Random Events There is a random element involved

Random Events

There is a random element involved in the frequency of genes in one generation when compared to the previous generation.

Genetic Drift: a random change in the genetic makeup of a population that may arise when the population is restricted in size. “Drift” is directionless. Compare to tossing a coin. Research Randomizer: Instant Random Sampling and Random Assignment

In Florida, the greenhouse frog Eleutherodactylus planirostris occurs in two pigment patterns, mottled and striped. Why?

The theory of genetic drift was developed in the 1930 s by Sewall Wright, and is sometimes referred to as the Sewall Wright effect.

Consider a mathematical example. If two Aa frogs have only two offspring, there is a 1/16 chance of the a gene (or the A gene, for that matter) gene being lost after the first generation.

Random sampling is more effective at creating variations in small populations than in large ones. Results from the Dobzhansky experiment with Drosophila populations.

Founder effect: unique gene frequencies arising in small groups of individuals that migrate away from a large population. The chance that a founder population will be homozygous depends on the number of founders and the gene frequencies.

One type of founder effect occurs when a new population is established by a very few individuals. The most extreme case would be that in which the “founder” was a single pregnant female. Much of the genetic diversity of the parent population would be lost.

The ~300 inhabitants of Tristan da Cunha are descended from 20 or so 19 th Century immigrants.

Native Americans provide a possible example. Most North American tribes lack the gene governing type B blood. However, that gene is widespread in Mongolia, their ancestral home. The group that migrated across the Bering Strait may have been small, and lacked this gene.

Native American populations also show a high incidence of albinism. Can this also be attributed to founder effects?

Another type of founder effect occurs when a large, established population is reduced in size. The remaining individuals may not be representative of the genetic diversity that was present in the original population. This is referred to as a genetic bottleneck.

If a population passes through a “bottleneck”, the amount of genetic diversity may be greatly lowered.

The drift to homozygosity. Over time, the population must drift to become made up of the descendants of only one gene from an ancestral population. Any one gene has a 1/2 N chance of eventual fixation by random drift.

In small populations, Hardy-Weinberg equilibrium is not reached until they reach homozygosity.

Homozygosity is the result in any small population without mutation.

In human populations, religious isolates offer one of the best opportunities to witness genetic drift. The Dunkers, of eastern Pennsylvania are descended from Old German Baptist Brethren who came to the U. S. in the early 18 th century. They have remained genetically isolated by rigid marriage customs. Bentley Glass compared certain genetic traits of the Dunkers to the surrounding population, and to their parent population in Germany.

His group looked at: ABO blood groups MN blood types Rh Blood types Four external features: Ear lobes Handedness Mid-digital hair Hitch-hikers thumb

The same phenomenon can be seen in the Amish sects of Pennsylvania and Ohio.

Eight family names account for 80% of the Amish families in Lancaster County, PA.

The high degree of consanguinuity has led to a high frequency of recessive genetic disorders. Among them are Ellisvan Creveld syndrome, pyruvate kinase deficient hemolytic anemia, Hemophilia B, and Troyer syndrome (a form of muscular dystrophy).

Genetic drift is responsible for the introduction of Rh disease into China. 70 years ago, all Chinese women were Rh positive (RR). Intermarriage between immigrant Americans has introduced the Rhnegative (r) allele into the population.

Since the beginning of the slave trade some 250 years ago, there has been roughly a 20% Caucasian contribution to the African American gene pool. A specific blood group gene known as the Duffy factor is virtually absent from West African populations from which most of the original slaves were derived. Its frequency in native West Africans, African Americans, and American Caucasians has been studied.

It appears that various African American populations derive between 4% and 26% of their genes from Caucasian ancestry, introduced since ~1700.