A cellular organism produces ATP (either infecting another organism or not), has ribosomes being able to originate daughter cells, therefore having species. An acellular organism doesn't match this criteria. Examples are virus and prions.
The fruiting bodies in cellular slime molds serve as structures for spore formation and dispersal, allowing the organism to reproduce. Sporangia in cellular slime molds are specialized structures that contain spores, which are dispersed to new environments to colonize and continue the life cycle. Both structures are essential for the reproductive success of cellular slime molds.
When the amoebalike cells of acellular slime molds fuse, they form structures with many nuclei called plasmodia. These structures allow the slime mold to move and feed as a single entity, despite being made up of many individual cells.
Acellular slime molds in phylum Myxomycota form a slug-like mass known as a plasmodium. This structure is formed by the aggregation of individual amoeboid cells and serves as the feeding stage of the organism. It moves across the substratum in search of food.
Two broad groups of slime molds are recognized. The individual cells of cellular slime molds remain distinct-- separated by cell membranes-- during every phase of the mold's life cycle. Slime molds that pass through a stage in which their cells fuse to form large cells with many nuclei are called acellular slime molds.
Slime molds are unique among protists because they display characteristics of both fungi and animals. Unlike typical protists, slime molds can exist as single cells or form multicellular structures, resembling a fungus during certain stages of their life cycle. Additionally, slime molds exhibit complex behaviors such as forming intricate patterns and making group decisions, which are uncommon in other protists.
Slime molds are all cellular. The unique fact is that they may or may not be multinucleated.
nipples
both organisms are different but have same common character both leads double life
The fruiting bodies in cellular slime molds serve as structures for spore formation and dispersal, allowing the organism to reproduce. Sporangia in cellular slime molds are specialized structures that contain spores, which are dispersed to new environments to colonize and continue the life cycle. Both structures are essential for the reproductive success of cellular slime molds.
Heterotrophic
Yes, that is correct. In cellular slime molds, the haploid stage, also known as the amoeboid stage, dominates the life cycle. These amoeboid cells undergo aggregation to form a multicellular structure called a slug. On the other hand, in acellular slime molds, the diploid stage, or the plasmodial stage, dominates the life cycle. The plasmodium is a large, multinucleate mass of cytoplasm that can give rise to fruiting bodies for spore production.
When the amoebalike cells of acellular slime molds fuse, they form structures with many nuclei called plasmodia. These structures allow the slime mold to move and feed as a single entity, despite being made up of many individual cells.
Slime molds are multinucleated cellular organisms .
Cellular slime molds are distinguished from plasmodial slime molds by the presence of individual, distinct cells that remain separate even during the feeding stage. In contrast, plasmodial slime molds have a multinucleate, single cell mass during feeding.
Acellular slime molds in phylum Myxomycota form a slug-like mass known as a plasmodium. This structure is formed by the aggregation of individual amoeboid cells and serves as the feeding stage of the organism. It moves across the substratum in search of food.
A fruiting body.
Two broad groups of slime molds are recognized. The individual cells of cellular slime molds remain distinct-- separated by cell membranes-- during every phase of the mold's life cycle. Slime molds that pass through a stage in which their cells fuse to form large cells with many nuclei are called acellular slime molds.