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In this diagram of a duplicated chromosome, (2) identifies the centromere—the region that joins the two sister chromatids, or each half of the chromosome. In prophase of mitosis, specialized regions on centromeres called kinetochores attach chromosomes to spindle fibers. The centromere links a pair of sister chromatids together during cell ...
Since the centrosome organizes the microtubules of a cell, it has to do with the formation of the mitotic spindle, polarity and, therefore, cell shape, as well as all other processes having to do with the mitotic spindle. [2] The centriole is the inner core of the centrosome, and its conformation is typically somewhat like that of spokes on a ...
Usually, structural aberrations appear due to uncontrolled expression of centrosome components, or due to post-translational modifications (such as phosphorylations) that are not adequate for the components. These modifications may produce variations in centrosome size (usually too large, due to an excess of pericentriolar material).
Moreover, it was also found that neocentromeres form on both transcriptionally active and inactive loci, [29] challenging the widely accepted notion that centromeres do not appear on coding regions of the chromosome. This leads to questions of how neocentromeres may disrupt transcription and expression of those genes.
The largest regions on each chromosome are the short arm p and the long arm q, separated by a narrow region near the center called the centromere. [1] Other specific regions have also been defined, some of which are similarly found on every chromosome, while others are only present in certain chromosomes. Named regions include: Arms (p and q ...
During cell division, the identical copies (called a "sister chromatid pair") are joined at the region called the centromere (2). Once the paired sister chromatids have separated from one another (in the anaphase of mitosis) each is known as a daughter chromosome. The short arm of the right chromatid (3), and the long arm of the right chromatid ...
In contrast, less condensed chromatin (Euchromatin)—which tends to be rich with guanine and cytosine and more transcriptionally active—incorporates less Giemsa stain, and these regions appear as light bands in G-banding. [3] The pattern of bands are numbered on each arm of the chromosome from the centromere to the telomere.
Centromere placement on the chromosome can be characterized by four main arrangements, either metacentric, submetacentric, acrocentric, or telocentric. Both of these properties (i.e., the length of chromosomal arms, and the placement of the chromosomal centromere) are the main factors for creating structural homology between chromosomes.