This is done by one of Mum's chromosomes swapping a segment of DNA with one of Dad's chromosomes. In the first prophase of meiosis (prophase I) each chromosome contains two molecules of DNA. You can see these as the two sister-chromatids of each chromosome. During this prophase, each chromosome pairs with the corresponding chromosome from the other set. In other words, the chromosome 1 from the male parent aligns itself beside chromosome 1 from the female parent, the two copies of chromosome 2 do likewise, and so on. The two copies of one chromosome are called homologous chromosomes.
Each pair of chromosomes is called a bivalent, and consists of four chromatids twisted around each other. At various points along this bivalent, two non-sister chromatids will break at the same locus (point along the DNA) and recombine, so that now a stretch of DNA from Mum has attached to a stretch from Dad, and vice versa. On average, this crossing-over happens three or four times along the length of a chromosome, so that one DNA molecule now consists of alternating segments from each parent. Because no two parents are genetically identical, the recombined DNA has a base sequence that is different from that supplied by either parent. It is like a linear mosaic. The positions of crossing-over are pretty well random, so every time meiosis takes place in one individual novel base sequences are generated.
Because pairing and recombination occur during the first meiotic prophase, .... During meiosis, errors in chromosome distribution may occur and lead to chromosomal ... This is a principal source of the difference between offspring and parents. ... this process (crossing over) is also a source of genetic variation. ...
Non-sister chromatids overlapped each other and exchanged heredity information.
During crossing over the two chromosomes of one pair exchange genetic information. In order to be viable they always have to exchange the same part.
Crossing over is the exchange of pieces of the sister chromatids of homologous chromosomes. This results in each chromosome having a combination of alleles from both parents.
water
Mistakes such as nondisjunction can occur during meiosis. This is the result of chromosomes failing to separate equally during either anaphase.
The two factors that introduce genetic variation during the process of meiosis are independent assortment and chromosomal crossover. These occur during prophase 1 and anaphase 1 of meiosis.
Crossing over or chromosomal crossover.
what happens during meiosis that results in a defect characterized by the deletion of chromosomes
It is disassembled.
prophase I
Mistakes such as nondisjunction can occur during meiosis. This is the result of chromosomes failing to separate equally during either anaphase.
nothing rally happens
The two factors that introduce genetic variation during the process of meiosis are independent assortment and chromosomal crossover. These occur during prophase 1 and anaphase 1 of meiosis.
Crossing over or chromosomal crossover.
what happens during meiosis that results in a defect characterized by the deletion of chromosomes
It is disassembled.
Tetrads form
It is disassembled.
The tetrads are pulled apart.
a trisomy
It happens during interphase of the cell cycle.