1 / 23

Cells

Cells. Cells are the basic units of life and fall under 2 categories . A. Prokaryotic cells have a nucleoid ( area where DNA is concentrated ) instead of a nucleus and do not have membrane-bound organelles . They are also

leonora-karis
Download Presentation

Cells

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Cells • Cells are the basic units of life and fall under 2 categories. A. Prokaryotic cellshave a nucleoid (area where DNA is concentrated) instead of a nucleus and do not have membrane-bound organelles. They are also generally smaller and simpler. An example is bacteria. B. Eukaryotic cellshave a nucleus and other membrane- bound organelles and are generally larger and more complex. Examples include animals, plants, and fungi. 1. Although they are different in many ways, both types of cells have a cell membrane, cytoplasm, DNA, and ribosomes.

  2. Cells (basic unit of life) Eukaryotic Prokaryotic DNA, ribosomes, Cell membrane, cytoplasm Animal, Plant, Fungi Bacteria Characteristics (4) Characteristics (4) Simpler Larger Complex Smaller Nucleoid Nucleus No Membrane- Bound organelles Membrane- Bound organelles

  3. II. Eukaryotic cells have membrane-bound organelles (“little organs”) that are mainly in the cytoplasm (area outside of the nucleus). A. The nucleus is the “brain” of the cell because it contains most of the cell’s DNA which directs the making of proteins. 1. The nucleus is surrounded by the nuclear envelope that is double-membraned perforated by nuclear pores that allows certain things in and out of the nucleus. 2. Within the nucleus is the DNA found as chromatin (thin thread-like DNA wrapped around proteins) sectioned intochromosomes that condense during cell division. a. The nucleolus/nucleoli is the area within the nucleus where there is a dense collection of chromatinmaking ribosomal parts.

  4. Cell Organelles Nucleus (Brain, contains DNA) Nuclear Envelope (double-membraned) Chromatin/Chromosomes (DNA + Proteins) Nuclear Pores (Allows things in/out) Nucleolus/Nucleoli (makes ribosomes)

  5. B. Ribosomes are the “protein factories” of the cell and make proteins from the directions of mRNA (messenger) produced in the nucleus. 1. Ribosome parts are made in the nucleolus, shipped out through the pores, and assembled in the cytoplasm and are made out of rRNA (ribosomal) and proteins. 2. Ribosomes can be found “free” floating in the cytoplasm or “bound” on the surface of the endoplasmic reticulum and the nuclear envelope.

  6. Cell Organelles Ribosomes (Protein Factories, reads mRNA) Made of rRNA and proteins Types Bound (On ER and nuclear envelope) Free (cytoplasm)

  7. C. The endoplasmic reticulum is a membrane system consisting of sacs and tubules and is connected to the nuclear envelope. It is divided into two main types: 1. The rough ERhas ribosomes giving it a rough look and makes secretory proteins that are released from the cell, membrane-bound proteins and also produces membranes. a. Its products are shipped in vesicles, which are membranous sacsmade by the ER itself, and moved to destinations by motor proteins. 2. The smooth ERdoes not have ribosomes making it smooth. Its function is to make lipids (all three types) and detoxify drugs.

  8. Cell Organelles Endoplasmic Reticulum (membrane system connected To nuclear envelope) Rough ER (with ribosomes) Smooth ER (without ribosomes) Makes Membrane- Bound Proteins Makes Membrane Makes Secretory Proteins Makes Lipids (3 types) Detoxify drugs Vesicle (membranous sacs) Motor Proteins (moves vesicles)

  9. D. The Golgi apparatus is like the “post office” of the cell and is located near the ER. It is a stack of membranous sacs. 1. The Golgi apparatus receives proteins in vesicles made by the ER, sorts andmodifies these proteins before they ship the modified proteins to where they need to go also using vesicles.

  10. Cell Organelles Golgi Apparatus (post office) Receives, sorts, modifies, and ships proteins in vesicles

  11. E. Lysosomes are the cell’s “chop shop” and “recycling” crew and are vesicles with enzymes that break things down inside. They are made by the RER and then modified by the G.A. 1. Lysosomes break down macromolecules into small pieces for the cell to use in a process called phagocytosis (“cell eating”) after they fuse with vesicles containing food. 2. Lysosomes also recycle damaged organelles to reuse their parts in a process called autophagy when they fuse with vesicles containing the damaged organelles.

  12. Cell Organelles Lysosomes (chop shop, recycling vesicles with enzymes) Phagocytosis (cell eating food) Autophagy (recycle damaged organelles)

  13. F. Vacuoles are the cell’s “storage warehouse” and are large membranous sacs that can be filled with water and macromolecules. 1. The central vacuole in a plant cell holds a lot of the plant cell’s water, makes the cell grow, and helps give the plant cell its shape. 2. A contractile vacuole, found in certain organisms, pumps water out to prevent the organism from bursting.

  14. G. Mitochondria are the cell’s “power plants” and their job is to turn food into energy for the cell. 1. Mitochondria have two membranes, the outer membrane and the inner membrane which is very folded up. 2. Between the two membranes is an intermembrane space and within the inner membrane is the fluid called the mitochondrial matrix. a. The matrix has itsown DNA, ribosomes, and proteins unique from the rest of the cell.

  15. H. Plant cells have chloroplasts which make food using energy from the sun in a process called photosynthesis. 1. Chloroplast also have an inner and outer membrane with an intermembrane space and the area within the inner membrane filled with fluid is called the stroma. 2. In the stroma are membranous sacs called thylakoids that are stacked into granum/grana. a.The stroma also has its own DNA, ribosomes and proteins separate from the rest of the cell.

  16. III. The cytoskeleton is used for maintaining the shape of the cell and various other functions and contain 3 main components. A. Microfilaments are thin rods made out of proteins called actin. They can be made and broken down quickly and are used to change a cell’s shape. 1. Microfilaments create extensions called microvilli to increase surface area to help cells increase absorption.

  17. B. Microtubules are hollow tubes made of tubulin and they are used as highways for motor proteins to move things around in the cell and can also be made and broken down quickly. 1. Microtubules come out of the centrosome which is also known as the “microtubule organizing center”. a. The centrosome in animal cells have two centrioles that help in dividing chromosomes during mitosis.

  18. 2. Microtubules are used to make cilia and flagella that help cells move fluids or through liquid. a. Cilia are usually shorter and occur in large numbers. b. Flagella usually are longer and occur in small numbers.

  19. Intermediate filaments are a more permanent component of the cytoskeleton and are made out of keratins, a family of proteins that make up hair, nails, and horns. 1. Intermediate filaments are used to keep organelles that are stationary, like the nucleus, in place.

More Related