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Chapter 27 - Bacteria and Archaea

  • Prokaryotic organisms are also very well adapted to more extreme environments. “Normal” habitats—the lands and seas where most other animals live.

  • There are species discovered. Their adaptability to a wide range of situations, for which the presence of habitats explains why prokaryotes are the most prevalent for creatures on the planet.

  • In fact, the amount of prokaryotes in a cell is the number of people who live in a handful of fertile soil is larger than the number of people who live in a handful of fertile soil have ever existed. In this chapter, we will look at the modifications. The amazing variety and tremendous ecological effect of these unique creatures’ organisms.

  • Adaptations in structure and function contribute to the success of prokaryotic organisms Prokaryotes were the earliest creatures to dwell on Earth.

  • Around 3.5 billion years ago (as shown in the image attached). Throughout their lengthy careers, Prokaryotic populations have been (and continue to be) a feature of evolutionary history.

  • Natural selection has been (and continues to be) used in a variety of situations, and settings, resulting in today's great variety. We'll start by talking about prokaryotes. The majority of prokaryotes are unicellular, however some species' cells persist after cell division, they become linked to one other.

  • Cells that are prokaryotic having sizes of 0.5–5 m, which is significantly less than many eukaryotic cells have a diameter of 10 to 100 micrometers. (One Thioma is a remarkable exception).

  • The most frequent prokaryotic shapes are:

    • Cocci (plural, coccus), which are spherical prokaryotes. They can be found individually, in pairs (diplococci), in chains of numerous cells (streptococci), or in clusters like grape bunches (staphylococci).

    • Bacilli (plural, bacillus) are rod-shaped prokaryotes. They are generally solitary, but in certain instances, the rods are linked together in chains (streptobacilli).

    • Spiral prokaryotes include spirilla, which can range from comma-like forms to loose coils, and spirochetes, which are corkscrew-shaped (seen above) (colorized SEMs).

  • Although prokaryotic and eukaryotic DNA replication, transcription, and translation are fundamentally identical processes, certain specifics differ.

  • Prokaryotic ribosomes, for example, are somewhat smaller than eukaryotic ribosomes and vary in protein and RNA composition. Because of these distinctions, antibiotics such as erythromycin and tetracycline may attach to ribosomes and inhibit protein synthesis in prokaryotes but not in eukaryotes.

  • As a consequence, individuals can take these antibiotics to kill or limit the development of germs while remaining safe.

    • The term taxis refer to about half of all prokaryotes which are capable, a directed movement toward or away from a stimulus (derived from the Greek taxis, to arrange). For example, prokaryotes that exhibit chemotaxis change their movement pattern in response to chemicals

  • Obligatory aerobes require oxygen, obligate anaerobes are poisoned by oxygen, and facultative anaerobes may exist with or without oxygen.

  • Prokaryotes, unlike eukaryotes, may metabolize nitrogen in a variety of ways. Nitrogen fixation is the process by which some organisms convert atmospheric nitrogen to ammonia.

  • Metabolically, prokaryotic cells and even species can collaborate. Metabolic cooperation occurs in surface-coating biofilms containing several species.

  • Prokaryotic membranes have been modified, as shown in the image attached.

    • (a) In certain aerobic prokaryotes, plasma membrane infoldings resembling mitochondrial cristae function in cellular respiration (TEM).

    • (b) Cyanobacteria, photosynthetic prokaryotes, have thylakoid membranes similar to chloroplasts (TEM).

  • Molecular systematics is assisting scientists in classifying prokaryotes and discovering new clades. The primary categories of bacteria contain a wide range of nutritional characteristics.

  • Proteobacteria and gram-positive bacteria are the two biggest groups. Extreme conditions are home to certain archaea, such as severe thermophiles and extreme halophiles. Other archaea can be found in more temperate settings such as soils and lakes. Prokaryotes are essential components of the biosphere.

  • Decomposition by heterotrophic prokaryotes and the synthesis activity of autotrophic and nitrogen-fixing prokaryotes both contribute to element recycling in ecosystems. Many prokaryotes have a symbiotic connection with their hosts; the relationships between prokaryotes and their hosts range from mutualism to commensalism to parasitism.

  • Prokaryotes have both positive and negative effects on humans.

  • People rely on mutualistic prokaryotes, which include hundreds of species that dwell in our intestines and aid in food digestion.

  • Typically, pathogenic bacteria cause disease by producing exotoxins or endotoxins. Horizontal gene transfer can transmit virulence genes to innocuous species or strains.

  • Prokaryotes have the potential to be employed in bioremediation as well as the manufacture of polymers, vitamins, antibiotics, and other goods. Prokaryotes have a far higher nutritional variety than eukaryotes and include all four types of nutrition: photoautotrophy, chemoautotrophy, photoheterotrophy, and chemoheterotrophy.

Chapter 27 - Bacteria and Archaea

  • Prokaryotic organisms are also very well adapted to more extreme environments. “Normal” habitats—the lands and seas where most other animals live.

  • There are species discovered. Their adaptability to a wide range of situations, for which the presence of habitats explains why prokaryotes are the most prevalent for creatures on the planet.

  • In fact, the amount of prokaryotes in a cell is the number of people who live in a handful of fertile soil is larger than the number of people who live in a handful of fertile soil have ever existed. In this chapter, we will look at the modifications. The amazing variety and tremendous ecological effect of these unique creatures’ organisms.

  • Adaptations in structure and function contribute to the success of prokaryotic organisms Prokaryotes were the earliest creatures to dwell on Earth.

  • Around 3.5 billion years ago (as shown in the image attached). Throughout their lengthy careers, Prokaryotic populations have been (and continue to be) a feature of evolutionary history.

  • Natural selection has been (and continues to be) used in a variety of situations, and settings, resulting in today's great variety. We'll start by talking about prokaryotes. The majority of prokaryotes are unicellular, however some species' cells persist after cell division, they become linked to one other.

  • Cells that are prokaryotic having sizes of 0.5–5 m, which is significantly less than many eukaryotic cells have a diameter of 10 to 100 micrometers. (One Thioma is a remarkable exception).

  • The most frequent prokaryotic shapes are:

    • Cocci (plural, coccus), which are spherical prokaryotes. They can be found individually, in pairs (diplococci), in chains of numerous cells (streptococci), or in clusters like grape bunches (staphylococci).

    • Bacilli (plural, bacillus) are rod-shaped prokaryotes. They are generally solitary, but in certain instances, the rods are linked together in chains (streptobacilli).

    • Spiral prokaryotes include spirilla, which can range from comma-like forms to loose coils, and spirochetes, which are corkscrew-shaped (seen above) (colorized SEMs).

  • Although prokaryotic and eukaryotic DNA replication, transcription, and translation are fundamentally identical processes, certain specifics differ.

  • Prokaryotic ribosomes, for example, are somewhat smaller than eukaryotic ribosomes and vary in protein and RNA composition. Because of these distinctions, antibiotics such as erythromycin and tetracycline may attach to ribosomes and inhibit protein synthesis in prokaryotes but not in eukaryotes.

  • As a consequence, individuals can take these antibiotics to kill or limit the development of germs while remaining safe.

    • The term taxis refer to about half of all prokaryotes which are capable, a directed movement toward or away from a stimulus (derived from the Greek taxis, to arrange). For example, prokaryotes that exhibit chemotaxis change their movement pattern in response to chemicals

  • Obligatory aerobes require oxygen, obligate anaerobes are poisoned by oxygen, and facultative anaerobes may exist with or without oxygen.

  • Prokaryotes, unlike eukaryotes, may metabolize nitrogen in a variety of ways. Nitrogen fixation is the process by which some organisms convert atmospheric nitrogen to ammonia.

  • Metabolically, prokaryotic cells and even species can collaborate. Metabolic cooperation occurs in surface-coating biofilms containing several species.

  • Prokaryotic membranes have been modified, as shown in the image attached.

    • (a) In certain aerobic prokaryotes, plasma membrane infoldings resembling mitochondrial cristae function in cellular respiration (TEM).

    • (b) Cyanobacteria, photosynthetic prokaryotes, have thylakoid membranes similar to chloroplasts (TEM).

  • Molecular systematics is assisting scientists in classifying prokaryotes and discovering new clades. The primary categories of bacteria contain a wide range of nutritional characteristics.

  • Proteobacteria and gram-positive bacteria are the two biggest groups. Extreme conditions are home to certain archaea, such as severe thermophiles and extreme halophiles. Other archaea can be found in more temperate settings such as soils and lakes. Prokaryotes are essential components of the biosphere.

  • Decomposition by heterotrophic prokaryotes and the synthesis activity of autotrophic and nitrogen-fixing prokaryotes both contribute to element recycling in ecosystems. Many prokaryotes have a symbiotic connection with their hosts; the relationships between prokaryotes and their hosts range from mutualism to commensalism to parasitism.

  • Prokaryotes have both positive and negative effects on humans.

  • People rely on mutualistic prokaryotes, which include hundreds of species that dwell in our intestines and aid in food digestion.

  • Typically, pathogenic bacteria cause disease by producing exotoxins or endotoxins. Horizontal gene transfer can transmit virulence genes to innocuous species or strains.

  • Prokaryotes have the potential to be employed in bioremediation as well as the manufacture of polymers, vitamins, antibiotics, and other goods. Prokaryotes have a far higher nutritional variety than eukaryotes and include all four types of nutrition: photoautotrophy, chemoautotrophy, photoheterotrophy, and chemoheterotrophy.

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