Cell Processes Cell Transport Photosynthesis Cellular Respiration Cell

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Cell Processes Cell Transport Photosynthesis Cellular Respiration Cell Cycle

Cell Processes Cell Transport Photosynthesis Cellular Respiration Cell Cycle

Exchange with the Environment • Diffusion- the movement of particles from an area of

Exchange with the Environment • Diffusion- the movement of particles from an area of high concentration to an area of low concentration • Osmosis- the diffusion of water across a cell membrane

No energy required

No energy required

Cell in Action • Passive transport- the diffusion of particles through proteins in the

Cell in Action • Passive transport- the diffusion of particles through proteins in the cell membrane from areas of high concentration to areas of low concentration- no energy • Active transport- the movement of particles through proteins in the cell membrane against the direction of diffusion • ---requires cells to use energy(active transport)

Cell in Action • Endocytosis -the process in which a cell membrane surrounds a

Cell in Action • Endocytosis -the process in which a cell membrane surrounds a particle and encloses it in a vesicle to bring it into the cell • Exocytosis- the process used to remove large particles from a cell; a vesicle containing the particles fuses with the cell

Passive Transport vs. Active Transport Examples • Diffusion • Endocytosis • Osmosis • Exocytosis

Passive Transport vs. Active Transport Examples • Diffusion • Endocytosis • Osmosis • Exocytosis

Cell Energy • Photosynthesis- the process by which plants capture light energy from the

Cell Energy • Photosynthesis- the process by which plants capture light energy from the sun and convert it into sugar • Cellular respiration- the process of producing ATP from oxygen and glucose; releases carbon dioxide as a waste product

Photosynthesis

Photosynthesis

Photosynthesis can be represented using a chemical equation. The overall balanced equation is. .

Photosynthesis can be represented using a chemical equation. The overall balanced equation is. . . 6 CO 2 + 6 H 2 O -----> C 6 H 12 O 6 + 6 O 2 Sunlight energy Where: CO 2 = carbon dioxide H 2 O = water Light energy is required C 6 H 12 O 6 = glucose O 2 = oxygen Learn these formulas

Photosynthesis: transforms light energy to chemical energy stored in the bonds of sugar-occurs in

Photosynthesis: transforms light energy to chemical energy stored in the bonds of sugar-occurs in chloroplast o Uses carbon dioxide and water o Produces oxygen and glucose o Opposite of cellular respiration occurs in mitochondria

Cellular Respiration

Cellular Respiration

Cellular Respiration Equation

Cellular Respiration Equation

ATP • The molecule that supplies energy to fuel the activities of the cell

ATP • The molecule that supplies energy to fuel the activities of the cell • Formed during cellular respiration in the mitochondria • Adenosine triphosphate ATP

Glucose • a carbohydrate- form of sugar • Product of photosynthesis • C 6

Glucose • a carbohydrate- form of sugar • Product of photosynthesis • C 6 H 12 O 6 • The energy in glucose isused by plant’s cells • Some may be stored in the form of other carbohydrates or lipids

Fermentation • Fermentation is "the process of energy production in a cell under anaerobic

Fermentation • Fermentation is "the process of energy production in a cell under anaerobic conditions. " • Anaerobic is when a biological reaction or process can take place with the absence of oxygen.

2 types of fermentation • 1 - Your muscles need energy faster than your

2 types of fermentation • 1 - Your muscles need energy faster than your body can provide oxygen to your cells to produce ATP by cellular respiration-- • Fermentation produces lactic acid--- muscle fatigue • 2 - fermentation that occurs in some bacteria and fungi • Ex. Yeast can make carbon dioxide and alcohol during fermentation of sugar.

Cell Cycle • The life cycle of the cell • In eukaryotes (cells with

Cell Cycle • The life cycle of the cell • In eukaryotes (cells with a nucleus) it consists of 3 parts • 1 -Interphase: cell growth and chromosome duplication • 2 - Mitosis (PMAT) • 3 - Cytokinesis

C E L L C Y C L E

C E L L C Y C L E

Chromosome • Coiled structure of DNA and protein that forms in the cell nucleus

Chromosome • Coiled structure of DNA and protein that forms in the cell nucleus during cell division • Humans have 46 chromosomes

Binary Fission • The simple cell division in which one cell splits into two

Binary Fission • The simple cell division in which one cell splits into two • Used by bacteria

Homologous Chromosomes • Chromosomes with matching or similar information • Humans have 23 pairs

Homologous Chromosomes • Chromosomes with matching or similar information • Humans have 23 pairs of homologous chromosomes • Potatoes have 24 pairs of homologous chromosomes • An organism’s number of chromosomes has nothing to do with its complexity

Chromatids • Identical copies of a chromosome • After each chromosome is duplicated(copied) -

Chromatids • Identical copies of a chromosome • After each chromosome is duplicated(copied) - the 2 copies are called CHROMATIDS

Centromere • The region that holds chromatids together when a chromosome is duplicated(copied)

Centromere • The region that holds chromatids together when a chromosome is duplicated(copied)

Mitosis • Nuclear division in eukaryotic cells in which each cell receives a copy

Mitosis • Nuclear division in eukaryotic cells in which each cell receives a copy of the original chromosomes • Mitosis makes sure each new cell receives a copy of each chromosome • Consists of 4 phases- PMAT • Prophase, Metaphase, Anaphase and Telophase • Second stage of cell cycle

Cytokinesis • The process in which cytoplasm divides after mitosis • Animal cells-The cell

Cytokinesis • The process in which cytoplasm divides after mitosis • Animal cells-The cell membrane pinches in to form a groove—eventually pinching ALL the way through the cell • 2 daughter cells formed • ***Plant cells: Have a cell wall- these cells must first form a cell plate –in the middle of the cell-this becomes the cell membrane- then new cell wall formed

Cytokinesis

Cytokinesis

Cell Processes Matching Concepts Check Your Knowledge 1. Process that produces oxygen and glucose

Cell Processes Matching Concepts Check Your Knowledge 1. Process that produces oxygen and glucose 2. The division of the cell 3. Process of producing alcohol that is anaerobic (done without oxygen) 4. Process that both plants and animals perform that releases carbon dioxide and water 5. The structure in both plant and animal cells that controls the movement of substances 6. Movement of water by diffusion across a semipermeable membrane 7. Type of transport that requires energy A. B. C. D. E. F. G. H. I. Active Fermentation Diffusion Osmosis Cell Cycle Mitosis Photosynthesis Cellular Respiration Cell Membrane

Cell Processes Short Answer Check Your Knowledge 8. How are plants carbon dioxide filters?

Cell Processes Short Answer Check Your Knowledge 8. How are plants carbon dioxide filters? 9. Cellular transport is extremely important for cells’ survival. Which type of transport moves water across a semipermeable membrane? Explain how SOLUTE concentration effects the movement of the water. 10. “The cell cycle is vital to an organisms’ growth and development. ” EXPLAIN