Eubacteria and archaebacteria have several key biological differences, primarily in the membrane and wall structure of their cells. Eubacteria and archaebacteria have similar general cell structures, but the composition and layout of those cellular components is remarkably different. Archae, like eu
The main characteristic of archaebacteria and eubacteria are that they are unicellular, or single-celled. Archaebacteria are only found in hot boiling water or other types of extreme environments, while eubacteria are found all over.
Eubacteria and archaebacteria have a wide variety of shapes. However, these cell types have no membrane-bound organelles, they do not organize their DNA into a nucleus, and they are contained by cell membranes protected by cell walls. Both are relatively simple in structure, so most of their differe
Examples of archaebacteria include the halophiles, the methanogens and the thermophiles. Arcahebacteria are unicellular organisms belonging to the domain Archaea. One characteristic they all have in common is the ability to thrive in extreme environmental conditions that existed several billion year
Archaebacteria are unicellular microorganisms in the Archaea domain. Archaea is one of three domain groupings, along with Bacteria and Eukarya. Domain means the highest taxonomic ranking of organisms.
There are three main groups of Archaeabacteria: Crenarchaeota, Euryarchaeota and Korarchaeota. Crenarchaeota are extremely heat tolerant, and Euryarchaeota survive in oxygen-free or salty habitats. Korarchaeota are the least understood of the groups.
Archaebacteria include many unique characteristics and traits: they comprise one kingdom of living organisms, are among the oldest life forms on earth and prefer to live in the most extreme environments on the earth to name a few. Archeaebacteria are often grouped with eubacteria, although the two a
Some examples of organisms within the domain eubacteria are algae, E. coli and salmonella. Also known as true bacteria, these are microscopic, prokaryotic, single-celled organisms without nuclei that produce their food by photosynthesis.
Eubacteria are considered to be "true bacteria," according to Reference.com. They are characterized by a lack of nuclear membrane, single circular chromosome and have cell walls composed of peptidogycan.
Archaebacteria, more properly called archaea, are single celled organisms that live in a wide range of habitats, including the harsh conditions of hot springs. Thermophiles are arachea which grow best at temperatures above 45 Celsius, but some species thrive in much warmer temperatures. According to