<h2>Frequency-Dependent Selection</h2>
Explanation:
- Frequency-dependent selection can be determined in a variety of ways, which are not different, yet all convey the feeling that the wellness of a phenotype or genotype changes with the phenotypic or genotypic structure of the population. Such determination can promptly keep up phenotypic variety and hereditary variety at a solitary locus. The support of polygenic variety with recurrence subordinate determination are to some degree more prohibitive than in the single locus case
- Utilizing a recreation model, Mani et al. (1990) investigated the consolidated impact of change, balancing out ward choice, and recurrence subordinate determination on a hereditary framework in which there are n (≤12) loci, each with up to 32 alleles that demonstration additively, the i allele contributing an amount I to the genotypic variation
- Hence, the right answer for the fill up the blanks is "Frequency-Dependent Selection"
Answer:
The involvement of more than two genes.
Explanation:
The polygenic characteristics have many phenotypes because more than two genes governs the phenotype of individual organism. The single gene contains a pair of alleles that codes for two phenotype and two genes will code for 4 phenotype. Thus, more than two genes for example, three genes will have six phenotypes.
The skin color and height are polygenic characterstics in humans.
The three major islands are Japan, Indonesia and New Zealand.
Answer:
A: Myelin sheath
Explanation:
Myelin sheath swiftly transmits electrical impulses along nerve cells.
Answer:
Plasmids
Explanation:
The cellular components are important in the production of the protein luciferase. The protein is produced by the reaction in the silk worms and the fireflies. In addition, the protein in addition, the correct sequencing is essential in the coding of the protein. The concentration of the protein in the cytoplasm makes the control of the production of the protein feasible under feasible conditions.
