im trying to find out eubacteria myself. as for archaebacteria....
*differ from bacteria in sensitivity to antibiotics
*contain ribosome RNA
*cell walls dont contain peptidoglycan
The common name for Eubacteria and Archaebacteria both is bacteria. The scientific names are Eubacteria/Bacteria and Archaebacteria/Archaea.
Archaea and bacteria are both single-celled microorganisms that lack a nucleus and other membrane-bound organelles. They are both prokaryotes, meaning their cells do not have a defined nucleus. In terms of evolutionary history, archaea and bacteria are believed to have diverged from a common ancestor billions of years ago, making them some of the oldest forms of life on Earth.
The main characteristics used to classify organisms into the two domains, Bacteria and Archaea, include differences in their cell wall composition (peptidoglycan in Bacteria, absence of peptidoglycan in Archaea), membrane lipid structure (fatty acids in Bacteria, branched hydrocarbons in Archaea), and sensitivity to antibiotics (Bacteria are sensitive, Archaea are not).
Linnaeus did not include classifications for archaea and bacteria because they were unknown to him during his time. Microorganisms like archaea and bacteria were not discovered and understood until much later, after Linnaeus had already developed his naming system based on observable characteristics of plants and animals.
Archaea are more closely related to eukaryotes than bacteria because they share similar genetic and molecular characteristics, such as the presence of introns in their genes and similar RNA polymerases. This suggests a closer evolutionary relationship between archaea and eukaryotes compared to bacteria.
The common name for Eubacteria and Archaebacteria both is bacteria. The scientific names are Eubacteria/Bacteria and Archaebacteria/Archaea.
Archaea and bacteria are both single-celled microorganisms that lack a nucleus and other membrane-bound organelles. They are both prokaryotes, meaning their cells do not have a defined nucleus. In terms of evolutionary history, archaea and bacteria are believed to have diverged from a common ancestor billions of years ago, making them some of the oldest forms of life on Earth.
Archaea,Bacteria,Prions and Viruses
The main characteristics used to classify organisms into the two domains, Bacteria and Archaea, include differences in their cell wall composition (peptidoglycan in Bacteria, absence of peptidoglycan in Archaea), membrane lipid structure (fatty acids in Bacteria, branched hydrocarbons in Archaea), and sensitivity to antibiotics (Bacteria are sensitive, Archaea are not).
bacteria, archaea, and eukarya
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.
Because some archaea are heterotrophs while others are autotrophs.
Three domains are : Archaea, Bacteria, and Eukarya Domains Archaea and Bacteria both include single-cell prokaryotes. Domain Eukarya includes all organisms made of eukaryotic cells
Linnaeus did not include classifications for archaea and bacteria because they were unknown to him during his time. Microorganisms like archaea and bacteria were not discovered and understood until much later, after Linnaeus had already developed his naming system based on observable characteristics of plants and animals.
The two main types of monerans are bacteria and archaea. Bacteria are unicellular prokaryotic organisms found in various environments, while archaea are similar to bacteria but have distinct genetic and biochemical characteristics.
Three domains are : Archaea, Bacteria, and Eukarya Domains Archaea and Bacteria both include single-cell prokaryotes. Domain Eukarya includes all organisms made of eukaryotic cells
Archaea are more closely related to eukaryotes than bacteria because they share similar genetic and molecular characteristics, such as the presence of introns in their genes and similar RNA polymerases. This suggests a closer evolutionary relationship between archaea and eukaryotes compared to bacteria.