False all cells do not divide continuously throughout the life of a multicellular organism. Cell division in unicellular organisms produces two new individuals is true.
TRUE
justin forde, amil hodgson and trey peters love bbc's and bbm'c
what is the organelle that maintains homeostasis by transporting materials throughout the cell
Multicellular organisms thus have the competitive advantages of an increase in size without its limitations. They can have longer lifespans as they can continue living when individual cells die. Multicellularity also permits increasing complexity by allowing differentiation of cell types within one organism.
The special and role and place of organism within in its habitat is its niche.
Multicellular organisms have various levels of organization within them. Individual cells may perform specific functions and also work together for the good of the entire organism. The cells become dependent on one another.
They receive instructions in their DNA.
justin forde, amil hodgson and trey peters love bbc's and bbm'c
Multicellular organisms thus have the competitive advantages of an increase in size without its limitations. They can have longer lifespans as they can continue living when individual cells die. Multicellularity also permits increasing complexity by allowing differentiation of cell types within one organism.
The cell maintains homeostasis by regulating its body temperature and staying hydrated.
Multicellular organisms thus have the competitive advantages of an increase in size without its limitations. They can have longer lifespans as they can continue living when individual cells die. Multicellularity also permits increasing complexity by allowing differentiation of cell types within one organism.
what is the organelle that maintains homeostasis by transporting materials throughout the cell
Multicellular organisms thus have the competitive advantages of an increase in size without its limitations. They can have longer lifespans as they can continue living when individual cells die. Multicellularity also permits increasing complexity by allowing differentiation of cell types within one organism.
Organism of measurements
The special and role and place of organism within in its habitat is its niche.
The protists comprise the unicellular organisms that are part of the eukaryotic domain of life (cell that contains a nucleus). The main part of the eukaryotic diversity is composed of lineages with living beings made of one cell (alveolates, rhizaria, amoebozoa, chlorophytes, choanoflagellates, glaucophytes, stramenopiles, some fungi...). The cell in itself is a living organism able to use the environmental ressources to grow, to reproduce, to divide, to communicate with its environment. A single cell from a multicellular organism is a subset of an organism, oftenly, part of a tissue, which is highly specialized in a function even if the cell is able to realize a lot of activities. What about the totipotent cells? They have a potential of differentiation. Sometimes, they are a mandatory step of the life cycle of some organism (via sporulation). Their main characteristic is their potency, but by themselves, before they are specialized, they are just 'potential' cells. Protists are organisms, able to perpetuate a lineage, while a cell from a multicellullar organism is able to perpetuate nothing or may perpetuate a function within a multicellular organism.
Multicellular organisms have various levels of organization within them. Individual cells may perform specific functions and also work together for the good of the entire organism. The cells become dependent on one another.
The term niche is used to define the role an organism plays within a community.