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Welcome!

Hello, Amal Afzal, and welcome to Wikipedia! I hope you like the place and decide to stay.

There's a page about creating articles you may want to read called Your first article. If you are stuck, and looking for help, please come to the New contributors' help page, where experienced Wikipedians can answer any queries you have! Or, you can just type {{helpme}} on this page, and someone will show up shortly to answer your questions. Here are a few other good links for newcomers:

I hope you enjoy editing here and being a Wikipedian! Please sign your name on talk pages using four tildes (~~~~); this will automatically produce your name and the date. If you have any questions, check out Wikipedia:Where to ask a question or ask me on my talk page. Again, welcome!--Mishae (talk) 13:46, 20 September 2013 (UTC)[reply]

Internal Structure

   Procaryotic cells are simple in structure, with no recognizable organelles. They have an outer cell wall that gives them shape. Just under the rigid cell wall is the more fluid cell membrane. The cytoplasm enclosed within the cell membrane does not exhibit much structure when viewed by electron microscopy.
   Nucleoid: DNA in the bacterial cell is generally confined to this central region. Though it isn't bounded by a membrane, it is visibly distinct (by transmission microscopy) from the rest of the cell interior.
   Genophore: The genophore, sometimes referred to as the bacterial chromosome, is a long double strand of DNA, usually in one large circle. It includes most of the genetic material of the organism (see Plasmid).
   Plasmid: Plasmids are small circular DNA fragments found in the cytoplasm that contain code responsible for antibiotic resistance and other characteristics. Plasmids and the associated traits can be transferred between bacteria, even from one bacterial species to another.
   Cytoplasm: This internal "soup" of the bacterial cell is bounded on the outside by the cell envelope. The cytoplasm is mostly water, but within it are the bacterial inclusions - nucleoid, plasmids, ribosomes and storage granules - as well as the components necessary for bacterial metabolism.
   Endospore: Some bacteria can survive hostile environments, often for long time periods, by bundling their genetic material in a tough internal structure. Endospores can withstand heat, cold, radiation, and lack of nutrition.
   Ribosomes: Ribosomes give the cytoplasm of bacteria a granular appearance in electron micrographs. Though smaller than the ribosomes in eukaryotic cells, these inclusions have a similar function in translating the genetic message in messenger RNA into the production of peptide sequences (proteins).
   Storage Granules: Nutrients and reserves may be stored in the cytoplasm in the form of glycogen, lipids, polyphosphate, or in some cases, sulfur or nitrogen.
    

Cell Envelope

   Beginning from the innermost structure and moving outward, bacteria have some or all of the following structures
   Plasma Membrane: This is a lipid bilayer much like the cytoplasmic (plasma) membrane of other cells. There are numerous proteins moving within or upon this layer that are primarily responsible for transport of ions, nutrients and waste across the membrane.
   Periplasmic Space: This cellular compartment is found only in those bacteria that have both an outer membrane and plasma membrane (e.g. Gram negative bacteria). In the space are enzymes and other proteins that help digest and move nutrients into the cell.
   Cell Wall: Composed of peptidoglycan (polysaccharides + protein), the cell wall maintains the overall shape of a bacterial cell. The three primary shapes in bacteria are coccus (spherical), bacillus (rod-shaped) and spirillum (spiral). Mycoplasma are bacteria that have no cell wall and therefore have no definite shape.
   Outer Membrane: This lipid bilayer is found in Gram negative bacteria and is the location of lipopolysaccharide (LPS) in these bacteria. Gram positive bacteria lack this layer. LPS can be toxic to a host and can stimulate the host's immune system.
   Capsule: This layer of polysaccharide (sometimes proteins) protects the bacterial cell and is often associated with pathogenic bacteria because it serves as a barrier against phagocytosis by white blood cells. Capsules can be seen by viewing bacteria in India ink.


Appendages

   Bacteria may have the following appendages.
   Pili, Fimbriae: These hollow, hairlike structures made of protein allow bacteria to attach to other cells. A specialized pilus, the sex pilus, allows the transfer of plasmid DNA from one bacterial cell to another. Pili (sing., pilus) are also called fimbriae (sing., fimbria).
   Flagella: The purpose of flagella (sing., flagellum) is motility. Flagella are long appendages which rotate by means of a "motor" in the cell envelope. Bacteria may have one, a few, or many flagella in different positions on the cell.