A Phenotype, physical appearance.
Mm, Ff, Gg, Ll, Ss and ect
A genotype is typically written using a combination of letters or symbols that represent the genetic makeup of an individual. For example, in humans, a genotype for blood type can be written as A, B, AB, or O based on the specific alleles inherited from each parent. Each letter represents a different form of the gene present on each pair of chromosomes.
Some examples of age discrimination in the workplace include passing over older employees for promotion opportunities in favor of younger employees, making negative comments about an employee's age, or laying off older employees while retaining younger ones to save money on salaries.
Examples of ellipsoidal joints in the human body include the wrist joint and the base of the fingers. These joints allow for movement in two planes - flexion/extension and abduction/adduction - as well as circular movements.
Some examples of imagery in "A Gathering of Old Men" include the dilapidated cabins that dot the landscape, the rich aroma of Louisiana gumbo wafting through the air, the stark contrast between the white plantation house and the run-down shacks of the black tenants, and the eerie stillness of the bayou at night.
hybrid genotype
Genetics Tt and TT are examples of genotypes, which represent the combination of alleles (T and t) that an organism carries for a particular trait. In this case, T represents the dominant allele and t represents the recessive allele. TT is a homozygous dominant genotype, while Tt is a heterozygous genotype.
A physical expression of a genotype is called a phenotype. It refers to the observable characteristics or traits of an organism resulting from the interaction of its genetic makeup (genotype) with the environment. Examples of phenotypic traits include eye color, height, and behavior.
Here are some examples of Hardy-Weinberg problems for practice: In a population of 500 individuals, 25 exhibit the recessive trait for a certain gene. What are the frequencies of the dominant and recessive alleles in the population? If the frequency of the homozygous dominant genotype in a population is 0.36, what is the frequency of the heterozygous genotype? If the frequency of the recessive allele in a population is 0.2, what is the expected frequency of individuals with the homozygous recessive genotype? These problems can help you practice applying the Hardy-Weinberg equilibrium to genetic populations.
Hardy-Weinberg problems typically involve calculating allele frequencies and genotype frequencies in a population under certain assumptions. For example, you may be asked to determine the frequency of individuals with a specific genotype, or to calculate the frequency of a particular allele in a population.
Genotype relates to the genetic makeup of an individual, and refers to all the genes on your chromosomes, whereas phenotype refers to the physical attributes that exist as a result of the genotype. Taking eye colour as an example, your phenotype will be brown eyes, and your genotype will be the two genes (one from the sperm and one from the egg). Only one of these two genes (the dominant one) will contribute toward your phenotype.
I think it's genotype...
Here are a few examples of Hardy-Weinberg practice problems for you to try: In a population of 500 individuals, 25 exhibit the recessive trait for a certain gene. What are the frequencies of the dominant and recessive alleles in the population? If the frequency of the homozygous dominant genotype in a population is 0.36, what is the frequency of the heterozygous genotype? If the frequency of the recessive allele in a population is 0.2, what percentage of the population is expected to be carriers of the recessive trait? These problems can help you practice applying the Hardy-Weinberg equilibrium to calculate allele and genotype frequencies in a population.
Phenotype is the physical Characteristic that you can see. The genotype is the genetic information (the genes) that code for the proteins that cause the phenotype. Relatively simple examples include eye, skin and hair color.
That depends on the gene: some genes have only a few alleles, some genes have hundreds or even thousands of alleles.
the genotype is BB
The answer is genotype