Meiosis allows a cell to form into 4 cells (by meiosis 1 (which is literally mitosis) and meiosis 2 (mitosis without DNA replication))
in meiosis 1, the cells exchanges DNA information between homologous pairs, this allows genes to be transferred and creates 4 unique and distinct cells.
segragation of alleles occur too.
The relationship between allele and meiosis is the allele of a gene separate from each other when sex cells are formed during meiosis
during meiosis each gamet gets only half chromosomes of the body cells
when genes cross over during meiosis, then split they from genes that differ.
Meiosis is when the male gene and the female gene combine chromosomes to make a child or offspring. This increases the diversity of genes in an individual, and allows that diversity to spread through the population, thus effecting evolution.
this is where the genes are mixed up, and it allows genes to be exchanged across chromosomes and randomizes the assortment of chromosomes to the offspring.
Meiosis I and meiosis II
Genetic linkage is the tendency of genes that are located proximal to each other on a chromosome to be inherited together during meiosis. Genes whose loci are nearer to each other are less likely to be separated onto different chromatids during chromosomal crossover, and are therefore said to be genetically linked.
Genes are not made by meiosis. Genes are sequences of DNA found on the chromosomes.
Well genes are genes so its ind of obious the question
The results of meiosis in plants and fungi is the formation of genes
The more space there is between two genes on the same chromosome, the more likely it is that crossing over will take place between those two genes. Thus, by studying lots of examples of meiosis with crossing over, it is possible to make a map of the chromosome, with the genes (and the relative distances between them) laid out along it.
The more space there is between two genes on the same chromosome, the more likely it is that crossing over will take place between those two genes. Thus, by studying lots of examples of meiosis with crossing over, it is possible to make a map of the chromosome, with the genes (and the relative distances between them) laid out along it.
The more space there is between two genes on the same chromosome, the more likely it is that crossing over will take place between those two genes. Thus, by studying lots of examples of meiosis with crossing over, it is possible to make a map of the chromosome, with the genes (and the relative distances between them) laid out along it.
The more space there is between two genes on the same chromosome, the more likely it is that crossing over will take place between those two genes. Thus, by studying lots of examples of meiosis with crossing over, it is possible to make a map of the chromosome, with the genes (and the relative distances between them) laid out along it.
Sturtevant's hypothesis was that the frequency of cross-overs during meiosis was related to the distance between genes
Badly
Traits are another name for genes. These are located on various areas of chromosomes. During meiosis, the chromosomes which are duplicated, are formed into gametes (ova or sperm). Those two combine into a new individual with entirely different mixture of traits.
Genetic recombination occurs during meiosis cell division. As genes cross over during this process, scientists track the genes to study their linkage.
To mix up the genes to promote genetic diversity