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Archaea: cell membrane contains ether linkages; cell wall lacks peptidoglycan; genes and enzymes behave more like Eukaryotes; have three RNA polymerases like eukaryotes; and extremophiles
Bacteria: cell membrane contains ester bonds; cell wall made of peptidoglycan; have only one RNA polymerase; react to antibiotics in a different way than archea do.
have unique cell membrane structures, genetic makeup, and metabolic pathways that distinguish them from bacteria. They are often found in extreme environments such as hot springs and deep-sea hydrothermal vents.
- Archaeabacterias are not affected by the antibiotic like eubacterias are.
- Archaeabacterias live only in extreme environments, such as saline environments or extremely cold/hot environments. Normal bacterias will not be able to survive in this type of conditions.
- Archaeabacterias, like eukaryotes, has introns, although limited in number. Eubacterias are devoid of introns.
- It is theorized (and widely recognized) that archaebacterias were the first types of bacterias, because they are much more primitive and can survive in harsh conditions that resemble early Earth.
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How many prokaryotic domains are there?
There are two prokaryotic domains: Bacteria and Archaea. These domains differ in terms of their genetic makeup, cell structure, and metabolic processes.
How do the members of the two domains of prokaryote differ?
One is single celled one is not
How do bacteria and archaea differ?
Bacteria and archaea differ in terms of their cell membrane composition, with bacteria generally having a different type of membrane lipids compared to archaea. Additionally, archaea have unique RNA polymerases and histones that are more similar to eukaryotes than bacteria. They also thrive in extreme environments compared to bacteria.
What two kingdoms include prokaryotes?
Actually, there are two DOMAINS of prokaryote. This are the Domain Archaea and the Domain Bacteria Archaea comprises archaebacteria which live in harsher conditions and differ from bacteria in their cell wall composition
What is Bacteria and Achaea?
Bacteria and Archaea are both types of single-celled microorganisms. Both belong to the domain of prokaryotes, meaning they lack a nucleus and other membrane-bound organelles. However, they differ in their genetic makeup, cell wall composition, and metabolic pathways. Archaea are often found in extreme environments, while bacteria are more diverse and can be found in a wide range of habitats.
How do the two groups of prokaryotes differ?
They differ because one is cool and the other one is awesome
How are archae and bacteria different as domains?
Archaea and Bacteria are both domains of life, but they differ in genetic and structural characteristics. Archaea are more closely related to Eukarya than Bacteria, based on genetic studies. Additionally, Archaea often thrive in extreme environments, while Bacteria are more diverse in their habitats.
What is archaea's domain?
All life belongs to one of 3 domains: archaea, eukaryota, or bacteria. The archaea resemble true bacteria in shape but live in extreme conditions such as excessively hot, salty or acid. They differ genetically by possessing introns while true bacteria do not.
How many prokaryotic domains are there?
There are two prokaryotic domains: Bacteria and Archaea. These domains differ in terms of their genetic makeup, cell structure, and metabolic processes.
How do the members of the two domains of prokaryote differ?
One is single celled one is not
How does the meanings of archaea and bacteria differ?
Archaea and bacteria are both types of microorganisms, but they differ in genetic makeup, cell structure, and metabolic processes. Archaea are more closely related to eukaryotes than bacteria in terms of genetic similarity, and they often live in extreme environments. Bacteria, on the other hand, are more diverse in terms of habitats and play crucial roles in various ecosystems, including the human body.
How does domain Eukarya differ from domain Bacteria and domain Archaea?
Eukarya has a doubled walled nucleus containing the genetic material and Bacteria and Archaea do not have contained genetic material. Eukarya has membrane bound organelles and the other two Domains do not. These are the pertinent differences.
Why do protest differ from bacteria and archaea?
Protests are eukaryotic organisms with distinct cellular structures and organelles, while bacteria and archaea are prokaryotic organisms lacking a true nucleus and membrane-bound organelles. Additionally, protests typically have a more complex cellular organization and can exhibit various forms of motility, whereas bacteria and archaea are typically unicellular and exhibit simpler structures.
How do bacteria and archaea differ?
Bacteria and archaea differ in terms of their cell membrane composition, with bacteria generally having a different type of membrane lipids compared to archaea. Additionally, archaea have unique RNA polymerases and histones that are more similar to eukaryotes than bacteria. They also thrive in extreme environments compared to bacteria.
What two kingdoms include prokaryotes?
Actually, there are two DOMAINS of prokaryote. This are the Domain Archaea and the Domain Bacteria Archaea comprises archaebacteria which live in harsher conditions and differ from bacteria in their cell wall composition
Characteristics do Archaea and Bacteria have?
Archaea and Bacteria are both single-celled microorganisms that lack a nucleus and other membrane-bound organelles. While they share similarities, they differ in their cell wall composition, genetic makeup, and ability to thrive in extreme environments. Archaea are known for their ability to survive in extreme conditions such as high temperatures, high salt levels, and acidic environments, while Bacteria can be found in a wide range of habitats including soil, water, and living organisms.
How are anchaebacteria different from eubacteria?
Archaea differ from bacteria in their genetic makeup, cell membrane composition, and metabolic pathways. Archaea have a different cell wall structure, lack peptidoglycan, and have unique DNA replication and transcription systems. They are often found in extreme environments and are more closely related to eukaryotes than to bacteria.
