Archaea or archaeabacteria are bacteria that are able to live in extreme conditions. They are single-celled organisms lacking a nucleus. Eubacteria have linked lipids in their cell membrane and can only survive in more normal conditions.
Archaea and eubacteria were found to be most different becausesome archaea are anaerobic
Eubacteria can be found in many places including soil, water, and even in the human body!
most are found in the eubacteria kingdom
EubacteriaThe Eubacteria, also called just "bacteria," are one of the three main domains of life, along with the Archaea and the Eukarya. Eubacteria are prokaryotic, meaning their cells do not have defined, membrane-limited nuclei. As a group they display an impressive range of biochemical diversity, and their numerous members are found in every habitat on Earth. Eubacteria are responsible for many human diseases, but also help maintain health and form vital parts of all of Earth's ecosystems.Source: Answers.com
They live in extream enviorments like at the bottom of the ocean.
Ribosomes are found in both plant and animal cells. They are responsible for the creation of proteins. Ribosomes are also found in other eukaryotic cells, as well as bacteria and archaea. The ribosomes found in bacteria and archaea are very different from those found in eukaryotic cells.
archaea bacteria are primitive type and eubacteria true (Advance) type bacteria.
Monera is a kingdom that contains unicellular life. It is split into the two domains of Archaea and Bacteria.
A. Archaea
The kingdom Eubacteria belongs to the domain Bacteria. It is one of the three domains of life, along with Archaea and Eukarya. Eubacteria consists of prokaryotic organisms that are common and diverse, found in various habitats.
Eubacteria (true bacteria) are a domain of living organisms. They are spherical or rod-shaped single-celled microorganisms that have a rigid cell wall, and may use whiplike tails or flagella for motion. Their cells do not possess a nucleus.The term eubacteria was employed to differentiate the prokaryote "bacteria" from the domain known as Archaea, which are closer in structure to eukaryotes (higher organisms).
Eubacteria is one of the two bacteria kingdoms. In the Eubacteria both the consumers and producers will be found under this category.
Archebacteria
Eubacteria is an important and common strain of bacteria. While most eubacteria is found in many diseases and kill thousands every year, eubacteria is very useful to our lives. Eubacteria is found in the digestive system to help break down food. It is also commonly used in antibiotics. The use in antibiotics is crucial because not only can it save lives, but it has economic impacts as well. Scientists can use eubacteria to create antibiotics and vaccines, these antibiotics and vaccines cost money for the consumer, helping the scientists to have made an economical gain.
Eubacteria is an important and common strain of bacteria. While most eubacteria is found in many diseases and kill thousands every year, eubacteria is very useful to our lives. Eubacteria is found in the digestive system to help break down food. It is also commonly used in antibiotics. The use in antibiotics is crucial because not only can it save lives, but it has economic impacts as well. Scientists can use eubacteria to create antibiotics and vaccines, these antibiotics and vaccines cost money for the consumer, helping the scientists to have made an economical gain.
Eubacteria is an important and common strain of bacteria. While most eubacteria is found in many diseases and kill thousands every year, eubacteria is very useful to our lives. Eubacteria is found in the digestive system to help break down food. It is also commonly used in antibiotics. The use in antibiotics is crucial because not only can it save lives, but it has economic impacts as well. Scientists can use eubacteria to create antibiotics and vaccines, these antibiotics and vaccines cost money for the consumer, helping the scientists to have made an economical gain.
Archaebacteria are not classified in the same kingdom as eubacteria because they have fundamental genetic and biochemical differences, such as unique cell membrane components and gene sequences. These distinctions suggest that archaebacteria have evolved separately from eubacteria and are more closely related to eukaryotes in terms of evolutionary history.
Eubacteria can be found in many places including soil, water, and even in the human body!