There are two types of fungi, unicellular and multicellular and they have different names for the reproductive cells for alot of different types. For the spore type fungi the reproductive cells are called zygosporangium.
the repoduction of fungi happens in its' spores and keeps it from rotting the repoduction of fungi happens in its' spores and keeps it from rotting the repoduction of fungi happens in its' spores and keeps it from rotting
Sporangium.
Spores.
Spores
SporE
mellons
spore
sporangium
As with any cellular signal, only cells that are expressing receptors on their cell surface for a particular signal will be effected. In the case of your question, only cells in a womens body that are expressing specific receptors for reproductive hormones will respond to those hormones. How some cells know to have receptors and others do not is a mystery to science still. It is likely determined by a combination of environmental and genetic cues during development.
In sexual reproduction, a Zygote is accually the name for the egg (or ovum) that was fertalized by a sperm. In asexual reproduction where a daughter cell is produced, there is no fertilization. The "mother cell" duplicates itself to form another identical (or daughter) cell.
basidiospores
Fungi are haploid meaning that there is only one copy of each chromosome. Basically, they have no extra copy of each gene. Humans are diploids because we have two copies of chromosomes in case of a defect. This might be the general case, but I know that yeast, a unicellular fungi, can exist as a diploid. This happens when two haploid cells "mate" and basically fuse together.
Hormones act on cells that have specific receptors within the cells that respond to them. So in this case the medium is the message.
They form a zygote. A zygote is a single cell with the full (diploid) complement of chromosomes. In the case of a multicellular organism the zygote will multiply into a mass of daughter cells called an embryo.
As with any cellular signal, only cells that are expressing receptors on their cell surface for a particular signal will be effected. In the case of your question, only cells in a womens body that are expressing specific receptors for reproductive hormones will respond to those hormones. How some cells know to have receptors and others do not is a mystery to science still. It is likely determined by a combination of environmental and genetic cues during development.
Fertilization is the short answer. This process results in a fertilized egg known as a zygote.
In sexual reproduction, a Zygote is accually the name for the egg (or ovum) that was fertalized by a sperm. In asexual reproduction where a daughter cell is produced, there is no fertilization. The "mother cell" duplicates itself to form another identical (or daughter) cell.
There will be two copies of each chromosome in all somatic cells called homologous chromosome..In case of reproductive cells there will be only one set during gamete formation...
basidiospores
basidiospores
We'll be happy to conjecture if you'll describe the case. Deal ?
A spore case is an organ which contains spores (reproductive bodies like in ferns).
Hello there! Firstly, a haploid means having a half set of chromosomes. In the case of humans, we are diploid organisms since we receive half the chromosome set from the mother and the other half from the father. Therefore we have 23 pairs of chromosomes. So, when a haploid sperm and a haploid egg fuse together, you get a diploid zygote. That's pretty much how we are made and the same goes for most animals. Hope this answered your question 😄
Fungi are haploid meaning that there is only one copy of each chromosome. Basically, they have no extra copy of each gene. Humans are diploids because we have two copies of chromosomes in case of a defect. This might be the general case, but I know that yeast, a unicellular fungi, can exist as a diploid. This happens when two haploid cells "mate" and basically fuse together.
Damaged or diseased cell usually don't enter cell division anymore (some viruses can trigger cell division). By die from apoptose, followed by atrophy (natural programmed cell death). Fit cells can divide by mitosis. Or in the case of reproductive cells, meiosis.