00:01
You want to answer this question, we have to talk about the process of myosis.
00:03
Myosis is going to start with a diploid cell.
00:07
And after myosis one, you're going to produce two cells that are applied.
00:13
Okay.
00:14
These are called secondary gamutocytes because it can be either secondary oocytes or secondary spermato sites.
00:24
And this is the primary gamutocytes.
00:26
Okay.
00:26
And finally, after myosis one, each of these daughter cells are going to end.
00:31
Into myiosis 2 where gametes are going to be produced and they also are aploid and they are called gametes they can be either sperm or oxide so this question says which event in myosis is responsible for converting diploid cells into uproids cells so we're talking about the process of myosis one so if this is your cell what is going to happen is that if this is the nucleus of your cell this is going to be your chromosomes, one pair of monogamous chromosomes, okay? remember that this cell is diploid.
01:09
So during prophase, one of myiosis 1, this nuclear memory is going to disappear, and these chromosomes are going to move to the cytoplasm.
01:19
Also, they are going to get very close to each other, and they are going to exchange blocks of genes, and they are going to become like this.
01:31
The red chromosome is going to have one blue segment, and the blue chromosome is going to have a wet segment.
01:35
This process is called crossing over, okay? but your cell is a cell is going to have a red chromosome.
01:38
Your cell is still deployed.
01:41
During metaphase, what is going to happen is that the spindle is going to be produced and it is going to attach to these chromosomes in this way.
01:49
Then anapace is going to pull, is going to occur and it is going to each of these mitotic or spindles is going to drag each chromosome to one pole.
01:59
So you're going to have this.
02:09
Your chromosome is going to be there and your wet chromosome is going to be like here.
02:14
This is during anaphas.
02:16
Then, well, each of these chromosomes is going to get, is going to arrive to the pulse, and your cell is going to divide into by the process of cytokinesis and you're going to have one applied cell and another applied cell.
02:34
Okay, because you are dividing a cell into, and as this cell originally was deployed, when you divide it in the process of cytokinesis, you're going to have two upload cells that are these cells.
02:45
Here.
02:46
So this question says which even in myosis is responsible for converting deep blood cells into applied cells, select one...