Most monerans are bacteria.
Archaebacteria and monerans are both classifications of single-celled organisms, but monerans belong to the domain Bacteria while archaebacteria belong to the domain Archaea. Archaebacteria are known for living in extreme environments, while monerans are more commonly found in diverse habitats. Additionally, archaebacteria have unique cell membrane structures and genetic sequences that distinguish them from monerans.
Monerans are classified as prokaryotes, which means they are single-celled organisms that do not have a membrane-bound nucleus. They are further classified into two distinct groups: Archaebacteria and Eubacteria. Archaebacteria are known for living in extreme environments, while Eubacteria are more commonly found in everyday environments.
Most monerans such as cyanobacteria use the photosynthetic pigments phycobiliproteins and bacteriochlorophyll whilearchaeal monerans use bacteriorhodopsin. However, some cyanobacteria known as prochlorophytes use chlorophyll B.
Monerans are their own kingdom!Monerans are their own kingdom!
Monerans do NOT have a nucleus!
No, monerans do not have backbones. Monerans are single-celled organisms without complex structural features like backbones.
No. Monerans are type of prokaryotes. They do not have mitochindria
Yes, Monerans are prokaryotes.
Monerans, also known as archaea and bacteria, do not contain chlorophyll. Chlorophyll is a pigment found in plants, algae, and cyanobacteria that is essential for photosynthesis. Monerans obtain energy through various other metabolic processes, such as chemosynthesis or fermentation.
monerans come under bacteria
Monerans are:UnicellularDoesn't Have a nucleusAutotroph/HeterotrophMono = one, refers to the uni cellular body Monerans that is why they are MONERANS :)
Yes, monerans are divided into two main groups: bacteria and archaea. Bacteria are the more commonly known prokaryotes, while archaea possess unique biochemical properties and often thrive in extreme environments. These groups are classified based on differences in their genetics, cell structure, and metabolic pathways. This division reflects the significant diversity within the moneran domain.