Cell Structures Unit Cells What are they Specific

Cells – What are they? Specific n Separate mass surrounded by a semipermeable membrane

Cells – What are they? n How cells differ from each other; Size q

The Discovery of the Cell n The first microscope magnified an object 270 times.

Cell Developments n 1665 – Robert Hooke q q q English scientists Took thin

Cell Developments n 1838 – Matthais Schledien q n 1839 – Theodor Schwann q

The Cell Theory 1. All organisms are composed of cells. n 2. Cells are

Inter Cellular Terminology n Cytoplasm: q q Suspended fluid inside the cell Aids in

Inter Cellular Terminology n Organelles Special structures in the cytoplasm q Each performs a

Inter Cellular Terminology n Chromosomes q q q Molecules of DNA wrapped around proteins

Inter Cellular Terminology n Centriole Small, Organelle lying near the nucleus in the cytoplasm

Inter Cellular Terminology n Endoplasmic Reticulum q q q A system of cannels Transports

Inter Cellular Terminology n Golgi Apparatus q q Found in the cytoplasm Packages proteins

Inter Cellular Terminology n Lysosome q q Breaks down food and foreign material. Removes

Inter Cellular Terminology n Messenger RNA Synthesized in the Nucleus q Passes through the

Inter Cellular Terminology n Transfer RNA q Serves as an adaptor molecule in the

Inter Cellular Terminology n n Plants and Animals Mitochondria q Spherical or elongated q

Inter Cellular Terminology n Nuclear Membrane Separates the nucleus from the cytoplasm q Controls

Inter Cellular Terminology n Nucleolus q q Produces ribonucleic acids (RNA) Assembles ribosome's n

Inter Cellular Terminology n Nucleus q n Organelle containing the hereditary information Plants and

Inter Cellular Terminology n Ribosomes q q Granules composed of protein and RNA Synthesis

Inter Cellular Terminology n Vacuole q q q n Small space within a cell

Intra-cellular terminology n Plasma Membrane q q Encloses the cell Regulates what enters and

Structures outside of the Cell n Hemoglobin Red q Protein pigment that transports O

Structures outside of the Cell n Erythrocyte q n Red Blood Cells Leukocytes q

Structures outside of the Cell n Microfilaments q q q Thin, thread like fibers

Structures outside of the Cell n Platelet Small colorless corpuscle q Aids in blood

Levels of Cellular Organization n Cells q n Tissues: q n Groups of tissues

Processes of the Cell n Absorption: q n Taking in water and nutrients Chlorophyll:

Processes of the Cell n Chloroplast: q n The site that photosynthesis takes place

Processes of the Cell n Differentiation: q n Process of changing unspecialized into specialized

Processes of the Cell n Respiration: q n Using stored foods to obtain energy

Processes of Photosynthesis n The process that plants us to produce food for themselves

Processes of Photosynthesis n How it works q q q Carbon Dioxide enters the

Processes of Photosynthesis n The end result is the formulation of sugar which is

Processes of Respiration n Here’s how it works; Sugar is broken down to produce

Photosynthesis –vrs- Respiration Photosynthesis Respiration Building of carbohydrates Using carbohydrates Sugars manufactured Sugars consumed

Plants vs. Animals n Plant Cells q Cell Wall n n q Made of

Plants vs. Animals n Plant Cells No microtubules q No cenrioles q Usually a

Plants vs. Animals n Animal Cells Microtubules give them shape q No cell wall,

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Cell Structures Unit

Cells – What are they? Specific n Separate mass surrounded by a semipermeable membrane n The basic structural unit of life n All organisms are composed of one or more cells n

Cells – What are they? n How cells differ from each other; Size q Shape q Organization q

The Discovery of the Cell n The first microscope magnified an object 270 times. n Today, they can magnify 200, 000 times. n Robert Hooke was the first to view the world of cells in 1660.

Cell Developments n 1665 – Robert Hooke q q q English scientists Took thin sliced of cork bark Noticed they had similar compartments He called them cells Estimated there were 1 billion cells per cubic inch

Cell Developments n 1838 – Matthais Schledien q n 1839 – Theodor Schwann q n Discovered that plants have cells Discovered that animals have cells 1858 – Rodolf Virchow q Discovered that all cells come from living things.

The Cell Theory 1. All organisms are composed of cells. n 2. Cells are the basic units of structure and function in organisms. n 3. All cells come from preexisting cells. n

Inter Cellular Terminology n Cytoplasm: q q Suspended fluid inside the cell Aids in transport of substances within the cell

Inter Cellular Terminology n Organelles Special structures in the cytoplasm q Each performs a special task to help keep the cell alive q

Inter Cellular Terminology n Chromosomes q q q Molecules of DNA wrapped around proteins Found in the Nucleus Controls cell functions and the what traits are passed on

n. Centriole

Inter Cellular Terminology n Centriole Small, Organelle lying near the nucleus in the cytoplasm q Aids in cell division q Only in animal cells q

n. Endoplasmic Reticulum

Inter Cellular Terminology n Endoplasmic Reticulum q q q A system of cannels Transports substances into the cell Called the CHEMICAL WORK BENCH n Plants and Animals q q Smooth ER Rough ER

n. Golgi Apparatus

Inter Cellular Terminology n Golgi Apparatus q q Found in the cytoplasm Packages proteins for n n Storage Secretion n Plants and Animals

n. Lysosome

Inter Cellular Terminology n Lysosome q q Breaks down food and foreign material. Removes waste materials from the cell n Only in Animal Cells

Inter Cellular Terminology n Messenger RNA Synthesized in the Nucleus q Passes through the ribosome q Provides a template for enzyme or protein synthesis q

Inter Cellular Terminology n Transfer RNA q Serves as an adaptor molecule in the syntheses of protein

n. Mitochondria

Inter Cellular Terminology n n Plants and Animals Mitochondria q Spherical or elongated q Releases energy to produce body heat. q Contains the electron transmitter q POWERHOUSE OF THE CELL q Burn food to obtain energy

Inter Cellular Terminology n Nuclear Membrane Separates the nucleus from the cytoplasm q Controls q n n What leaves the cell What enters the cell

n. Nucleus & Nucleolus

Inter Cellular Terminology n Nucleolus q q Produces ribonucleic acids (RNA) Assembles ribosome's n Plants and Animals

Inter Cellular Terminology n Nucleus q n Organelle containing the hereditary information Plants and Animals

Inter Cellular Terminology n Ribosomes q q Granules composed of protein and RNA Synthesis protein

n. Vacuole

Inter Cellular Terminology n Vacuole q q q n Small space within a cell Filled with water Stores food, water and wastes Plants and Animals

Intra-cellular terminology n Plasma Membrane q q Encloses the cell Regulates what enters and exits the cell

Structures outside of the Cell n Hemoglobin Red q Protein pigment that transports O and CO 2 q Regulates p. H q

Structures outside of the Cell n Erythrocyte q n Red Blood Cells Leukocytes q White blood cells

Structures outside of the Cell n Microfilaments q q q Thin, thread like fibers Aids in cell movement Contracts like muscles

Structures outside of the Cell n Platelet Small colorless corpuscle q Aids in blood coagulation q

Levels of Cellular Organization n Cells q n Tissues: q n Groups of tissues working together Organ Systems: q n Groups of cells working together Organs: q n The basic unit of all living things Groups of organs working together Organisms: q Groups of organ systems working together

Processes of the Cell n Absorption: q n Taking in water and nutrients Chlorophyll: q q The green pigment of plants Aids in photosynthesis

Processes of the Cell n Chloroplast: q n The site that photosynthesis takes place Chlorophyll: q q The green pigment of plants Aids in photosynthesis

Processes of the Cell n Differentiation: q n Process of changing unspecialized into specialized cells Photosynthesis: q Making sugars in green plants from water, carbon dioxide in the presence of sunlight.

Processes of the Cell n Respiration: q n Using stored foods to obtain energy Transpiration: q The evaporation of water from the leaves of the plant

Processes of Photosynthesis n The process that plants us to produce food for themselves n Plants are the factories of the world q An estimated 150 billion tons of sugar are produced by plants each year

Processes of Photosynthesis n How it works q q q Carbon Dioxide enters the leaf from the surrounding air Water moves from the soil into the root, stems, and leaves The H 20 and the CO 2 are synthesized in the chlorophyll with the energy from sunlight

Processes of Photosynthesis n The end result is the formulation of sugar which is transported around the plant to be used n After the plant uses the Hydrogen, and Carbon, the Oxygen is a bi-product of the photosynthesis and is released

Processes of Respiration n Here’s how it works; Sugar is broken down to produce energy for essential plant functions. q Respiration consumes oxygen and glucose q Respiration gives of Carbon Dioxide and water q

Photosynthesis –vrs- Respiration Photosynthesis Respiration Building of carbohydrates Using carbohydrates Sugars manufactured Sugars consumed Requires light Happens day or night Captures energy Uses energy Only takes place in plants Carries on in both plants and animals Sugar is the end product Energy produced for plant functions

Plants vs. Animals n Plant Cells q Cell Wall n n q Made of cellulose Gives support and shape They have chloroplasts n n Green chlorophyll pigment Site of Photosynthesis

Plants vs. Animals n Plant Cells No microtubules q No cenrioles q Usually a single large vacuole q Liposome's are absent. q

Plant Cell

Plants vs. Animals n Animal Cells Microtubules give them shape q No cell wall, plastids, chloroplasts q Vacuoles are small q

Animal Cell