How does genetics use the principles of probability?
Answer
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Hint: Genetics is a branch of biology that studies genes, genetic variation, and heredity in organisms. Though heredity had been observed for millennia, Gregor Mendel, a Moravian scientist and Augustinian friar working in Brno in the nineteenth century, was the first to conduct scientific research on genetics.
Complete answer:
Mendel studied "trait inheritance," which is the pattern of how traits are passed down from parents to offspring. He discovered that organisms (pea plants) pass down traits in discrete "units of inheritance." This term, which is still in use today, is a somewhat ambiguous definition of what is known as a gene.
In the twenty-first century, trait inheritance and molecular inheritance mechanisms of genes remain primary principles of genetics, but modern genetics has expanded beyond inheritance to studying the function and behavior of genes.
Gene structure and function, variation, and distribution are studied in the context of the cell, the organism (e.g., dominance), and a population. Molecular genetics, epigenetics, and population genetics are all subfields of genetics. Organisms studied in this broad field come from all walks of life (archaea, bacteria, and eukarya).
Using a diagram called Punnett squares, we can predict the possible combinations of phenotypes in a genetic cross using the principle of probability. This diagram depicts alleles and the genetic variations that result from across.
For example, a flower has one dominant allele for blue, which is represented by a capital A, and one recessive allele for pink, which is represented by a small a. When this flower is crossed with another flowering plant with the same type of alleles, Aa, the offspring produced include AA, Aa, aA, and aa.
In this way, genetics use the principles of probability.
Note: Thousands of genes exist in organisms, and in sexually reproducing organisms, these genes generally assort independently of one another. This means that inheriting an allele for yellow or green pea color has nothing to do with inheriting an allele for white or purple flowers. This phenomenon is referred to as "Mendel's second law" or "law of independent assortment."
Complete answer:
Mendel studied "trait inheritance," which is the pattern of how traits are passed down from parents to offspring. He discovered that organisms (pea plants) pass down traits in discrete "units of inheritance." This term, which is still in use today, is a somewhat ambiguous definition of what is known as a gene.
In the twenty-first century, trait inheritance and molecular inheritance mechanisms of genes remain primary principles of genetics, but modern genetics has expanded beyond inheritance to studying the function and behavior of genes.
Gene structure and function, variation, and distribution are studied in the context of the cell, the organism (e.g., dominance), and a population. Molecular genetics, epigenetics, and population genetics are all subfields of genetics. Organisms studied in this broad field come from all walks of life (archaea, bacteria, and eukarya).
Using a diagram called Punnett squares, we can predict the possible combinations of phenotypes in a genetic cross using the principle of probability. This diagram depicts alleles and the genetic variations that result from across.
For example, a flower has one dominant allele for blue, which is represented by a capital A, and one recessive allele for pink, which is represented by a small a. When this flower is crossed with another flowering plant with the same type of alleles, Aa, the offspring produced include AA, Aa, aA, and aa.
| A | a | |
| A | AA | Aa |
| a | Aa | aa |
In this way, genetics use the principles of probability.
Note: Thousands of genes exist in organisms, and in sexually reproducing organisms, these genes generally assort independently of one another. This means that inheriting an allele for yellow or green pea color has nothing to do with inheriting an allele for white or purple flowers. This phenomenon is referred to as "Mendel's second law" or "law of independent assortment."
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