The gene for hyperkalemic PP affects virtually all who inherit it, with no difference in male-vs.-female expression.
No correlation can be greater than 1.
Elements greater than 23 on the periodic table include vanadium (23), chromium (24), manganese (25), iron (26), cobalt (27), nickel (28), copper (29), zinc (30), and so on.
Greater genetic variety - which can lead to evolutionary change.
Sexual reproduction results in greater genetic diversity within a population because it involves the mixing of genetic material from two different individuals, leading to the creation of offspring with unique combinations of genes. This genetic variation increases the chances of survival and adaptation to changing environments, ultimately contributing to the overall health and resilience of the population.
Genetic recombination in bacteria allows for the exchange of genetic material between different bacterial strains, leading to increased genetic diversity and adaptability. This can help bacteria evolve and develop resistance to environmental challenges, such as antibiotics.
number of protons
Genetic drift is stronger in small populations because there are fewer individuals to pass on their genes, leading to random changes in allele frequencies that can have a greater impact on the overall genetic makeup of the population.
Yes, the process of independent assortment contributes to an increase in genetic variation by creating different combinations of alleles during meiosis, leading to a greater diversity of genetic traits in offspring.
The influence of genetic drift on allele frequencies increases as the population size decreases. In smaller populations, random fluctuations in allele frequencies due to sampling effects have a greater impact on the overall genetic composition. Additionally, genetic drift is more pronounced in isolated populations where there is limited gene flow, leading to greater changes in allele frequencies over time.
According to Biologists, DNA is more stable than RNA and therefore has a greater ability to store genetic information within the nucleus.
Yes, both sexual and asexual reproduction can lead to genetic variations. Sexual reproduction generates genetic diversity through the shuffling of genetic material from two parents, while asexual reproduction can involve mutations and genetic changes over time.
true