The centriole with radiating fibers is known as the aster. Asters are involved in the organization of the mitotic spindle during cell division, helping to position and align the chromosomes. They also play a role in anchoring and moving the spindle apparatus.
spindle apparatus
The formation of the mitotic spindle depends upon the proper assembly and organization of microtubules, which are dynamic protein fibers that make up the spindle apparatus. Microtubules are regulated by microtubule-associated proteins that help facilitate their polymerization and depolymerization processes. Additionally, motor proteins are essential for moving the chromosomes to their correct positions during mitosis.
If you look at certain pictures taken of the spindles/an artists representation of them, you will find that the nucleus, the mitochondria, and the Golgi Apparatus all play a significant role in mitotic spindles.
Centrosomes are the main focal points for the growth of the mitotic spindle in eukaryotic cells. They contain pairs of centrioles that organize microtubules during cell division. The microtubules extend and form the spindle apparatus, which helps separate the chromosomes during mitosis.
The mitotic apparatus is made up of microtubules, spindle fibers, and centrosomes. It helps to organize and separate chromosomes during cell division by pulling them apart into two new daughter cells. This process ensures that each new cell receives the correct number of chromosomes.
spindle
the spindle
I think it appears in telophase because that is when several organelles appear.
a region within the centromere that serves as a point of attachment site for the mitotic spindle (spiindle apparatus)
group of organs and tissues that permits breathing
The centriole with radiating fibers is known as the aster. Asters are involved in the organization of the mitotic spindle during cell division, helping to position and align the chromosomes. They also play a role in anchoring and moving the spindle apparatus.
spindle apparatus
The formation of the mitotic spindle depends upon the proper assembly and organization of microtubules, which are dynamic protein fibers that make up the spindle apparatus. Microtubules are regulated by microtubule-associated proteins that help facilitate their polymerization and depolymerization processes. Additionally, motor proteins are essential for moving the chromosomes to their correct positions during mitosis.
A chromatin is the material that makes up both mitotic and inter phase chromosomes; a complex of proteins and DNA strands that are loosely coiled such that translation and transcription can occur.
If you look at certain pictures taken of the spindles/an artists representation of them, you will find that the nucleus, the mitochondria, and the Golgi Apparatus all play a significant role in mitotic spindles.
Centrosomes are the main focal points for the growth of the mitotic spindle in eukaryotic cells. They contain pairs of centrioles that organize microtubules during cell division. The microtubules extend and form the spindle apparatus, which helps separate the chromosomes during mitosis.