesc.Eliminate old organelles for cell renewal

d.Certain lysosomes break down food in vacuoles and digest bacteria (break down cell wall)

9.Chloroplasts – Solar Panels (Plant Only)a.Lens‐shaped, contain membranous structures with green pigment chlorophyllb.Chlorophyll traps sunlight and turns light energy to chemical energy in photosynthesis

10. Vacuoles – The Refrigerator (Major in Plants/Minor in Animals)a.Fluid filled sac surrounded by tonoplast (semi‐permeable membrane)b.Fluid in vacuole is cell sap (water + dissolved substances)c.Typical plant cell has 1 large vacuole, young plant cell has many small vacuolesd.Freshwater microorganisms have contractile vacuoles + food vacuoles (Paramecium sp.)e. Contractile vacuoles regulate water balance

11. Cell Walls – Big Friggin’ Walls (Plant Only)a.Rigid outer layer, surrounds plant cell plasma membranesb.Composed of cellulose, tough and fibrous carbohydratec.Permeable to all fluids, has tiny poresd.Gives shape and mechanical support for celle.Protects cell from exploding for too much water

Unicellular Amoeba sp. (species)

• Amoeba live in freshwater • Constantly changing shape in response to stimuli • Adverse stimuli like acidic water and bright light causes it to run away • Moves by extending pseudopodia (“false feet”), sticking it to the ground and flowing cytoplasm into the “foot” • Cytoplasm is 2 layers, inner (endoplasm) and outer (ectoplasm) • Pseudopodia also used for eating, surrounding food(phagocytosis), packaging it in a food vacuole and digests itwith lysozyme (lysosome enzyme)• Exchange of substances through plasma membrane by diffusion Water goes into the cell by osmosis and fills the contractile vacuole, when full,

blows out the water from time to time(osmoregulation) • Amoeba sp. reproduces by binary fission, but produces spores when cannot do binary fission

Multicellular • Cells grow, change shape and differentiate in multicellular organisms. • Mature cells carry out different functions, like different medical specialists are experts in their field, like a cardiologist in the heart, the neurologist in the brain, etc. • They undergo specialization to carry out their functions more efficiently. • Organisation is in this form: • Cells that carry out a function are grouped intotissu es. • Differentt iss u es that carry out a function are grouped into an organ. • Severalo rgan s that contribute to one section of an organism’s functions (circulatory, muscular) are grouped into a system. • Severalsy stems make up anorganism

Animals There are 4 main types of tissue in an animal: • Epithelial tissue (Lining and Protection) o Consists of 1 or more layers of cells o Epithelium cells are tightly interconnected, form continuous layer over body surfaces (skin + mouth) and inner cavity linings (digestive tracts and lungs) o Some have glands (exocrine and endocrine) o Skin epithelium forms a barrier against infections, mechanical injury and dehydration o Intestine epithelium has goblet cells which secrete mucus into the digestive tract o Trachea epithelium has small, hair‐like projections called cilia

Muscle tissue (Movement) o Composed of muscle fibres o 3 types of muscle tissue:

Smooth muscle (intestine, blood vessels, urinary and reproductive tract) • Involuntary movements • Contract slowly, for a long time

Skeletal muscle (arms and legs) – On Demand • Voluntary movements • Contract, relax to move bones

Cardiac muscle (heart walls) – Work, Work, Work, 24/7, 365 days a year • Blood pumping to body parts, involuntary

Nerve tissue (Information Transfer) o Composed of neurones or nerve cells o Neurone has a cell body and nerve fibres (dendrites and axons) o Neuroens detect stimuli and transmit electrical signals (impulses) to muscles/glands o Directs and coordinates body activities

Connective tissue (Multiple Uses) o Consists of various cells and fibres separated by extracellular matrix o Types of connective tissue:

Loose connective tissue • Most widespread • Binds epithelia to underlying tissues and holds organs

Dense fibrous connective tissue • A lot of closely‐packed collagenous fibres • Found in tendons (muscle‐bone connection) and ligaments (bone‐bone connection/joints

Cartilage • Strong and flexible • Support to nose, ears and covers bone ends at joints • Cartilage discs between vertebrae absorb pressure

Bone • Cells embedded in collagen matrix, hardened by calcium • Harder than cartilage, protects organs, supports body

Blood cells • Produced in bone marrow (ends of long bones) • Regulating, transporting and protective functions

Adipose tissue • Tightly packed cells, storing fat • Found in skin dermis and around major organs • Energy reserve, insulation and protection • Each cell has an oil droplet, energy used up, the droplet shrinks

Tissues work together to perform a specific function. These are called organs. Examples are lungs, heart, kidneys, brain etc. Example: The skin: • Consists of various tissues joined together • 2 main layers, the epidermis and the dermis • Epidermis is made of epithelial tissue, which constantly divides • Dermis is made of connective, nerve, epithelial and muscle tissue • Blood is supplied through blood capillary network • Nerve endings are scattered throughout the skin, transmit impulses to nervous system • Epithelial cells produce hair follicles, sweat glands and oil glands

Plants Two main types of tissue in plants: • Meristematic tissue o Consists of small cells with thin walls, large nuclei, dense cytoplasm and no vacuoles o Young, actively dividing cells, undifferentiated, located at root tips and shoot buds • Permanent tissue o Differentiated/partly differentiated mature tissues o Three types of permanent tissue: Epidermal tissue • Outermost layer, covering stems, leaves and roots of young plants • Flat, with large vacuoles • Walls that are exposed to air covered with waxy waterproof cuticle • Cuticle reduces water loss, mechanical injury and infection • Root cells have root hairs to increase water absorption • Guard cells, containing chloroplasts, open and close stomataGround tissue • Consists of parenchyma, collenchyma and sclerenchyma tissue • Form the bulk of a plant o Parenchyma

Least specialized cells Thin primary walls, large vacuoles Store sugar and starch Turgid, gives support and shape to herbaceous plants o Collenchyma

Uneven cell walls Supports herbaceous plants, young stems and petioles (leaf branches)

o Sclerenchyma Uniform cell walls with Thickening Lignin™, may be dead Support + mechanical strength to mature places

o Vascular tissue Continuous throughout the plant Consists of:

oXylem Consists of xylem vessels joined end to end from root to leaf No cytoplasm, easy water, mineral transport Cell walls with Thickening Lignin™ for support ‘n strength

oPhloem Sieve tubes end to end, forming tube‐like structures Transports organic compounds (carbohydrates, amino acids)

Organs in plants are leaf, stem, root and flower. Systems are root and shoot systems.Root system – all plant roots. Shoot system – stem, leaf, bud, flower and fruit. Stem, branch for support system. Leaf for photosynthesis. Flowers for pollination.

Internal environment consists of blood plasma, interstitial fluid and lymph.Interstitial fluid fills spaces between cells and bathes the cells. It exchanges substances with the blood plasma and the lymph.Physical factors and chemical factors of internal environment must be maintained.Physical factors include temperature, blood pressure and osmotic pressure .Chemical factors include pH, salt and sugar content.Homeostasis is maintenance of constant internal environment for optimal cell performance. Any change in the internal environment will cause homeostasis to kick

in and work to cancel the change. This is governed by the negative feedback mechanism. Body temp. is regulated by integumentary system (skin+glands), nervous, circulatory, muscular and endocrine system. Skin receptors detect rises in body temp, nerve cells transmit the info to the hypothalamus, the brain’s temp control. It activates blood vessels’ dilation to allow more bloodflow to skin for heat loss and sweat glands to produce sweat to increase heat loss.Oxygen and carbon dioxide levels are regulated by the respiratory, circulatory and nervous system. Circulatory system transports oxygen to cells and carbon dioxide to lungs. Level changes are detected by nervous system like an increase in CO2 and decrease in oxygen. Heartbeat and breathing increase to get normal oxygen and CO2le vels. Blood glucose level is regulated by endocrine, circulatory and digestive system. Pancreas secretes insulin to change glucose to glycogen when levels are high and glucagon to change glycogen to glucose when levels are low. Blood osmotic pressure is regulated by nervous, endocrine, excretory and circulatory systems. Chemical contents are regulated by excretory, circulatory, nervous and endocrine systems. Urea is transported to the kidneys by bloodstream to be excreted. pH is regulated by respiratory, circulatory and excretory systems by controlling H+(hydrogen ion), OH– (hydroxyl ion) and HCO3– (hydrogen carbonate ion) levels in blood plasma and interstitial fluid