Monday, March 18, 2019

CLASSIFICATION OF MICROORGANISM

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WHAT ARE BACTERIA?

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  • Bacteria are single-cell organisms.
  • They usually measure a few micrometers in length and exist together in communities of millions.
  • A gram of soil typically contains about 40 million bacterial cells. A milliliter of fresh water usually holds about one million bacterial cells.
  • The earth is estimated to hold at least 5 nonillion bacteria, and much of the earth's biomass is thought to be made up of bacteria.
  • Some bacteria are harmful, but most serve a useful purpose. They support many forms of life, both plant and animal, and they are used in industrial and medicinal processes.

SHAPES OF BACTERIAL CELL:


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  1. Cocci (or coccus for a single cell) are round cells, sometimes slightly flattened when they are adjacent to one another.
  2. Bacilli (or bacillus for a single cell) are rod-shaped bacteria.
  3. Spirilla (or spirillum for a single cell) are curved bacteria which can range from a gently curved shape to a corkscrew-like spiral. Many spirilla are rigid and capable of movement. A special group of spirilla known as spirochetes are long, slender, and flexible.

    Arrangement of Cocci


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              Cocci bacteria can exist singly, in pairs (as diplococci ), in groups of four (as tetrads ), in chains (as streptococci ), in clusters (as staphylococci ), or in cubes consisting of eight cells (as sarcinae). Cocci may be oval, elongated, or flattened on one side. Cocci may remain attached after cell division. These group characteristics are often used to help identify certain cocci.

    1. Diplococci


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    The cocci are arranged in pairs.
    Examples: Streptococcus pneumoniae, Moraxella catarrhalis, Neisseria gonorrhoeae, etc.

    2. Streptococci


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    The cocci are arranged in chains, as the cells divide in one plane.
    Examples: Streptococcus pyogenes, Streptococcus agalactiae

    3. Tetrads


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    The cocci are arranged in packets of four cells, as the cells divide in two plains.

    Examples: Aerococcus, Pediococcus and Tetragenococcus


    4. Sarcinae


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    The cocci are arranged in a cuboidal manner, as the cells are formed by regular cell divisions in three planes. Cocci that divide in three planes and remain in groups cube like groups of eight.
    Examples: Sarcina ventriculi, Sarcina ureae


    5.Staphylococci


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    The cocci are arranged in grape-like clusters formed by irregular cell divisions in three plains.
    Examples: Staphylococcus aureus


    Arrangement of Bacilli


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    The cylindrical or rod-shaped bacteria are called ‘bacillus’ (plural: bacilli).

    1. Diplobacilli


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    Most bacilli appear as single rods. Diplobacilli appear in pairs after division.
    Example of Single Rod: Bacillus cereus

    Examples of Diplobacilli: Coxiella burnetii, Moraxella bovis, Klebsiella rhinoscleromatis, etc.


    2. Streptobacilli


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    The bacilli are arranged in chains, as the cells divide in one plane.

    Examples: Streptobacillus moniliformis


    3. Coccobacilli


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    These are so short and stumpy that they appear ovoid. They look like coccus and bacillus.

    Examples: Haemophilus influenzae, Gardnerella vaginalis, and Chlamydia trachomatis


    4. Palisades


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    The bacilli bend at the points of division following the cell divisions, resulting in a palisade arrangement resembling a picket fence and angular patterns that look like Chinese letters.

    Example: Corynebacterium diphtheriae


    Arrangement of Spiral Bacteria


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    Spirilla (or spirillum for a single cell) are curved bacteria which can range from a gently curved shape to a corkscrew-like spiral. Many spirilla are rigid and capable of movement. A special group of spirilla known as spirochetes are long, slender, and flexible.


    1. Vibrio


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    They are comma-shaped bacteria with less than one complete turn or twist in the cell.

    Example: Vibrio cholerae

    2. Spirilla


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    They have rigid spiral structure. Spirillum with many turns can superficially resemble spirochetes. They do not have outer sheath and endoflagella, but have typical bacterial flagella.

    Example:Campylobacter jejuni, Helicobacter pylori, Spirillum winogradskyi, etc.


    3. Spirochetes
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    Spirochetes have a helical shape and flexible bodies. Spirochetes move by means of axial filaments, which look like flagella contained beneath a flexible external sheath but lack typical bacterial flagella.

    Examples: Leptospira species (Leptospira interrogans), Treponema pallidum, Borrelia recurrentis, etc.


    Others Shapes and Arrangements of Bacteria


    1. Filamentous Bacteria


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    They are very long thin filament-shaped bacteria. Some of them form branching filaments resulting in a network of filaments called ‘mycelium’.

    Example: Candidatus Savagella

    2. Star Shaped Bacteria 

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    Example: Stella

    3. Rectangular Bacteria


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    Examples: Haloarcula spp (H. vallismortis, H. marismortui)

    4. Pleomorphic Bacteria


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    These bacteria do not have any characteristic shape unlike all others described above. They can change their shape. In pure cultures, they can be observed to have different shapes.

    Examples: Mycoplasma pneumoniae, M. genitalium, etc






    Friday, March 8, 2019

    PIONEERS OF MICROBIOLOGY

    Father of Microbiology





    Antonie van Leeuwenhoek

    The Dutch scientist invented the first practical microscope

    Anton Van Leeuwenhoek (Oct. 24, 1632–Aug. 30, 1723) invented the first practical microscopes and used them to become the first person to see and describe bacteria, among other microscopic discoveries.



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    Sunday, February 24, 2019

    The invisible world of Microbes

              Microbes might be tiny and hard to see, but they account for a large percentage of Earth's biodiversity. They have been living on the planet for 3.8 billion years compared to 200,000 for humans, and for most of the Earth’s existence, they have been the only form of life around. In fact, all life on Earth today, including trees and fish and people, is thought to have evolved from the earliest microbes.
              The term “microbe” describes bacteria, archaea, single-celled eukaryotic organisms such as amoebas, slime molds, and parameciums, and even viruses by some broad definitions. Most microbes are unicellular, meaning one cell comprises each individual. They are found almost everywhere on Earth, in soils, plants, geysers, ocean depths, frigid seas below Antarctic ice and in our bodies. (Trillions of bacteria have been found in our guts.) Some microbes, called extremophiles, are found in places where no other living organisms can survive in boiling hot hydrothermal vents in the ocean and in rocks deep underground.
           They can be helpful and/or harmful to other living things: bacteria such as Streptococcus and E. coli can infect and even kill humans, and algal blooms can be toxic to fish and deplete the water of oxygen, but other bacteria help us digest our food and replenish nutrients in soil, and some can help clean up oil spills.
              Scientists are continually discovering new species, genera, families, and orders of microbes, with no end in sight. Because they have been around for so long, microbes evolve in more complicated ways than multicellular life—they can transfer genes between species and from one individual to another, something humans certainly can’t do.
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    Saturday, February 23, 2019

    WELCOME TO THE WORLD OF MICROBIOLOGY

    Hey Hello everyone, Myself Rutuja Patankar from India, a microbiologist. This is going to be my first blog so I introduced myself.

    So many of you might have a heard a lot about microbes but mostly the negative part but there are many good things to know about microbes. So in my further blog, I m going to introduce you all about microbes (OUR FRIENDS😃) and also many interesting facts, various concepts in Microbiology, various research work going on and also about microbiology as a profession.

    Hope so you will enjoy this world of microbes.

    So let's start with some fun, see images below 😆.