the mushroom forms from spores that are haploid. the spores form mycelia and then when conditions are right, 2 of the mycelia (hyphae) grow together and become dikaryotic (2 nucluei in 1 cell) according to my textbook it is still haploid at this phase. the mushroom grow as dikaryotic and then the nuclei of the cells on the gills fuse to form diploid cells. Meiosis happens shortly after in these cells. then the spores drop form the wind again.
The thallus is haploid. It depends on the three basic life cycle of sexually reproducing fungi, in haplobiontic A life cycle, the thallus is haploid, in haplobiontic B life cycle the thallus is diploid and in diplobiontic life cycle, it has two thallus, a sporophytic thallus which is diploid and a gametophytic thallus which is haploid.
the mushroom forms from spores that are haploid. the spores form mycelia and then when conditions are right, 2 of the mycelia (hyphae) grow together and become dikaryotic (2 nucluei in 1 cell) according to my textbook it is still haploid at this phase. the mushroom grow as dikaryotic and then the nuclei of the cells on the gills fuse to form diploid cells. Meiosis happens shortly after in these cells. then the spores drop form the wind again.
one diploid cell normally yields two cells in one cell cycle. These, from the start, are haploid, but later they synthetise second set of genome thus being diploid.
Haploid = Asexual Reproduction Diploid = Sexual Reproduction
The amoeboid cells are haploid. In the sexual phase of the life cycle, two amoeboid cells fuse to form a zygote. New amoeboid cells are produced by meiosis.
The thallus is haploid. It depends on the three basic life cycle of sexually reproducing fungi, in haplobiontic A life cycle, the thallus is haploid, in haplobiontic B life cycle the thallus is diploid and in diplobiontic life cycle, it has two thallus, a sporophytic thallus which is diploid and a gametophytic thallus which is haploid.
Haploid and diploid cells are not part of biological "divisions". Haploid and diploid cells are part of the life cycle of a single species. "Divisions" separate whole groups of genera. Haploid cells contain a half measure of chromosomes while diploid contain a full measure for diploid organisms. There are polyploid organisms like wheat that is hexaploid (6 sets of chromosomes). Haploid cells come about from "division" of original diploid cells in a process called meiosis if that's what you mean by division.
the mushroom forms from spores that are haploid. the spores form mycelia and then when conditions are right, 2 of the mycelia (hyphae) grow together and become dikaryotic (2 nucluei in 1 cell) according to my textbook it is still haploid at this phase. the mushroom grow as dikaryotic and then the nuclei of the cells on the gills fuse to form diploid cells. Meiosis happens shortly after in these cells. then the spores drop form the wind again.
one diploid cell normally yields two cells in one cell cycle. These, from the start, are haploid, but later they synthetise second set of genome thus being diploid.
Haploid = Asexual Reproduction Diploid = Sexual Reproduction
The amoeboid cells are haploid. In the sexual phase of the life cycle, two amoeboid cells fuse to form a zygote. New amoeboid cells are produced by meiosis.
The haploid and diploid generation undergoes mitosis in a sporic life cycle.
diploid sporophyte and a haploid gametophyte
From a text book.. diploid cell- In an organism that reproduses sexually, a cell containing two homologous sets of chromosomes, one set of inherited from each parent; a 2n cell haploid cell- In the life cycle of an organism that reproduces sexually, a cell containing a single set of chromosomes; an n cell ...diploid?
Haploid and Diploids have to do with Chromosomes and the way DNA is passed down hereditarly
haploid is not real
The diploid generation in the life cycle of a plant, and that produces haploid spores by meiosis. A diploid form of a plant