Slime molds move like amoebas through a process called cytoplasmic streaming, and they reproduce like fungi through the formation of spores. Slime molds are unique organisms that exhibit characteristics of both amoebas and fungi.
Slime molds are protists that act like fungi. They are multicellular organisms that feed on decaying organic matter and are commonly found on forest floors. Unlike true fungi, slime molds can move and have a distinct life cycle involving both a unicellular and multicellular stage.
Slime molds and water moldsThe fungus -like protists resemble the fungi during some part of their life cycle. These organisms exhibit properties of both fungi and protists. The slime molds and the water molds are members of this group. They all obtain energy by decomposing organic materials, and as a result, are important for recycling nutrients. They can be brightly colored and live in cool, moist, dark habitats. The slime molds are classified as either plasmodial or cellular by their modes of reproduction. The plasmodial slime molds belong to the phylum Myxomycota, and the cellular slime molds belong to the phylum Acrasiomycota.The plasmodial slime molds form a structure called a plasmodium, a mass of cytoplasm that contains many nuclei but has no cell walls or membranes to separate individual cells. The plasmodium is the feeding stage of the slime mold. It moves much like an amoeba, slowly sneaking along decaying organic material. It moves at a rate of 1 in (2.5 cm) per hour, engulfing microorganisms. The reproductive structure of plasmodial slime molds occurs when the plasmodium forms a stalked structure during unfavorable conditions. This structure produces spores that can be released and travel large distances. The spores land and produce a zygote that grows into a new plasmodium.The cellular slime molds exist as individual cells during the feeding stage. These cells can move like an amoeba as well, engulfing food along the way. The feeding cells reproduce asexually through cell division. When conditions become unfavorable, the cells come together to form a large mass of cells resembling a plasmodium. This mass of cells can move as one organism and looks much like a garden slug. The mass eventually develops into a stalked structure capable of sexual reproduction.The water molds and downy mildews belong to the phylum Oomycota. They grow on the surface of dead organisms or plants, decomposing the organic material and absorbing nutrients. Most live in water or in moist areas. Water molds grow as a mass of fuzzy white threads on dead material. The difference between these organisms and true fungi is the water molds form flagellated reproductive cells during their life cycles.Read more: Protista - Slime Molds And Water Molds http://science.jrank.org/pages/5547/Protista-Slime-molds-water-molds.html#ixzz0d6EfuAiF
Slime molds are considered unusual because they exhibit characteristics of both animals and fungi. They can move, engulf their food like an animal, and also reproduce like fungi. Slime molds also have complex life cycles and unique mechanisms for navigating their surroundings.
Slime molds are a type of organism that can exist as single-celled organisms or come together to form multicellular structures. They are known for their unique life cycle, where they can shift between being individual cells and forming a collective organism. Slime molds play important roles in decomposition and nutrient cycling in ecosystems.
both organisms are different but have same common character both leads double life
Examples of fungus-like protists include slime molds, water molds, and downy mildews. These protists exhibit characteristics resembling both fungi and protists, such as forming spores for reproduction and possessing cell walls.
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.
Both slime molds and ciliates belong to the protists group. Ciliates are single-celled and slime molds have a complex life cycle during the course of which they go through unicellular, multicellular, funguslike (form spores) and protozoanlike (amoeboid) stages.
Slime molds move like amoebas through a process called cytoplasmic streaming, and they reproduce like fungi through the formation of spores. Slime molds are unique organisms that exhibit characteristics of both amoebas and fungi.
Slime molds and water molds (the oomycetes) are not in the fungal kingdom because they are separate evolutionary lineages. This is revealed by phylogenetic analyses using both molecular, morphological, and biochemical data. The kingdom Fungi is united by the presence of chitin in their cell walls, a whiplash flagellum that is oriented on the posterior of the motile cell, the synthesis of lysine using the AAA pathway, plate-like cisternae in the mitochondria, the presence of a Spitzenkorper, and the use of glycogen as a energy storage compound. Slime molds have a anterior whiplash flagella, and oomycetes (the water molds) have a tinsel and whiplash flagella that are laterally oriented. Both of them use the DAP pathway to synthesize lysine and have tubular cisternae in the mitochondria. Slime molds do not have cell walls (I think), and oomycete cell walls are made of cellulose. Oomycetes use mycolaminarin as an engery sotrage compound.
Slime molds are protists that act like fungi. They are multicellular organisms that feed on decaying organic matter and are commonly found on forest floors. Unlike true fungi, slime molds can move and have a distinct life cycle involving both a unicellular and multicellular stage.
Slime molds and water molds (the oomycetes) are not in the fungal kingdom because they are separate evolutionary lineages. This is revealed by phylogenetic analyses using both molecular, morphological, and biochemical data. The kingdom Fungi is united by the presence of chitin in their cell walls, a whiplash flagellum that is oriented on the posterior of the motile cell, the synthesis of lysine using the AAA pathway, plate-like cisternae in the mitochondria, the presence of a Spitzenkorper, and the use of glycogen as a energy storage compound. Slime molds have a anterior whiplash flagella, and oomycetes (the water molds) have a tinsel and whiplash flagella that are laterally oriented. Both of them use the DAP pathway to synthesize lysine and have tubular cisternae in the mitochondria. Slime molds do not have cell walls (I think), and oomycete cell walls are made of cellulose. Oomycetes use mycolaminarin as an engery sotrage compound.
Slime molds are not fungi. They are part of a group called protists. Water molds, also known as oomycetes, were once grouped with fungi due to similarities in appearance, but they are now classified as part of the stramenopiles group.
Slime molds and water moldsThe fungus -like protists resemble the fungi during some part of their life cycle. These organisms exhibit properties of both fungi and protists. The slime molds and the water molds are members of this group. They all obtain energy by decomposing organic materials, and as a result, are important for recycling nutrients. They can be brightly colored and live in cool, moist, dark habitats. The slime molds are classified as either plasmodial or cellular by their modes of reproduction. The plasmodial slime molds belong to the phylum Myxomycota, and the cellular slime molds belong to the phylum Acrasiomycota.The plasmodial slime molds form a structure called a plasmodium, a mass of cytoplasm that contains many nuclei but has no cell walls or membranes to separate individual cells. The plasmodium is the feeding stage of the slime mold. It moves much like an amoeba, slowly sneaking along decaying organic material. It moves at a rate of 1 in (2.5 cm) per hour, engulfing microorganisms. The reproductive structure of plasmodial slime molds occurs when the plasmodium forms a stalked structure during unfavorable conditions. This structure produces spores that can be released and travel large distances. The spores land and produce a zygote that grows into a new plasmodium.The cellular slime molds exist as individual cells during the feeding stage. These cells can move like an amoeba as well, engulfing food along the way. The feeding cells reproduce asexually through cell division. When conditions become unfavorable, the cells come together to form a large mass of cells resembling a plasmodium. This mass of cells can move as one organism and looks much like a garden slug. The mass eventually develops into a stalked structure capable of sexual reproduction.The water molds and downy mildews belong to the phylum Oomycota. They grow on the surface of dead organisms or plants, decomposing the organic material and absorbing nutrients. Most live in water or in moist areas. Water molds grow as a mass of fuzzy white threads on dead material. The difference between these organisms and true fungi is the water molds form flagellated reproductive cells during their life cycles.Read more: Protista - Slime Molds And Water Molds http://science.jrank.org/pages/5547/Protista-Slime-molds-water-molds.html#ixzz0d6EfuAiF
Slime molds are considered unusual because they exhibit characteristics of both animals and fungi. They can move, engulf their food like an animal, and also reproduce like fungi. Slime molds also have complex life cycles and unique mechanisms for navigating their surroundings.
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.