Knowt
Micro_Chapter_11
Objectives of the Chapter
Describe the features of each phylum, class, order, genus, and species of bacteria and archaea with specific examples and their relevance.
Identify major characteristics of different gram-negative and gram-positive bacteria, including their structural differences, roles in human health and disease, and clinical implications.
Recognize common reservoirs (environmental, animal, and human) and transmission routes (fecal-oral, vector-borne, direct contact) of various bacteria to understand infection dynamics.
Identify the clinical significance of key bacterial species, discussing their pathogenic mechanisms, symptoms they cause, and their implications for public health.
Outline key characteristics of domain archaea, including their unique metabolic pathways, ecological roles, and adaptations to extreme environments.
Overview of Prokaryotes
Prokaryotes are organisms that lack a membrane-bound nucleus. They are primarily categorized into two domains:
Bacteria: A diverse group of microorganisms that are ubiquitous in nature and exhibit a wide range of metabolic capabilities.
Archaea: A distinct group of prokaryotes often found in extreme environments (extremophiles) and have unique biochemical properties.
Each domain is divided into various taxonomic ranks including phylum, class, order, family, genus, and species, allowing for systematic classification of prokaryotic life.
A crucial aspect in this chapter is the differentiation between gram-negative and gram-positive bacteria, particularly examining their cell wall compositions, staining characteristics, and implications for antibiotic treatment.
Domain Bacteria
Gram-Negative Bacteria
Pseudomonadota Phylum
This phylum consists of gram-negative, chemoheterotrophic bacteria characterized by a unique rRNA sequence and a complex cell envelope that includes a thin peptidoglycan layer sandwiched between two membranes.
It is the largest and most diverse group of bacteria, playing vital roles both ecologically and clinically.
Divided into five classes:
Alpha Proteobacteria
Beta Proteobacteria
Gamma Proteobacteria
Delta Proteobacteria
Campylobacterota
Alpha Proteobacteria Class
Pelagibacter ubique: Recognized as one of the most abundant microorganisms in the oceans, it plays a key role in marine carbon cycling and is non-pathogenic.
Acetobacteraceae Family: Significant genera include Acetobacter and Gluconobacter, which participate in the fermentation process and convert ethanol into acetic acid, essential for vinegar production.
Granulobacter: An emerging pathogen linked to chronic granulomatous disease, affecting immune regulation and posing risks to individuals with compromised immunity.
Rickettsia Genus: These obligately intracellular bacteria are transmitted by insect and tick bites and can cause serious diseases:
Spotted Fever Rickettsiosis any infections cause febrile illness with rash.
Epidemic Typhus caused by R. prowazekii, transmitted through lice, significant in historical pandemics.
Endemic Typhus caused by R. typhi, transmitted by rat fleas, leading to febrile illness.
Rocky Mountain Spotted Fever caused by R. rickettsii, transmitted by ticks, characterized by rash and systemic involvement.
Ehrlichia Genus: A group of intracellular pathogens affecting white blood cells, associated with tick-borne illnesses and can lead to severe febrile illnesses.
Rhizobium & Bradyrhizobium: These genera form symbiotic relationships with legumes, enriching soil fertility through nitrogen fixation, critical for sustainable agriculture.
Bartonella Genus: Bartonella henselae, the causative agent of cat scratch fever, transmitted via scratches or bites from infected cats, presenting as lymphadenopathy.
Brucella Genus: Known for causing brucellosis, transmitted through contact with infected animals or unpasteurized dairy products; presents with fever, sweats, and malaise.
Nitrobacter & Nitrosomonas: Important nitrifying bacteria involved in the nitrogen cycle, crucial for plant nutrition and soil health.
Beta Proteobacteria Class
Spirulina Genus: Found in freshwater environments, motile cyanobacteria often used as a dietary supplement due to their high protein content and nutrient density.
Burkholderia Genus: Particularly notable is Burkholderia cepacia, which poses a significant risk to cystic fibrosis patients, often leading to severe respiratory infections.
Bordetella Genus: Includes Bordetella pertussis, responsible for whooping cough, highly contagious and preventable through vaccinations, known for its severe respiratory symptoms.
Neisseria Genus: This includes major human pathogens like Neisseria gonorrhoeae (gonorrhea) and Neisseria meningitidis (meningococcal meningitis), both of which can lead to severe health complications and require prompt treatment.
Gamma Proteobacteria Class
Francisella Genus: Includes pathogens such as Francisella tularensis, which causes tularemia; transmission occurs via insect bites, contaminated water, or direct contact with infected animals.
Pseudomonas Genus: Pseudomonas aeruginosa is an opportunistic pathogen known for causing infections in immunocompromised individuals, particularly in healthcare settings; associated with pneumonia and urinary tract infections.
Moraxella Genus: Moraxella lacunata is primarily linked to conjunctivitis, particularly in children, and can also be implicated in upper respiratory infections.
Acinetobacter Genus: This genus includes opportunistic pathogens that cause various healthcare-associated infections and exhibit significant antibiotic resistance, particularly Acinetobacter baumannii.
Legionella Genus: Associated with legionellosis, caused by Legionella pneumophila, which thrives in aquatic environments and can lead to severe pneumonia when inhaled in aerosolized forms.
Coxiella Genus: Coxiella burnetii causes Q fever, often transmitted through inhalation of contaminated aerosols or ingestion of unpasteurized dairy products.
Vibrio Genus: Includes important pathogens such as Vibrio cholerae (cholera) and Vibrio parahaemolyticus (gastroenteritis), both associated with contaminated water and undercooked seafood.
Enterobacteriaceae Order: A diverse group of bacteria with genera critical for gastrointestinal health and associated with various diseases. Important genera include:
Escherichia Genus: E. coli, a normal gut inhabitant; however, particular strains like E. coli O157:H7 are pathogenic and can cause severe gastrointestinal disease.
Salmonella Genus: Includes Salmonella enterica, responsible for salmonellosis, and Salmonella typhi, linked to typhoid fever, emphasizing the importance of proper food handling and sanitation.
Shigella Genus: Responsible for shigellosis, a highly contagious diarrheal disease mainly spread through fecal-oral transmission.
Klebsiella Genus: Klebsiella pneumoniae is known for causing pneumonia, especially in hospitalized patients, as well as urinary tract infections.
Serratia Genus: Serratia marcescens can cause infections in various sites including lungs, urinary tract, and bloodstream, often in immunocompromised patients.
Proteus Genus: Frequently implicated in urinary tract infections, known for its urease production which raises urinary pH.
Yersinia Genus: Yersinia pestis is historically significant, known for causing bubonic plague through flea bites or contact with infected materials; Yersinia enterocolitica can cause gastrointestinal diseases.
Enterobacter Genus: Associated with numerous healthcare-related infections, particularly in the urinary and respiratory tracts.
Pasteurellales Order
Pasteurella Genus: Causes infections in animals which can be transmitted to humans, typically through bites from domestic pets, with Pasteurella multocida causing wound infections.
Haemophilus Genus: Comprises pathogens like Haemophilus influenzae, significant for causing bacterial meningitis, respiratory infections, and requiring specific growth factors for culture.
Campylobacterota Class
Campylobacter Genus: Campylobacter jejuni is a leading cause of foodborne intestinal disease, often associated with undercooked poultry and contaminated water supplies.
Helicobacter Genus: Helicobacter pylori is a notable pathogen linked to chronic gastritis and peptic ulcers, demonstrating unique ability to survive in acidic environments through urease production.
Chlamydia Phylum
Chlamydia Genus: Distinct for lacking a peptidoglycan cell wall, these pathogens cause various infections:
Chlamydia trachomatis: leading cause of sexually transmitted infections and can cause infertility.
Chlamydia psittaci: transmissible from birds to humans, causing psittacosis.
Chlamydia pneumoniae: associated with respiratory tract infections, including mild pneumonia.
Bacteroidota Phylum
Includes genera such as Bacteroides, essential in the human gut microbiome, aiding digestion and metabolism; some species can lead to infections if they move from the gut to other body sites.
Spherochaetota Phylum
Treponema Genus: Includes pathogenic species like Treponema pallidum (syphilis); Borrelia species are responsible for Lyme disease and other relapsing fevers, with transmission often through tick bites.
Leptospira Genus: Known for causing leptospirosis, transmitted in contaminated water; presents with flu-like symptoms and can lead to more serious complications.
Gram-Positive Bacteria
Bacillota Phylum
Comprises several important genera with varied clinical significance:
Clostridium: Pathogenic representatives include:
Clostridium tetani: produces tetanospasmin, leading to muscle spasms and lockjaw.
Clostridioides difficile: associated with antibiotic-associated diarrhea and colitis, often treated with specific antibiotics or fecal transplants.
Bacillus anthracis: causes anthrax, a serious infection that can take cutaneous, inhalational, or gastrointestinal forms, necessitating stringent biosafety practices.
Lactobacillales Order:
Lactobacillus: Important for fermentation processes, impacting gut health and food production through lactic acid production.
Staphylococcus: Especially Staphylococcus aureus, a major cause of skin infections, pneumonia, and foodborne illnesses, known for developing antibiotic resistance (e.g., MRSA).
Streptococcus: Contains many pathogens that produce various virulence factors and can cause diseases ranging from mild pharyngitis to severe invasive infections.
Mycoplasmatota Phylum
Characterized by organisms such as Mycoplasma, which lack cell walls and can cause atypical pneumonia; their unique biology makes them resistant to many typical antibiotics.
Actinomycetota Phylum
Mycobacterium: Contains species of significant medical importance:
Mycobacterium tuberculosis: known to cause tuberculosis, a serious airborne disease requiring multi-drug therapy for treatment.
Mycobacterium leprae: causes leprosy, impacting skin and peripheral nerves, necessitating long-term antibiotic treatment.
Domain Archaea
Currently, there are no known pathogenic archaea; most are extremophiles adapted to harsh environments.
Four nutritional groups:
Halophiles: Thrive in high-salt environments (e.g., salt lakes); involve in various biochemical processes.
Thermophiles: Prefer hot habitats (e.g., hot springs, hydrothermal vents), posses unique enzymes useful in biotechnology.
Acidophiles: Flourish in acidic environments, significant in biogeochemical cycles.
Methanogens: Produce methane, are important in digestive processes in some animals and humans, contributing to the natural biogeochemical cycling of carbon.
