Polyploidy

Polyploidy is defined as the state of being polyploid, which means having more than two sets of chromosomes in a nucleus. It is one of the different types of ploidy, which refers to the number of sets of homologous chromosomes in the genome of a cell or an organism. Each set of chromosomes is designated by n. Below are some other types of ploidy:

Humans are diploid creatures, meaning for every chromosome in our body, there is another one to match it. However, not all cells of our body are diploid. Our somatic cells (body cells) are diploid whereas our reproductive cells (gametes) are haploid.

Polyploidy is common in plants and certain groups of fish and amphibians. It is possible for a species, particularly plant species, to produce offspring that contains more chromosomes than its parent. This can be a result of non-disjunction, where normally a diploid parent would produce diploid offspring, but in the case of non-disjunction in one of the parents, produces a polyploid.

In the case of triploids, although the creation of particular triploids in species is possible, they cannot reproduce themselves because of the inability to pair homologous chromosomes at meiosis, therefore preventing the formation of gametes.

Polyploidy is responsible for the creation of thousands of species in today’s planet and will continue to do so. It is also responsible for increasing genetic diversity and producing species showing an increase in size, vigor, and an increased resistance to disease.

Mutation Frequency

This tutorial and the previous lessons, Chromosome Mutations – I & II and Genetic Mutations, have investigated the different ways that mutations arise, and the following elaborates on the ways in which mutations are instigated.

Barring all external factors, mutations occur very rarely and are rarely expressed because many forms of mutation are expressed by a recessive allele aside from the repair mechanisms employed by the organism, e.g. DNA repair.

However, there are many mutagenic agents that artificially increase the rate of mutations in an organism. The following are some factors that increase genetic mutations in organisms:

Genetic mutations are a source of new variation in a species because it physically alters the sequence of nucleotides in a given sequence, therefore altering the genome in a unique way.

The next tutorial investigates genetic diversity in more detail, and how certain alleles (perhaps mutations) are favored over other alleles in natural selection…