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Cytology 244 First Term of year 1432-1433 Nuha AL-Abdulhadi lab 7.

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Presentation on theme: "Cytology 244 First Term of year 1432-1433 Nuha AL-Abdulhadi lab 7."— Presentation transcript:

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2 Cytology 244 First Term of year 1432-1433 Nuha AL-Abdulhadi lab 7

3 - Cell organelles as seen under the electron microscope include: A - Mitochondria section longitudinally and accidental. B - Lysosomes C - Golgi apparatus. D- Endoplasmic reticulum under the electron microscope as it appears in different forms: 1– smooth. 2 - rough. E - The central body.

4 Mitochondria

5 a mitochondrion : (plural mitochondria) :is a membrane-enclosed organelle found in most eukaryotic cells. Mitochondria are sometimes described as "cellular power plants" because they generate most of the cell's supply of adenosine triphosphate (ATP), used as a source of chemical energy. In addition to supplying cellular energy, mitochondria are involved in a range of other processes, such as cellular differentiation, cell death, as well as the control of the cell cycle and cell growth.membraneorganelleeukaryoticcells adenosine triphosphatechemical energycellular differentiationcell deathcell cyclecell growth

6 -The number of mitochondria in a cell varies widely by organism and tissue type. Many cells have only a single mitochondrion, whereas others can contain several thousand mitochondria.The organelle is composed of compartments that carry out specialized functions. These compartments or regions include the outer membrane, the intermembrane space, the inner membrane, and the cristae and matrix. Mitochondrial proteins vary depending on the tissue and the species. In humans, 615 distinct types of proteins have been identified from cardiac mitochondria.organismtissueouter membraneintermembrane spaceinner membranecristaematrixcardiac

7 Shapes : Mitochondria are rod-shaped organelles that can be considered the power generators of the cell, converting oxygen and nutrients into adenosine triphosphate (ATP). ATP is the chemical energy "currency" of the cell that powers the cell's metabolic activities. This process is called aerobic respiration and is the reason animals breathe oxygen

8 Structure A mitochondrion contains outer and inner membranes composed of phospholipid bilayers and proteins. The two membranes, however, have different properties. Because of this double-membraned organization, there are five distinct compartments within the mitochondrion. There is the outer mitochondrial membrane, the intermembrane space (the space between the outer and inner membranes), the inner mitochondrial membrane, the cristae space (formed by infoldings of the inner membrane), and the matrix (space within the inner membrane).phospholipid bilayersproteins

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15 Lysosomes

16 -The name lysosome derives from the Greek words lysis, to separate, and soma, body. They are frequently nicknamed "suicide-bags" or "suicide-sacs" by cell biologists due to their role in autolysis. - Lysosome are cellular organelles that contain acid hydrolase enzymes to break down waste materials and cellular debris. They are found in animal cells.,. Lysosomes digest excess or worn-out organelles, food particles, and engulf viruses or bacteria. The membrane around a lysosome allows the digestive enzymes to work at the 4.5 pH they require. -Lysosomes fuse with vacuoles and dispense their enzymes into the vacuoles, digesting their contents. They are created by the addition of hydrolytic enzymes to early endosomes from the Golgi apparatus..lysisautolysis organelleshydrolaseorganellesvirusesbacteriamembranedigestive enzymespHvacuoles endosomesGolgi apparatus

17 Some important enzymes found within lysosomes include: Lipase, which digests lipids Amylase, which digests amylose, starch. Proteases, which digest proteins Nucleases, which digest nucleic acids. Lysosomal enzymes are synthesized in the cytoplasm and the endoplasmic reticulum Lipaselipids Amylaseamylosestarch Proteasesproteins Nucleasesnucleic acids endoplasmic reticulum

18 Functions Lysosomes are the cell's waste disposal system and can digest some compounds. They are used for the digestion of macromolecules from phagocytosis (ingestion of other dying cells or larger extracellular material, like foreign invading microbes), endocytosis and autophagy (where in old or unneeded organelles or proteins, or microbes that have invaded the cytoplasm are delivered to the lysosome). - Other functions include digesting foreign bacteria (or other forms of waste) that invade a cell and helping repair damage to the plasma membrane by serving as a membrane patch, sealing the wound. Lysosomes kill cells that are no longer wanted, such as those in the tails of tadpoles or in the web from the fingers of a 3- to 6-month-old fetus.macromolecules phagocytosisendocytosisautophagyplasma membranetadpolesfetus

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20 tiny spherical vesicles with an acidic internal PH (ph5.0. Primary lysosomes are produced by the Golgi apparatus. They form secondary lysosomes by fusing with other membrane-bound vesicles in the cytoplasm. These vesicles may contain extracellular material that has entered the cell by phagocytosis and require digesting, or organelles that require degrading (such as in the picture below) because they have reached the end of their active life. They contain around 40 different types of hydrolytic enzymes, including proteases, nucleases and lipases (they are all acid hydrolases, which need an acid pH to work optimally). This process is also used for degrading internal organelles in a process called 'autophagy' - in which cell organelles are marked for destruction. Lysosomes fuse with the organelles to form secondary lysosomes.

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22 Golgi apparatus

23 The Golgi apparatus (Golgi complex) is an organelle found in most eukaryotic cells. It processes and packages proteins inside of the cell and before they make their way to their destination; it is particularly important in the processing of proteins for secretion. The Golgi apparatus forms a part of the cellular endomembrane system.organelleeukaryoticcells secretion endomembrane system

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25 Structure: - the Golgi is composed of stacks of membrane-bound structures known as cisternae. A mammalian cell typically contains 40 to 100 stacks. -Each cisterna comprises a flat, that includes special Golgi enzymes which modify or help to modify cargo proteins that travel through it. The cisternae stack has four functional regions: the cis-Golgi network, medial-Golgi, endo-Golgi, and trans-Golgi network. -Vesicles from the endoplasmic reticulum fuse with the network and subsequently progress through the stack to the trans Golgi network, where they are packaged and sent to the required destination. Each region contains different enzymes which selectively modify the contents depending on where they reside. The cisternae also carry structural proteins important for their maintenance as flattened membranes which stack upon each other.

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27 Endoplasmic reticulum

28 The endoplasmic reticulum (ER) is an organelle of cells in eukaryotic organisms that forms an interconnected network of tubules, vesicles, and cisternae. Rough endoplasmic reticula synthesize proteins, while smooth endoplasmic reticula synthesize lipids and steroids, metabolize carbohydrates and steroids (but not lipids), and regulate calcium concentration, drug metabolism, and attachment of receptors on cell membrane proteins. Sarcoplasmic reticula solely regulate calcium levels. organellecellseukaryotic organismstubules vesiclescisternaedrug metabolism

29 Structure: The general structure of the endoplasmic reticulum is an extensive membrane network of cisternae (sac-like structures) held together by the cytoskeleton. The phospholipid membrane encloses a space, the cisternal space (or lumen), which is continuous with the perinuclear space but separate from the cytosol. The functions of the endoplasmic reticulum vary greatly depending on the exact type of endoplasmic reticulum and the type of cell in which it resides. The three varieties are called rough endoplasmic reticulum, smooth endoplasmic reticulum, and sarcoplasmic reticulum. The quantity of RER and SER in a cell can quickly interchange from one type to the other, depending on changing metabolic needs: One type will undergo numerous changes including new proteins embedded in the membranes in order to transform.cisternae cytoskeletonphospholipid membraneperinuclear spacecytosolrough endoplasmic reticulumsmooth endoplasmic reticulumsarcoplasmic reticulum

30 1-Nuclear membrane 2-Nuclear pore 3-Rough endoplasmic reticulum (rER) 4-Smooth endoplasmic reticulum (sER) 5-Ribosome attached to rER 6-Macromolecules 7-Transport vesicles 8-Golgi apparatus 9-Cis face of Golgi apparatus 10-Trans face of Golgi apparatus 11-Cisternae of Golgi apparatus

31 Functions: The endoplasmic reticulum serves many general functions, including the facilitation of protein folding and the transport of synthesized proteins in sacs called cisternae.cisternae

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33 Centriole

34 Centriole : -is a barrel-shaped cell structurefound in most animal eukaryotic cells,its are usually composed of nine triplets of microtubules (protein of the cytoskeleton). -Centrioles are involved in the organization of the mitotic spindle and in the completion of cytokinesis. Centrioles were previously thought to be required for the formation of a mitotic spindle in animal cells.cell structure eukaryoticcells microtubulesmitotic spindlecytokinesis

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