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A wild-type trihybrid soybean plant is crossed to a pure-breeding soybean plant with the recessive phenotypes...
A wild-type trihybrid soybean plant is crossed to a pure-breeding soybean plant with the recessive phenotypes pale leaf...
A wild-type trihybrid soybean plant is crossed to a pure-breeding soybean plant with the recessive phenotypes pale leaf l, oval seed (r), and short height (t). The results of the three-point test cross are shown in the table. Traits not listed are wild type. A) Place the alleles in their correct gene order. Use L, R, and T to represent dominant alleles and l, r, and t for recessive alleles. L-T-R L-R-T T-L-R B) Calculate the recombination fraction between T...
618 Short A wild-type trihybrid soybean plant Phenotype Number is crossed to a pure-breeding Pale 648...
618 Short A wild-type trihybrid soybean plant Phenotype Number is crossed to a pure-breeding Pale 648 soybean plant with the recessive Pale, oval 64 phenotypes pale leaf (!), oval seed Pale, short 10 (r), and short height (t). The results Pale, oval, short 102 of the three-point test cross are Oval shown in the table. Traits not listed Oval, short are wild-type. Wild type 98 1. True / False The phenotypes 1630 listed in the table represent the trihybrid's progeny...
please solve qs12-23 and include explanations thanks A wild-type trihybrid soybean plant Phenotype Number is crossed...
please solve qs12-23 and include explanations thanks
A wild-type trihybrid soybean plant Phenotype Number is crossed to a pure-breeding Pale 648 soybean plant with the recessive Pale, oval phenotypes pale leaf (), oval seed Pale, short 10 (r), and short height (t). The results Pale, oval, short 102 of the three-point test cross are Oval shown in the table. Traits not listed Oval, short 618 are wild-type. Short 84 Wild type 98 1. True False The phenotypes 1630 listed in...
Use the Chi^2 test to determine if l & r assort independently. Show your work. Use...
Use the Chi^2 test to determine if l & r assort
independently. Show your work.
Use the Chi^2 test to determine if l & t assort
independently. Show your work.
Use the Chi^2 test to determine if r & t assort
independently. Show your work
Number A wild-type trihybrid soybean plant Phenotype is crossed to a pure-breeding Pale soybean plant with the recessive Pale, oval phenotypes pale leaf (!), oval seed Pale, short (r), and short height (t). The results...
23. R. A. Emerson crossed two different pure breeding lines type Fl that was heterozygous for...
23. R. A. Emerson crossed two different pure breeding lines type Fl that was heterozygous for three alleles that determine recessive phenotypes. Terent pure-breeding lines of corn and obtained a phenotypically wild- anther, br, brachytic; and f, fine. He testcrossed the F1 with a tester that was homoly mine recessive phenotypes: an determines the three genes and obtained these progeny phenoty with a tester that was homozygous recessive for ained these progeny phenotypes: 355 anther: 339 brachytic, fine: 88 completely...
Name: 5. A heterozygous trihybrid com plant is test crossed and the following progeny are produced....
Name: 5. A heterozygous trihybrid com plant is test crossed and the following progeny are produced. The mutant traits-booster (b), silkless (s), liguleless (1) - are recessive to their wild-type (+) alternatives. (Hint: The wild-type alternatives (+) for each of the three mutant traits can be named B, S, and L, respectively.) (6 points) Note: This is a three point cross. Show all your work to get full credit. You will get partial credit for any work that is correct...
Three genes with recessive mutant phenotypes are located on the same chromosome in maize: short stem...
Three genes with recessive mutant phenotypes are located on the same chromosome in maize: short stem (ss), defective endosperm (de), and virescent seedling (v). A plant with all three mutant phenotypes is crossed with a true-breeding, wild-type plant. Resulting F1 plants are then backcrossed to the parental mutant line to produce the following progeny: Waxy Shrunken Virescent Number ss + + 290 + de v 282 ss de + 89 + ...
A heterozygous trihybrid corn plant is test crossed and the following progeny are oduced. The mutant...
A heterozygous trihybrid corn plant is test crossed and the following progeny are oduced. The mutant traits-booster (b), silkless (s), liguleless (1) - are recessive to er wild-type (+) alternatives. (Hint: The wild-type alternatives (+) for each of the three mutant traits can be named B, S, and L, respectively.) (6 points) Note: This is a three point cross. Show all your work to get full credit. You will get partial credit for any work that is correct even if...
A wild type plant that is heterozygous at the mangled leaf, prickly fruit, and limp stem...
A wild type plant that is heterozygous at the mangled leaf, prickly fruit, and limp stem loci is crossed with a plant that is homozygous recessive for each. The two least common phenotypes among the offspring were mangled leaves, prickly fruit, normal stem and normal leaves, normal fruit, limp stem. What is the order of the three genes? it is impossible to tell mangled leaf, limp stem, prickly fruit limp stem, mangled leaf, prickly fruit mangled leaf, prickly fruit, limp...
Three genes with recessive mutant phenotypes are located on the same chromosome in maize: waxy endosperm...
Three genes with recessive mutant phenotypes are located on the same chromosome in maize: waxy endosperm (wx), shrunken endosperm (sh), and virescent seedling (v). A plant with all three mutant phenotypes is crossed with a true-breeding, wild-type plant. Resulting F1 plants are then backcrossed to the parental mutant line to produce the following progeny: Waxy Shrunken Virescent Number wx sh + 89 + + v 92 + + + 1482 wx sh v 1475 + sh + 480 wx +...
618 Short A wild-type trihybrid soybean plant Phenotype Number is crossed to a pure-breeding Pale 648 soybean plant with the recessive Pale, oval 64 phenotypes pale leaf (!), oval seed Pale, short 10 (r), and short height (t). The results Pale, oval, short 102 of the three-point test cross are Oval shown in the table. Traits not listed Oval, short are wild-type. Wild type 98 1. True / False The phenotypes 1630 listed in the table represent the trihybrid's progeny...
please solve qs12-23 and include explanations thanks
A wild-type trihybrid soybean plant Phenotype Number is crossed to a pure-breeding Pale 648 soybean plant with the recessive Pale, oval phenotypes pale leaf (), oval seed Pale, short 10 (r), and short height (t). The results Pale, oval, short 102 of the three-point test cross are Oval shown in the table. Traits not listed Oval, short 618 are wild-type. Short 84 Wild type 98 1. True False The phenotypes 1630 listed in...
Use the Chi^2 test to determine if l & r assort
independently. Show your work.
Use the Chi^2 test to determine if l & t assort
independently. Show your work.
Use the Chi^2 test to determine if r & t assort
independently. Show your work
Number A wild-type trihybrid soybean plant Phenotype is crossed to a pure-breeding Pale soybean plant with the recessive Pale, oval phenotypes pale leaf (!), oval seed Pale, short (r), and short height (t). The results...
23. R. A. Emerson crossed two different pure breeding lines type Fl that was heterozygous for three alleles that determine recessive phenotypes. Terent pure-breeding lines of corn and obtained a phenotypically wild- anther, br, brachytic; and f, fine. He testcrossed the F1 with a tester that was homoly mine recessive phenotypes: an determines the three genes and obtained these progeny phenoty with a tester that was homozygous recessive for ained these progeny phenotypes: 355 anther: 339 brachytic, fine: 88 completely...
Name: 5. A heterozygous trihybrid com plant is test crossed and the following progeny are produced. The mutant traits-booster (b), silkless (s), liguleless (1) - are recessive to their wild-type (+) alternatives. (Hint: The wild-type alternatives (+) for each of the three mutant traits can be named B, S, and L, respectively.) (6 points) Note: This is a three point cross. Show all your work to get full credit. You will get partial credit for any work that is correct...
A heterozygous trihybrid corn plant is test crossed and the following progeny are oduced. The mutant traits-booster (b), silkless (s), liguleless (1) - are recessive to er wild-type (+) alternatives. (Hint: The wild-type alternatives (+) for each of the three mutant traits can be named B, S, and L, respectively.) (6 points) Note: This is a three point cross. Show all your work to get full credit. You will get partial credit for any work that is correct even if...
A wild type plant that is heterozygous at the mangled leaf, prickly fruit, and limp stem loci is crossed with a plant that is homozygous recessive for each. The two least common phenotypes among the offspring were mangled leaves, prickly fruit, normal stem and normal leaves, normal fruit, limp stem. What is the order of the three genes? it is impossible to tell mangled leaf, limp stem, prickly fruit limp stem, mangled leaf, prickly fruit mangled leaf, prickly fruit, limp...
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