Biology

2nd lesson Medical students Medical Biology

Cell biology

Cell biology: is a branch of biology that studies cells – their physiological properties, their structure, the organelles they contain, interactions with their environment, their life cycle, division, death and cell function.

The cell is the basic structural, functional and biological unit of all known living organisms. Cells consist of cytoplasm enclosed within a membrane, which contains many biomolecules such as proteins and nucleic acids. Organisms can be classified as unicellular (consisting of a single cell; including bacteria) or multicellular (including plants and animals).
All animal cells are multicellular, they are eukaryotic cells. Animal cells are surrounded by plasma membrane and it contains the nucleus and organelles that are membrane bound.
Animal cells are of various sizes and have irregular shapes. Most of the cells size range between 1 and 100 micrometers and are visible only with help of microscope. Trillions of cells are found in the human body. There are many different types of cells.

Parts of the animal cell are as follows:

Cell membrane - forms the outer covering of the cell, and is semi-permeable.
Cytoplasm - is a gel-like matrix where all the other cell organelles are suspended inside the cell.
Nucleus - contains the hereditary material DNA and directs the activities of the cell.
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The Molecular Composition of Cells
Cells are composed of water, inorganic ions, and carbon-containing (organic) molecules. Water is the most abundant molecule in cells, accounting for 70% or more of total cell mass. Consequently, the interactions between water and the other constituents of cells are of central importance in biological chemistry.
Organic Molecules:
Carbohydrates:
A carbohydrate is a compound containing the elements carbon, hydrogen and oxygen in which the ratio of hydrogen to oxygen is the same as in water – two hydrogen's to one oxygen. The basic building blocks of carbohydrate molecules are the monosaccharides –glucose(the major nutrients of cells ), fructose, and galactose.
Two monosaccharides can form a covalent bond between them to form a disaccharide sugar. There are three kinds of disaccharides.
Sucrose is a compound containing a glucose joined to a fructose. Sucrose is commonly called table sugar.Maltose is a disaccharide containing two glucose molecules held together by a covalent bond. Lactose is a sugar found in milk formed by the combination of glucose and galactose.
When many monosaccharide molecules are joined together with covalent bonds, we have a polysaccharide, examples: Glycogenand Starch. Glycogen is a polysaccharide containing many hundreds of monosaccharide subunits. Glycogen is a food stored in the body for energy, found in the liver, and skeletal muscles .


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Lipids:

Lipids are large molecules that do not dissolve in water. They contain carbon, hydrogen and oxygen. Three important lipids in the body arefats, phospholipids and steroids.
Fats- are lipid molecules formed from two building blocks, glycerol and three fatty acids. Saturated fat - fatty acids contain all hydrogens possible. There are no double bonds in the fatty acid portion of the molecule. Solids at room temperature. Unsaturated fat - more hydrogens can be added to the fatty acid molecules. There is at least one double bond in the fatty acid portion of the molecule. Liquids at room temperature.
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Phospholipids- The phospholipid molecule is similar to a fat except that the third fatty acid is replaced by a phosphate group. Phosphate consists of one phosphorus and four oxygen atoms. The phosphate end of the molecule will dissolve in water and is said to be hydrophilic (“likes water”). The fatty acid end of the molecule repels water and is called hydrophobic (“fears water”). Phospholipids are a major component of the membranes surrounding the cells of all organisms.

Steroids - differ greatly from fats and phospholipids in structure; they are complex ring compounds. Like fats and phospholipids they do not dissolve in water. Examples of steroids - cholesterol, vitamin D, cortisone, estrogen.
The roles of lipids:
1-provide an important from of energy storage.
2-Lipids are the major components of cell membrane.
3-Lipid play roles in cell signaling both as steroid hormones (estrogen &testosterone) and as a message molecules that convey signals from cell surface receptors to targets within the cell.

Lipid storage disorders

Lipid storage disorders are a group of inherited metabolic disorders in which harmful amounts of lipids (fats) accumulate in some of the body’s cells and tissues. People with these disorders either do not produce enough of one of the enzymes needed to metabolize lipids or they produce enzymes that do not work properly. Over time, this excessive storage of fats can cause permanent cellular and tissue damage, particularly in the brain, peripheral nervous system, liver, spleen and bone marrow.
Proteins:
Proteins are very large, complex molecules composed of the elements carbon, hydrogen, oxygen and nitrogen. Other elements are found in proteins in very small amounts. Protein molecules are constructed from building blocks called amino acids. There are twenty different kinds of amino acids. As amino acids are joined to each other with special covalent peptide bonds, the protein molecule grows larger and its shape becomes more and more complex.

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Proteins carry out a wide range of functions in the body:
1-Collagen and keratin are structural proteins. Collagen holds the tissues together throughout the body and strengthens ligaments and tendons.Keratin is a protein that toughens and waterproofs the skin.
2-The proteins actin and myosin permit our muscles to contract.
3- Enzymes are a special class of proteins that assist other chemicals to react with each other.
4- Many hormones that regulate body functions are proteins.
5-Hemoglobin is a blood protein that transports oxygen and carbon dioxide throughout the body
6-Antibodies are proteins in the blood and body fluids that help to fight infections.
Enzymes
Enzymes are proteins and can occur in the body in very small amounts. All the same, enzymes catalyze all processes in the body, enabling organisms to build up chemical substances such as other proteins, carbohydrates or fats that are necessary for life.
All enzymes are proteins, but not all proteins are enzymes. If a protein can catalyze a biochemical reaction, it is an enzyme.
Hormones:
Are chemical messengers that are secreted directly into the blood, which carries them to organs and tissues of the body to exert their functions. There are many types of hormones that act on different aspects of bodily functions and processes. Some of these include:
1-Development and growth
2-Metabolism of food items
3-Sexual function and reproductive growth .
4-Health maintenance of body temperature and thirst.
Hormones are secreted from the endocrine glands in the body. The glands are ductless, so hormones are secreted directly into the blood stream rather than by way of ducts. The glands secrete hormone in microscopic amounts and it takes only very small amounts to bring about major changes in the body. Even a very slight excess of hormone secretion can lead to disease states, as can the slightest deficiency in a hormone.