A genetic theory says that a cross between two pink flowering plants will produce red flowering...

A genetic theory says that a cross between two pink flowering plants will produce red flowering...

A genetic theory says that a cross between two pink flowering plants will produce red flowering plants 25% of the time. To test the theory, 100 crosses are made and 26 of them produce a red flowering plant. Is this strong evidence that the theory is wrong? Carry out the appropriate hypothesis test at the 5% significance level. The appropriate hypothesis for this test is H0: p = 0.25 vs. HA: p ≠ 0.25 H0: μ = 0.25 vs. HA:...

A theory in genetics states that crossing two pink flowering plants will produce red flowering plants...

A theory in genetics states that crossing two pink flowering plants will produce red flowering plants 25% of the time. To test this theory, 100 crosses are made and 32 of them produce a red flowering plant. Carry out a hypothesis test to determine if there is strong statistical evidence to support this theory. What is the p-value?

A cross between two plants yield progeny in the proportion red-flowered 1 pink-flowered 2 white-flowered 1...

A cross between two plants yield progeny in the proportion red-flowered 1 pink-flowered 2 white-flowered 1 What is the genotype of the parents? What is the phenotype of the parents?

1. In the snapdragon (Antirrhinum majus), individual plants can be red flowered, pink flowered, or white...

1. In the snapdragon (Antirrhinum majus), individual plants can be red flowered, pink flowered, or white flowered. According to a certain Mendelian genetic model, self-pollination of pink-flowered plants should produce progeny that are red, pink, and white in the ratio 1:2:1. A genetic self-pollinated pink-flowered snapdragon plants and produced 234 progeny with the following colors: Type Red Pink White Number 54 (58.5) 122 (117.0) 58 (58.5) Test the null hypothesis that the three colors occur with probabilities ¼, ½, and...

According to genetic theory, the blossom color in the second generation of a certain cross of...

According to genetic theory, the blossom color in the second generation of a certain cross of sweet peas should be red or white in a 3:1 ratio. That is, each plant has probability 3/4 of having red blossoms, and the blossom colors of separate plants are independent. a. What is the probability that exactly three out of four of these plants have red blossoms? b. What is the mean number of red-blossomed plants when 60 plants of this type are...

1) In peas, yellow seeds are dominant over green seeds. In a cross between two plants...

1) In peas, yellow seeds are dominant over green seeds. In a cross between two plants that are heterozygous for these traits, you observed: Yellow: 4400 Green: 1624 What is your chi square value for these data? a) 12.3 b) 6 c) 10.4 d) 14.1 2) In peas, yellow seed are dominant over green seeds.In a cross between two plants that are heterozygous for these traits, you observed: Yellow: 4400 Green: 1624 Do you accept or reject your null hypothesis?...

A genetic model suggests that 80% of plants grown from a cross between two given strains...

A genetic model suggests that 80% of plants grown from a cross between two given strains of seeds will be of the dwarf variety. After breeding 206 of these plants, 154 were observed to be of the dwarf variety. Do these data strongly contradict the genetic model? Find the p-value.

Cross 1 Progeny: 38 two-lobed, red 18 two-lobed, yellow 38 multilobed, red 18 multilobed, yellow Cross...

Cross 1 Progeny: 38 two-lobed, red 18 two-lobed, yellow 38 multilobed, red 18 multilobed, yellow Cross 2 Progeny: 14 two-lobed, red 14 two-lobed, yellow 14 multilobed, red 14 multilobed, yellow In tomato plants, the production of red fruit color is under the control of an allele R. Yellow tomatoes are rr. The dominant phenotype for fruit shape is under the control of an allele T, which produces two lobes. Multilobed fruit, the recessive phenotype, have the genotype tt. Two different...

One common application for the chi-square test is a genetic cross. In this case, the statistical...

One common application for the chi-square test is a genetic cross. In this case, the statistical null hypothesis is that the observed results from the cross are the same as those expected, for example, the 3:1 ratio or 1:2:1 ratio for a Mendelian trait. Dr. William Cresko, a researcher at the University of Oregon, conducted several crosses between marine stickleback fish and freshwater stickleback fish. All marine stickleback fish have spines that protrude from the pelvis, which presumably serve as...

In a typical Mendelian cross (i.e. independent assortment of the genes is expected) between two heterozygous...

In a typical Mendelian cross (i.e. independent assortment of the genes is expected) between two heterozygous plants (Rr x Rr) We obtain the following results. RR=360, Rr=480 and rr= 160 Draw your own table, calculate your allele frequencies, genotype frequencies (observed and expected) and use your observed and expected counts to find X2. What will be the degree of freedom? Do we accept or reject the null hypothesis of HWE?