5 what is the probability of an aabbccdd progeny from a...

5. What is the probability of an AabbCCDd progeny from a cross of: AAbbCcDd x aaBbCCDd? a. 3/8 b. 1/2 c. 1/4 d. 1/8 e. 1/16 6. The following cross was made: Aa Bb Cc dd Ee x aa Bb CC Dd EE. What is the probability that a particular progeny is Aa bb Cc dd EE? Please show your work. 7. Parent 1 is of genotype AaBbCcDdEe and parent 2 is genotype aaBBCcddEe: a. What proportion of gametes from parent 1 will have all of the dominant alleles? b. What proportion of the progeny will show all of the dominant phenotypes?

Transcript

00:01 In order to answer this question, let's talk about inheritance.

00:02 It says, what is the probability of a hydrozygoyoseaseasef b, homozygousineine homozygous dominant c and heterocygous d? progeny, prong across between a homozygous dominal a, homocygousineine b, heterozygissive b, heterozygous c, heterocygous d, with a homozygousine a, hydrocygousine d.

00:25 So let's make a panaceous d.

00:26 First, for this one with this one, all of the octagon are going to be heterocygose.

00:30 So you get that 4 out of 4 are going to be heterocygos, and this is equal to 1.

00:35 So let's leave it like this.

00:37 Then for the heterozygos v with the homo -sigo -segos -b, with the homo -sigo -gicid -b, you have the following pattern square.

00:50 Heterositeaus, heterocygos, heterocygos, recessive, and homo -scygos recessive.

00:53 So, for the c, you have heterocyg therocytocs -c with homo -sigigiz dominant, homo -sigot, homo -sid, homogeneous, domine, heterocyg, and heterocygos.

01:05 Finally, you have heterocyglo -d with heteroccygos -d.

01:11 Homocygous dominant, heterocygote, heterocygous, and homocygous grecious grecious.

01:15 So, in this case, you want heterocygous a.

01:19 All of the often are going to be heterocygous a.

01:20 So you have one.

01:21 You want homozygous decisive b.

01:23 You have one and two out of four.

01:25 It means two quarters, that is the same of one half.

01:27 You want homozygous dominant c, you have one and two out of four.

01:30 It means also one half.

01:32 And you want heterocygios d, that is one and two out of four.

01:35 It means two quarters or one half.

01:37 So you just multiply all of this and you get one, this is the answer for the first question.

01:43 Then it says, the following cross was made.

01:47 You have heterocygos a, heterocylus b, heterocybo -c, homo -sigensive d, heterocygertos -e with a homo -sacoglyssive a, hetero -sigis -b, homo -sigizant c, heterocygertos -d, and homo -sagos -lominant e.

02:06 This is your cross.

02:08 And it says, what is the probability of the particular project? is heterocygios a, homocygoyb, heterosephibicicisive b, heterosephi, homozygosephs d, and homozygous laminant e, like this.

02:23 So again, this makes monocharypanel square.

02:25 The heterocygous a with the homozygoseive a is like this.

02:32 Hitrocygosis if homozygoseive and homozygousousive and then heterocygotechus b with heterocygotechus b, you have this.

02:45 Then the heterocygotechus c with the homozygousininineineineine c, homocygos -dominal and heterocycles.

02:52 The homocybo -sceive -p with a hetero -sigose -sid -coseph -cissive and homo -sigercisive.

03:01 Finally, the hetero -sigis -e with the homo -sygicis -dominal a, you have homo -sai -svents -como -sidylose -dominal and heterocygithes.

03:11 So you want heterocygirtos -a.

03:13 You have 2 out of 4, it means 1 -5.

03:16 You want a homo -sigo -ecesive -b, so you have 1 out of 4...

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