Here is a step-by-step guide: That’s it! But let’s go a step further--how many of these plants are heterozygous tall (Tt
Posted: Wed Jul 06, 2022 10:22 am
Here is a step-by-step guide:
That’s it! But let’s go a step further--how many of these plantsare heterozygous tall (Tt) if the population is inHardy-Weinberg equilibrium?
4. Calculate 2pq =2 ×× 0.4 ×× 0.6 = 0.48, or 48%. Since there are100 plants, 48 are heterozygous tall.
Suppose that green seeds (G) are dominant to yellowseeds (g) in peas. In a population of 500 individuals, 25%show the recessive phenotype. How many individuals would you expectto be homozygous dominant for this trait if the population is inHardy-Weinberg equilibrium?
How many Individuals?
That’s it! But let’s go a step further--how many of these plantsare heterozygous tall (Tt) if the population is inHardy-Weinberg equilibrium?
4. Calculate 2pq =2 ×× 0.4 ×× 0.6 = 0.48, or 48%. Since there are100 plants, 48 are heterozygous tall.
Suppose that green seeds (G) are dominant to yellowseeds (g) in peas. In a population of 500 individuals, 25%show the recessive phenotype. How many individuals would you expectto be homozygous dominant for this trait if the population is inHardy-Weinberg equilibrium?
How many Individuals?