1. How similar are the observed phenotypes in each replicate. 2. How similar are they if you pool your data from each of the five replicates? 3. Is it closer or further from your prediction?
5. Based on these results; what would you expect if you were looking at a cross of 5, 10, 20 independently sorted genes? (Just think and answer as best you can: "based on these results", think about what you'd 'expect' by interpreting this data toward more complicated crossings with more genes) Each result showed the ratio is 2:2 for each replicate with different color and shapes, so I think ...
Questions for Part 3: Dihybrid Cross: 1. How similar are the observed phenotypes in each replicate? 2. How similar are they if you pool your data from each of the five replicates?
Experiment 1: Punnett Square Crosses. Materials-Red Beads-Blue Beads-Green Beads-Yellow Beads-2 100mL Beakers. Procedure. 1. Set up and complete Punnett squares for each of the following corn crosses (remember Y = yellow and y = blue). Please use the following example of a Bb and Bb cross as a guide for filling in your Punnett squares:
Closer. The dominant alleles came out to be yellow and smooth.
All the replicates are similar with regards to their primary phenotype, that is, 'yellow, wrinkled' and 'yellow smooth'.
It is expensive to produce a hybrid plant seed because theexperimentneeds to be repeated several times before the desired characteristics are obtained.
All the replicates are similar with regards to their primary phenotype, that is, 'yellow, wrinkled' and 'yellow smooth'.
Closer. The dominant alleles came out to be yellow and smooth.