they have the same structures..... are u working on your study guide for ms. loe??
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.
Members of both kingdoms Archaebacteria and Plantae are alike in that they are both living organisms and share some cellular structures, such as having a cell membrane. However, they differ significantly in their cellular composition and metabolism; Archaebacteria are prokaryotic, unicellular organisms that often thrive in extreme environments, while Plantae are eukaryotic, multicellular organisms that perform photosynthesis to produce their own food. Additionally, Plantae have complex structures like tissues and organs, which are absent in Archaebacteria.
They have different types of cell walls and cell membranes.
The classification of prokaryotic life is subject to a lot of change and in the past has been a very controversial subject.For years the main kingdoms were considered to be Prokaryotes, Animals, Plants and Fungi but this has subsequently proven to be too broad.The Prokaryotic kingdom was initially split into two new kingdoms:EubacteriaandarchaebacteriaRecent RNA studies of these kingdoms have revealed that this classification is too simplified too and that despite being single celled organisms with no true organelles the Eubacteria differ sufficiently within their own kingdom to be split into further kingdoms.This means that they can be considered to be as different from one another as plants are from animals.The Eubacteria classification is therefore one of a Superkingdom. The two kingdoms within it contain, for the sake of simplicity, the gram negative and gram positive bacteria (those who don't take up the gram stain and those who do).The first of these are called protobacteria and contain E. Coli and other similar bacteria that are human pathogens. However other human pathogens such as Staphylococcus are in the gram positive kingdom.Many scientists have been trying to discover if any archaebacteria can be human pathogens but at the time of writing we have been unable to find evidence of any.The superkingdom that contains bacterial pathogens is therefore eubacteria and both kingdoms within it contain pathogens.
Archaebacteria are unicellular prokaryotes that are the oldest living organisms on Earth. Some characteristics include survival in oxygen-free environments, being extremophiles and reproduction is asexual.
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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
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.
Members of both kingdoms Archaebacteria and Plantae are alike in that they are both living organisms and share some cellular structures, such as having a cell membrane. However, they differ significantly in their cellular composition and metabolism; Archaebacteria are prokaryotic, unicellular organisms that often thrive in extreme environments, while Plantae are eukaryotic, multicellular organisms that perform photosynthesis to produce their own food. Additionally, Plantae have complex structures like tissues and organs, which are absent in Archaebacteria.
Archaebacteria differ from eubacteria primarily in their cell membrane structure, genetic makeup, and environmental preferences. Archaebacteria have unique membrane lipids, different ribosomal RNA sequences, and can thrive in extreme environments such as hot springs or salty environments, whereas eubacteria are more diverse in their habitats and metabolic capabilities.
Eubacteria are true bacteria. They:-contain peptidoglycan in cell wall-straight-chain ester-linked lipids in cell membrane-four subunit RNA polymerase core-some are pathogenicThe classification archaebacteria is outdated. Archaea are separate from bacteria because they have unique characteristics. They:-lack peptidoglycan in cell walls-branched-chain ether-linked lipids in cell membrane-can obtain energy through methanogenesis-lipid stereochemistry is opposite of that in other organisms-lack thymine in tRNA-ten subunit RNA polymerase core-none are pathogenicEubacteria and archaebacteria have similar general cell structures, but the composition and layout of those cellular components is remarkably different.
Sorry to be rude, but isn't that obvious? Archaebacteria and Eubacteria are both bacteria, just in a different form. Bacteria are not protists because they lack parts just to be a cell. They are alive but are not included in the Protista family because they lack a nucleus, lysosomes, and so on.
Kingdom Monera is divided into two groups, called Eubacteria and Archaebacteria. These two groups are both composed of tiny, ancient, single-celled organisms without organelles and generally with cell walls, but they differ greatly from each other in almost every other way. Scientists divided Archaebacteria and Eubacteria into these two groups mainly because of the environments they inhabit. Although Archaebacteriaâ??s name would suggest it is â??olderâ??, it is actually a younger group than Eubacteria, and very little is known about Archaebacteria because these species typically live in very hostile, extreme environments such as in acidic ocean thermal vents and miles below arctic ice sheets. Humans are much more familiar with Eubacteria, since we interact with these species every dayâ??most Eubacteria are completely harmless or beneficial, by way of fixing nitrogen for plant use in photosynthesis and other helpful functions. Archaebacteria differ from Eubacteria mainly in the chemical makeup of their cell walls, which scientists think hold the key to why Archaebacteria can live in such â??extremeâ?? conditions.
They have different types of cell walls and cell membranes.
Kingdoms and domains are used to classify living things. There are 3 domains: Bacteria, Archaea, and Eukaryote. Within the domains, living things are sorted into Kingdoms. There are currently 5 Kingdoms protista, bacteria, archaea, plants, animals, and fungi. Previously, only the 5 kingdom system existed. Later however, the domains were added.
The classification of prokaryotic life is subject to a lot of change and in the past has been a very controversial subject.For years the main kingdoms were considered to be Prokaryotes, Animals, Plants and Fungi but this has subsequently proven to be too broad.The Prokaryotic kingdom was initially split into two new kingdoms:EubacteriaandarchaebacteriaRecent RNA studies of these kingdoms have revealed that this classification is too simplified too and that despite being single celled organisms with no true organelles the Eubacteria differ sufficiently within their own kingdom to be split into further kingdoms.This means that they can be considered to be as different from one another as plants are from animals.The Eubacteria classification is therefore one of a Superkingdom. The two kingdoms within it contain, for the sake of simplicity, the gram negative and gram positive bacteria (those who don't take up the gram stain and those who do).The first of these are called protobacteria and contain E. Coli and other similar bacteria that are human pathogens. However other human pathogens such as Staphylococcus are in the gram positive kingdom.Many scientists have been trying to discover if any archaebacteria can be human pathogens but at the time of writing we have been unable to find evidence of any.The superkingdom that contains bacterial pathogens is therefore eubacteria and both kingdoms within it contain pathogens.
Eubacteria are prokaryotic. They also have a complex metabolism. They cannot live in harsh, or ever-changing environments. They are unicellular organisms, and they are the most common form of bacteria in the world. Some eubacteria are autotrophs while others are heterotrophs.