What is a Bacteria?
Bacteria |
What are the different kinds of Bacteria and their Gram-Stain?
Gram-PositiveCocci
Gram-positive anaerobic cocci (GPAC) are a heterogeneous group of organisms defined by their morphological appearance and their inability to grow in the presence of oxygen; most clinical isolates are identified to species in the genus Peptostreptococcus. GPAC are part of the normal flora of all mucocutaneous surfaces and are often isolated from infections such as deep organ abscesses, obstetric and gynecological sepsis, and intraoral infections.
Bacillus
Bacillus is a genus of Gram-positive, rod-shaped (bacillus), bacteria and a member of the phylum Firmicutes. Bacillus species can be obliga
te aerobes (oxygen reliant), orfacultative anaerobes (having the ability to be aerobic or anaerobic). They will test positive for the enzyme catalase when there has been oxygen used or present.Ubiquitous in nature, Bacillus includes both free-living (non-parasitic) and parasitic pathogenic species
Gram-Negative
Spirillum
Spirillum in microbiology refers to a bacterium with a cell body that twists like a spiral. It is the third distinct bacterial cell shape type besides coccus and bacillus cells.Spirillum is the bacteria of a genus of Gram-negative bacteria (family Spirillaceae). There are two species, Spirillum volutans and Spirillum winogradskyi. The taxonomic position of Spirillum minus and Spirillum pulli is uncertain. Spirillum minus is associated with rat-bite fever, and Borrelia burgdorferi with Lyme disease.
Vibrios
Vibrio is a genus of Gram-negative bacteria possessing a curved rod shape (comma shape), several species of which can causefoodborne infection, usually associated with eating undercooked seafood. Typically found in saltwater, Vibrio spp. are facultative anaerobes that test positive for oxidase and do not form spores. All members of the genus are motile and have polar flagella with sheaths. Recent phylogenies have been constructed based on a suite of genes (multilocus sequence analysis).
Spirochaete
Spirochaetes (also spelled spirochetes) belong to a phylum of distinctive diderm (double-membrane) bacteria, most of which have long, helically coiled (corkscrew-shaped) cells. Spirochaetes are distinguished from other bacterial phyla by the location of their flagella, sometimes called axial filaments, which run lengthwise between the bacterial inner membrane and outer membrane in periplasmic space. These cause a twisting motion which allows the spirochaete to move about. When reproducing, a spirochaete will undergo asexual transverse binary fission. Most spirochaetes are free-living and anaerobic, but there are numerous exceptions.
What diseases are caused by these bacterias?
COCCI- It causes strep throat, some skin diseases and pneumonia, among many others. They can also cause gonorrhea, meningitis, and skin lesions.
BACILLUS- Escherichia coli is a rod-shaped bacteria that normally lives in your intestinal tract without causing disease. However, a few strains of E. coli do cause disease that's spread typically by eating or drinking contaminated food or water; a typical symptom is diarrhea. Corynebacterium diphtheriae, another rod-shaped bacterium, infects the respiratory tract and causes diphtheria. Diphtheria causes a thick coating on the back of the nose and throat, making it difficult to swallow or breathe, followed by swelling of the neck and potentially death. Bacillus anthracis is the bacteria that cause anthrax. This rod-shaped bacterium grows in long chains and can infect you through broken skin, ingestion or inhalation.
SPIRILLUM- Rat-Bite fever is one disease caused by spirilla minus (the minus doesn't really mean that much) my source is the CDC spirilla is split into sub groups like: treponema pallida, that causes syphilis Borrelia burgdorferi, that causes lyme disease my source is Milady's Standard Cosmetology
VIBRIOS- They typically live in aquatic environments. Vibrio cholera moves in a darting motion by a single flagellum, a whiplike structure, and is the bacteria that causes cholera. Cholera is an intestinal infection that causes severe diarrhea and dehydration, typically transmitted by drinking contaminated water. It is a very serious disease that can lead to death if not treated promptly.
SPIROCHAETE- Two well-known spirochetes that cause disease in humans are Treponema pallidum and Borrelia burgdorferi. Treponema pallidum causes the sexually transmitted disease syphilis. Infection typically begins as a single sore at the site of infection. Additional lesions or rashes can develop elsewhere on the body if left untreated. Borrelia burgdorferi is transmitted through the bite of an infected tick and causes Lyme disease. Infection with Borrelia burgdorferi causes a typical "bull's-eye" rash. If left untreated, it can affect your heart and nervous system and cause arthritis.
BACILLUS- Escherichia coli is a rod-shaped bacteria that normally lives in your intestinal tract without causing disease. However, a few strains of E. coli do cause disease that's spread typically by eating or drinking contaminated food or water; a typical symptom is diarrhea. Corynebacterium diphtheriae, another rod-shaped bacterium, infects the respiratory tract and causes diphtheria. Diphtheria causes a thick coating on the back of the nose and throat, making it difficult to swallow or breathe, followed by swelling of the neck and potentially death. Bacillus anthracis is the bacteria that cause anthrax. This rod-shaped bacterium grows in long chains and can infect you through broken skin, ingestion or inhalation.
SPIRILLUM- Rat-Bite fever is one disease caused by spirilla minus (the minus doesn't really mean that much) my source is the CDC spirilla is split into sub groups like: treponema pallida, that causes syphilis Borrelia burgdorferi, that causes lyme disease my source is Milady's Standard Cosmetology
VIBRIOS- They typically live in aquatic environments. Vibrio cholera moves in a darting motion by a single flagellum, a whiplike structure, and is the bacteria that causes cholera. Cholera is an intestinal infection that causes severe diarrhea and dehydration, typically transmitted by drinking contaminated water. It is a very serious disease that can lead to death if not treated promptly.
SPIROCHAETE- Two well-known spirochetes that cause disease in humans are Treponema pallidum and Borrelia burgdorferi. Treponema pallidum causes the sexually transmitted disease syphilis. Infection typically begins as a single sore at the site of infection. Additional lesions or rashes can develop elsewhere on the body if left untreated. Borrelia burgdorferi is transmitted through the bite of an infected tick and causes Lyme disease. Infection with Borrelia burgdorferi causes a typical "bull's-eye" rash. If left untreated, it can affect your heart and nervous system and cause arthritis.
What are the differences between Gram-Positive and Gram-Negative Bacteria?
Gram-Positive
Gram-positive bacteria are classified as bacteria that retain a crystal violet dye during the Gram stain process. Gram-positive bacteria will appear blue or violet under a microscope, whereas Gram-negative bacteria will appear red or pink. The difference in classification is largely based on a difference in the bacteria's cell wall structure.
The following characteristics are generally present in a Gram-positive bacteria:
1. A very thick cell wall (peptidoglycan)
2. If a flagellum is present, it contains two rings for support (an additional two rings are not necessary, unlike in Gram-negative bacteria, because the thick cell wall is supportive enough)
3. Teichoic acids are present, which serve to act as chelating agents, and also for certain types of adherence
Gram-Negative
Gram-negative bacteria are those that do not retain crystal violet dye in the Gram staining protocol. Gram-positive bacteria will retain the dark blue dye after an alcohol wash, whereas Gram-negative bacteria do not. In a Gram stain test, a counterstain is added after the crystal violet, which colors all Gram-negative bacteria a red or pink color. The test itself is useful in classifying two distinctly different types of bacteria based on structural differences in their cell walls.
Many species of Gram-negative bacteria are pathogenic, meaning they can cause disease in a host organism. This pathogenic capability is usually associated with certain components of Gram-negative cell walls, in particular the lipopolysaccharide (also known as LPS or endotoxin) layer.
The following characteristics are displayed by Gram-negative bacteria:
1. Cell walls only contain a few layers of peptidoglycan (which is present in much higher levels in Gram-positive bacteria)
2. Cells are surrounded by an outer membrane of lipopolysaccharide outside the peptidoglycan layer
3. Porins exist in the outer membrane, which act like pores for particular molecules
4. There is a space between the layers of peptidoglycan and the secondary cell membrane called the periplasmic space
5. The S-layer is directly attached to the outer membrane, rather than the peptidoglycan
6. If present, flagella have four supporting rings instead of two
7. No teichoic acids are present
8. Lipoproteins are attached to the polysaccharide backbone whereas in Gram-positive bacteria no lipoproteins are present
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WHAT I LEARNED...
I learned that Bacteria have different types like Cocci, Bacillus, Spirillum, Vibrio and Spirochete. I also found out the different illness caused by these bacteria. Lastly, I learned the difference between Gram-Positive bacteria and Gram-Negative Bacteria.
WHAT I DID...
I Search for more details and information about these bacteria to gain more knowledge and to discover new things that I can apply to my daily living.
I CAN APPLY MY LEARNING TO...
I can use the information I got by using it as a guide in doing our Investigatory Project and to our daily lives.
1. A very thick cell wall (peptidoglycan)
2. If a flagellum is present, it contains two rings for support (an additional two rings are not necessary, unlike in Gram-negative bacteria, because the thick cell wall is supportive enough)
3. Teichoic acids are present, which serve to act as chelating agents, and also for certain types of adherence
Gram-Negative
Gram-negative bacteria are those that do not retain crystal violet dye in the Gram staining protocol. Gram-positive bacteria will retain the dark blue dye after an alcohol wash, whereas Gram-negative bacteria do not. In a Gram stain test, a counterstain is added after the crystal violet, which colors all Gram-negative bacteria a red or pink color. The test itself is useful in classifying two distinctly different types of bacteria based on structural differences in their cell walls.
Many species of Gram-negative bacteria are pathogenic, meaning they can cause disease in a host organism. This pathogenic capability is usually associated with certain components of Gram-negative cell walls, in particular the lipopolysaccharide (also known as LPS or endotoxin) layer.
The following characteristics are displayed by Gram-negative bacteria:
1. Cell walls only contain a few layers of peptidoglycan (which is present in much higher levels in Gram-positive bacteria)
2. Cells are surrounded by an outer membrane of lipopolysaccharide outside the peptidoglycan layer
3. Porins exist in the outer membrane, which act like pores for particular molecules
4. There is a space between the layers of peptidoglycan and the secondary cell membrane called the periplasmic space
5. The S-layer is directly attached to the outer membrane, rather than the peptidoglycan
6. If present, flagella have four supporting rings instead of two
7. No teichoic acids are present
8. Lipoproteins are attached to the polysaccharide backbone whereas in Gram-positive bacteria no lipoproteins are present
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WHAT I LEARNED...
I learned that Bacteria have different types like Cocci, Bacillus, Spirillum, Vibrio and Spirochete. I also found out the different illness caused by these bacteria. Lastly, I learned the difference between Gram-Positive bacteria and Gram-Negative Bacteria.
WHAT I DID...
I Search for more details and information about these bacteria to gain more knowledge and to discover new things that I can apply to my daily living.
I CAN APPLY MY LEARNING TO...
I can use the information I got by using it as a guide in doing our Investigatory Project and to our daily lives.