They have different types of cell walls and cell membranes.
They have different types of cell walls and cell membranes.
One key difference between archaebacteria and eubacteria is their cell membrane composition. Archaebacteria have unique lipid membranes composed of ether-linked lipids, while eubacteria have membranes made of ester-linked lipids. Additionally, archaebacteria often thrive in extreme environments, such as hot springs and salt lakes, whereas eubacteria are found in a broader range of habitats, including soil and the human gut. These differences reflect their distinct evolutionary pathways and adaptations.
Bacteria is a member of the (Archaebacteria and Eubacteria) member because their used to be 5 kingdoms, so the scientist realized that there was 2 different kingdoms so they decided to make another one which was the 6 kingdom.The 5 kingdom was called Monera.
Archaeabacteria is a kingdom in the domain Archaea, and Eubacteria is a kingdom in the domain Bacteria. Both kingdoms contain bacteria that are prokaryotic, unicellular, and autotrophs or heterotrophs. However, Arechaeabacteria have cell walls without peptidoglycan which is the opposite from Eubacteria. Eubacteria often are the types of bacteria that make up dangerous diseases. Also, Archaeabacteria can live in extreme environments that many other organisms could not stand.
Archea-1.cell wall made up of proteins and polysaccharides 2.Hydrocarbonds in cytoplasm are branched 3.Not sensitive to antibiotics like streptomycin 4.Protein synthesis begins with methionine 5.Several types of RNA polymerase available Eubacteria-.Cell wall made up of Peptidoglycan 2.hydrocarbons unbranched 3.sensitive to antibiotics 4.Protein synthesis phenyle methionine 6.only one type of RNApolymerase
They have different types of cell walls and cell membranes.
They have different types of cell walls and cell membranes.
One key difference between archaebacteria and eubacteria is their cell membrane composition. Archaebacteria have unique lipid membranes composed of ether-linked lipids, while eubacteria have membranes made of ester-linked lipids. Additionally, archaebacteria often thrive in extreme environments, such as hot springs and salt lakes, whereas eubacteria are found in a broader range of habitats, including soil and the human gut. These differences reflect their distinct evolutionary pathways and adaptations.
yes Archaebacteria are Prokaryotic. this is one of the class of bacteria. others classes are eubacteria, myloplasma, ricketssiae, actinomycetes, chlamydia.
eubacteria, cyanobacteria, and I can' t find the other one, ARCHAEBACTERIA
It's one of the 6 kingdomsanimalia, plantae, eubacteria, archaebacteria, protista, and fungi
Bacteria is a member of the (Archaebacteria and Eubacteria) member because their used to be 5 kingdoms, so the scientist realized that there was 2 different kingdoms so they decided to make another one which was the 6 kingdom.The 5 kingdom was called Monera.
Archaeabacteria is a kingdom in the domain Archaea, and Eubacteria is a kingdom in the domain Bacteria. Both kingdoms contain bacteria that are prokaryotic, unicellular, and autotrophs or heterotrophs. However, Arechaeabacteria have cell walls without peptidoglycan which is the opposite from Eubacteria. Eubacteria often are the types of bacteria that make up dangerous diseases. Also, Archaeabacteria can live in extreme environments that many other organisms could not stand.
Bacteria are classified into the Kingdom Bacteria, also known as Monera. This kingdom consists of single-celled organisms with prokaryotic cells, lacking a nucleus and membrane-bound organelles. Bacteria are one of the three domains of life, along with Archaea and Eukarya.
Archea-1.cell wall made up of proteins and polysaccharides 2.Hydrocarbonds in cytoplasm are branched 3.Not sensitive to antibiotics like streptomycin 4.Protein synthesis begins with methionine 5.Several types of RNA polymerase available Eubacteria-.Cell wall made up of Peptidoglycan 2.hydrocarbons unbranched 3.sensitive to antibiotics 4.Protein synthesis phenyle methionine 6.only one type of RNApolymerase
Yes, Lactobacillus acidophilus is classified as a eubacteria. Eubacteria is one of the two main domains of bacteria, with the other being archaebacteria. Lactobacillus acidophilus is a type of bacteria that is commonly found in the human gut and is considered beneficial for human health.
It is a eubacteria. Both eubacteria and archaebacteria are prokaryotes that have no organized nucleus and no membrnae bound organelles. The difference between the two is that archae bacteria tend to live in extreme conditions such as hydrothermal vents that can get up to 95°C, in very acidic or salty environments, places with no oxygen, and a wide array of places as such. Archaebacteria usually fall under one of three categories: mathanogens (organisms that convert carbon dioxide to methanol), thermophiles (organisms that can live in very hot and acid environments), or halophiles (organisms that tend to live in extremely salty environments such as the Dead Sea). As saccharomyces cerevisiae (yeast) doesn't fall under any of these categories, it is a eubacteria. It is a fungus, and in most cases, fungi will always be eubacteria.