There are many multicellular organisms. Even protists, such as seaweed, can be multicellular. The only organism that cannot be multicellular is a bacterium.
iT Is mUltIcelLULAr bEcAuSe iT Has mAnY CeLlS
Multicellular organisms are made of eukaryotic cells, which are defined by the presence of a nucleus and other membrane-bound organelles. Eukaryotic cells are more complex than prokaryotic cells, which lack a nucleus.
specialized cells are cells that exist for a specific function for example skin cells or brain cells or liver cells. all multicellular organisms have specialized cells. unicellular organisms do not because they have to carry out all the functions of an entire organism while a skin cell does not have to "worry" about cleaning toxins from the body for example.
Mitosis is the more common type of reproduction among somatic cells in multicellular organisms. It serves to produce genetically identical daughter cells for growth, repair, and maintenance of tissues.
No, There is no division of Labour among the cells of a colony.
Multicellular organisms require specialized organs and systems because in multicellular organisms, different jobs are done by different cells that are specialized, e.g. A blood cell carries oxygen. A nerve cell sends and receives signals. In multicellular organisms different functions are divided among different cells. The cells in multicellular organisms are organized in ways the enables them to survive and reproduce. For any multicellular organism to survive, different cells must work together. The right type of cell must be in the right place to do the work that need to be done.
Advanced cells and organisms are typically referred to as multicellular organisms. These organisms are composed of more than one specialized cell type that work together to perform different functions, leading to increased complexity and organization compared to single-celled organisms.
Multicellular organisms arose from single-celled organisms that evolved the ability to stick together and specialize into different cell types, allowing for more complex functions and structures. This process likely occurred through a series of genetic mutations and natural selection over millions of years.
multicellular
eukaryote multicellular
eukaryote multicellular
No, the cells are not obligate dependents-they can operate independently; the protoplasms of thecells are not connected; the aggregation of cells can be broken into individual cells without killingthe cells.