Meosis is a reductional division, which means the primary cell has to divide twice thus giving four haploid cells.
Spindle fibers are formed at Anaphase 1 (of the first division cycle) and Anaphase 2 (of the second division)
In prophase of mitosis
prophase
metaphase
During metaphase each chromosome attaches to spindle fibers. The centriole anchors the spindle fibers and helps in splitting the chromosome.
The answer is Spindle Fibers.
Spindle fibers are thin tubes that form between the centrioles during mitosis. True..
The Centrosome. It forms Centrioles which form spindle fibers. Some of the spindle fibers attach to the Kinetochore located on the Centromere of chromosomes. The spindle fibers work in conjunction with motor proteins to facilitate disjunction.
spindle fibers
Prophase.
The centrioles in animal cells form the asters and the spindle fibers.
Metaphase
In metaphase, spindle fibers grow and attach to chromosomes. In anaphase, they pull the chromosomes apart. In telephase, they disappear.
in the prophase stage of the cell cycle
In animal cells, during metaphase stage of the cell cycle, the centrioles attach to spindle fibers. These spindle fibers are also attached to the chromosomes which are now aligned at the metaphase plate.
Metaphase is the stage when spindle fibers attach to chromosomes. Metaphase is the second stage of cell division, between prophase and anaphase.
yes
spindle fibers form a bridge between the ends of the cell
During metaphase each chromosome attaches to spindle fibers. The centriole anchors the spindle fibers and helps in splitting the chromosome.
Spindle fibers are formed during the metaphase stage of mitosis (cell division) when the chromosomes are tightly condensed and aligned at the center of the cell. Spindle fibers pull the chromosomes in opposite directions toward the opposite poles thus allowing the daughter cells to obtain a copy of the genome
Spindle fiber is made of clusters of aggregated microtubules. The spindle fibers will form at opposite poles of a cell during the prophase in mitosis.