Eukaryotic cell structure. Plasma membrane boundary between cell and external environment.

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Eukaryotic Cell Structure

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Presentation transcript:

Eukaryotic cell structure

Plasma membrane

boundary between cell and external environment

Plasma membrane boundary between cell and external environment controls movement of material entering and exiting the cell

Plasma membrane boundary between cell and external environment controls movement of material entering and exiting the cell ( oxygen, nutrients, etc. enter ~ waste products and excess water leave)

Plasma membrane boundary between cell and external environment controls movement of material entering and exiting the cell ( oxygen, nutrients, etc. enter ~ waste products and excess water leave) flexible and allows cell to vary its shape if needed

How do things cross a cell membrane ?

some materials enter and leave through protein passageways

How do things cross a cell membrane ? some materials enter and leave through protein passageways

How do things cross a cell membrane ? some materials enter and leave through protein passageways

Other materials pass directly through the membrane

Diffusion is the movement of molecules from a region in which they are highly concentrated to a region in which they are less concentrated

Cell wall

an additional external boundary outside the plasma membrane in some cells

Cell wall an additional external boundary outside the plasma membrane in some cells relatively inflexible

Cell wall an additional external boundary outside the plasma membrane in some cells relatively inflexible much thicker than the plasma membrane

Cell wall an additional external boundary outside the plasma membrane in some cells relatively inflexible much thicker than the plasma membrane found in the cells of plants, fungi, almost all bacteria, and some protists

Cell wall an additional external boundary outside the plasma membrane in some cells relatively inflexible much thicker than the plasma membrane found in the cells of plants, fungi, almost all bacteria, and some protists not found in animal cells

Cell wall made of different substances in different organisms Cellulose in plants (forms fibers... The fiber in our diet)

Nucleus

the organelle that manages cell functions in a eukaryotic cell

Nucleus the organelle that manages cell functions in a eukaryotic cell contains our DNA

Nuclear envelope

surrounds the nucleus

Nuclear envelope surrounds the nucleus is four layers thick (2 double layers)

Nuclear envelope surrounds the nucleus is four layers thick (2 double layers) has large pores (materials can pass between nucleus and the rest of the cell)

Chromatin

Long strands of DNA

Chromatin Long strands of DNA Packs into identifiable chromosomes when cells are dividing (reproducing)

Nucleolus

A region in the nucleus

Nucleolus A region in the nucleus Produces tiny cell particles (called ribosomes) that are involved in protein synthesis

Ribosomes

The site where the cell assembles enzymes and other proteins according to the directions of the DNA

Ribosomes The site where the cell assembles enzymes and other proteins according to the directions of the DNA Are cell organelles

Ribosomes The site where the cell assembles enzymes and other proteins according to the directions of the DNA Are cell organelles Are NOT bounded by a membrane.

Cytoplasm

Material that lies outside the nucleus and surrounds the organelles

Cytoplasm Material that lies outside the nucleus and surrounds the organelles A clear fluid

Cytoplasm Material that lies outside the nucleus and surrounds the organelles A clear fluid Usually constitutes a little more than half the volume of an animal cell

Cytoplasm Material that lies outside the nucleus and surrounds the organelles A clear fluid Usually constitutes a little more than half the volume of an animal cell Most important chemical reactions take place here

E.R.

Endoplasmic reticulum

E.R. Endoplasmic reticulum A folded membrane, surrounded by cytoplasm

A large surface area can be packed into a small area by folding the surfaces

Can you think of another example of a large surface area in a relatively small space in the human body?

E.R. cont’d Has a large surface area on which chemical reactions can take place The site of lipid synthesis in the cell There are 2 types of endoplasmic reticulum...

E.R. cont’d Has a large surface area on which chemical reactions can take place The site of lipid synthesis in the cell There are 2 types of endoplasmic reticulum...

Rough E.R. Coated with ribosomes Smooth E.R. Area of the endoplasmic reticulum without ribosomes

Storage in the cell

Golgi apparatus

series of closely-packed, flattened membrane sacks (looks like a stack of pancakes)

Golgi apparatus series of closely-packed, flattened membrane sacks (looks like a stack of pancakes) is a sort of sorting center

Golgi apparatus series of closely-packed, flattened membrane sacks (looks like a stack of pancakes) is a sort of sorting center receives new proteins and lipids from the E.R.

Golgi apparatus series of closely-packed, flattened membrane sacks (looks like a stack of pancakes) is a sort of sorting center receives new proteins and lipids from the E.R. distributes proteins and lipids to the plasma membrane and other cell organelles

Golgi apparatus

New proteins and lipids travel from the E.R to the Gogli body.

Golgi apparatus New proteins and lipids travel from the E.R to the Gogli body. They travel in small membrane-bound transport packages (or vesicles)

Golgi apparatus

chemically modifies the proteins it receives

Golgi apparatus chemically modifies the proteins it receives repackages proteins and sends them to their final destination in the cell

Vacuole

space for temporary storage of materials

Vacuole space for temporary storage of materials sac of fluid surrounded by a membrane

Vacuole space for temporary storage of materials sac of fluid surrounded by a membrane often store food, enzymes, and other materials needed by the cell

Vacuole space for temporary storage of materials sac of fluid surrounded by a membrane often store food, enzymes, and other materials needed by the cell Some store waste products

Vacuole space for temporary storage of materials sac of fluid surrounded by a membrane often store food, enzymes, and other materials needed by the cell Some store waste products A plant cell has a single large vacuole that stores water and other substances

Lysosomes

Disassemble things

Lysosomes Disassemble things Contain digestive enzymes

Lysosomes Disassemble things Contain digestive enzymes Digest excess or worn-out cell parts, food particles, and invading virus and bacteria

Structures for Support & Locomotion The cell

Less than 50 years ago, scientists thought plastids and other organelles just floated in a sea of cytoplasm...

We now know that cells have a support structure called the cytoskeleton within the cytoplasm

Cytoskeleton

network of thin, fibrous elements

Cytoskeleton network of thin, fibrous elements provides support for organelles

Cytoskeleton network of thin, fibrous elements provides support for organelles dynamic and constantly changing structure

Cytoskeleton network of thin, fibrous elements provides support for organelles dynamic and constantly changing structure Helps maintain cell shape (like poles in a tent)

Cytoskeleton network of thin, fibrous elements provides support for organelles dynamic and constantly changing structure Helps maintain cell shape (like poles in a tent) usually composed of microtubules and microfilaments

Microtubules

thin, hollow cylinders made of protein

Microtubules thin, hollow cylinders made of protein act as tracks on which organelles move from place to place

Microfilaments

thin, solid protein fibers

Microfilaments thin, solid protein fibers important in muscle cell contraction and in cell locomotion – the movement of whole cells from place to place

Cilia

short, numerous hair-like projections out of the plasma membrane

Cilia short, numerous hair-like projections out of the plasma membrane tend to occur in a large number on a cell’s surface

Cilia short, numerous hair-like projections out of the plasma membrane tend to occur in a large number on a cell’s surface have a coordinated beating activity

Cilia short, numerous hair-like projections out of the plasma membrane tend to occur in a large number on a cell’s surface have a coordinated beating activity organisms that contain many cells have cilia that move fluids over a cell’s surface, rather than moving the cell itself

Cilia Cilia can be found in windpipe. They beat and propel particles of dirt and mucus towards the mouth and nose, where they are expelled

Flagella

longer projections that move with a whip- like motion

Flagella longer projections that move with a whip- like motion cells that have flagella have only one or two per cell

Flagella longer projections that move with a whip- like motion cells that have flagella have only one or two per cell in single-celled organisms, cilia AND flagella are the major means of locomotion