On basis of cladistic analysis higher organisms are more closly related to Archaea .
Arche bacteria are much closer to eukaryotes.Bacteria also have some similarities. NO. Archaea, Bacteria and Eukaryota. Bacteria are more closely related to the more complex organisms (Eukaryotes). Archaea are now considered in their own domain. The Archaea in plankton are the most abundant organism on the planet.
No, the tiniest living organisms like bacteria and archaea do not have tissue. They are single-celled organisms that lack the complex structures seen in multicellular organisms.
My wife is complex. And she's an animal. But I don't think I'd call her an animal to her face...
Protests are eukaryotic organisms with distinct cellular structures and organelles, while bacteria and archaea are prokaryotic organisms lacking a true nucleus and membrane-bound organelles. Additionally, protests typically have a more complex cellular organization and can exhibit various forms of motility, whereas bacteria and archaea are typically unicellular and exhibit simpler structures.
The major groupings of organisms in order from simplest to most complex are: bacteria, archaea, protists, fungi, plants, and animals. This sequence reflects the evolutionary history of life on Earth, with bacteria and archaea being single-celled prokaryotic organisms, while protists, fungi, plants, and animals are eukaryotic organisms with increasing complexity.
Arche bacteria are much closer to eukaryotes.Bacteria also have some similarities. NO. Archaea, Bacteria and Eukaryota. Bacteria are more closely related to the more complex organisms (Eukaryotes). Archaea are now considered in their own domain. The Archaea in plankton are the most abundant organism on the planet.
The three domains of life are Archaea, Bacteria, and Eukarya. Archaea and Bacteria are both prokaryotic, meaning they lack a nucleus and other membrane-bound organelles, and they are more closely related to each other than to Eukarya. Eukarya, which includes organisms such as plants, animals, and fungi, is distinguished by its complex cells with a nucleus. Although Archaea and Eukarya are both considered to be more closely related in terms of evolutionary lineage, Archaea and Bacteria share more similarities in cellular structure and functions.
Bacteria and archaea are both types of single-celled microorganisms, but they differ in their genetic makeup and evolutionary history. Archaea have unique genetic characteristics that set them apart from bacteria, such as different cell membrane structures and genetic sequences. In terms of evolutionary history, archaea are believed to be more closely related to eukaryotes (organisms with complex cells) than to bacteria. This suggests that archaea and bacteria evolved separately and have distinct evolutionary paths.
No, the tiniest living organisms like bacteria and archaea do not have tissue. They are single-celled organisms that lack the complex structures seen in multicellular organisms.
My wife is complex. And she's an animal. But I don't think I'd call her an animal to her face...
Protests are eukaryotic organisms with distinct cellular structures and organelles, while bacteria and archaea are prokaryotic organisms lacking a true nucleus and membrane-bound organelles. Additionally, protests typically have a more complex cellular organization and can exhibit various forms of motility, whereas bacteria and archaea are typically unicellular and exhibit simpler structures.
The major groupings of organisms in order from simplest to most complex are: bacteria, archaea, protists, fungi, plants, and animals. This sequence reflects the evolutionary history of life on Earth, with bacteria and archaea being single-celled prokaryotic organisms, while protists, fungi, plants, and animals are eukaryotic organisms with increasing complexity.
Bacteria and archaea are prokaryotic organisms, meaning they lack a defined nucleus and membrane-bound organelles, while eukarya are eukaryotic, characterized by their complex cells with a nucleus. Additionally, bacteria and archaea have distinct cell wall compositions; bacteria typically have peptidoglycan, while archaea possess unique cell wall materials. Their genetic machinery and metabolic pathways also differ significantly, with archaea often found in extreme environments and exhibiting unique biochemical processes.
Prokaryotic organisms include algae, bacteria, and archaea bacteria. They are classified as such because of their composition ,of cells. Eukaryotic cells have no nuclei and reproduce faster than eukaryote cells, which are more complex and found in most animals.
Modern prokaryotes are generally known as bacteria and archaea. They are unicellular organisms that lack a membrane-bound nucleus and other membrane-bound organelles. Bacteria and archaea are found in various environments and play crucial roles in nutrient cycling and other ecological processes.
The three domains of scientific classification are Archaea, Bacteria, and Eukarya. Archaea and Bacteria consist of prokaryotic organisms, which lack a nucleus, while Eukarya includes eukaryotic organisms that have a defined nucleus. This classification system reflects fundamental differences in cellular structure and genetics among these domains. Each domain encompasses a wide variety of life forms, from single-celled organisms to complex multicellular organisms.
That description is more characteristic of bacteria, as bacteria typically have a simpler cell structure with fewer organelles compared to eukaryotic cells. Archaea, on the other hand, can have structures that resemble organelles and have more complex cellular machinery.