Section 11.1 Management Structures Chapter 11 management skills Section 11.2 Management Functions.
SECTION 11.2 Chapter 11: Introduction to Genetics.
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Transcript of SECTION 11.2 Chapter 11: Introduction to Genetics.
![Page 1: SECTION 11.2 Chapter 11: Introduction to Genetics.](https://reader035.fdocuments.us/reader035/viewer/2022062216/56649d125503460f949e5af1/html5/thumbnails/1.jpg)
SECTION 11 .2
Chapter 11: Introduction to Genetics
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Probability
Probability is the likelihood that something will happen
Example: Flipping a coinExample: Choosing the right question on a multiple choice test
Probability can be used to predict traits
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Dominant vs. Recessive
Alleles are represented by lettersDominant alleles are represented by a capital
letter R
Recessive traits are represented by a lower case letter
r
Dominant alleles are expressed over recessive alleles If you have to alleles together the dominant one will
always be expressed or “visable”Example: Height Example: Brown hair
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Key Words
Homozygous: organisms that have 2 identical alleles for a particular gene Homozygous dominant (2 dominant alleles)
RR Homozygous recessive (2 recessive alleles)
rr
Heterzgous: organisms that have 2 different alleles Have a dominant allele (written first) and a recessive
allele Rr
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Practice
Label the following as either homozygous or heterozygous EE Tt Zz YY Yy pp bb NN
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Key Words
Phenotype: physical expression of alleles, the traits, “what you see”
Genotype: genetic make-up, you cannot see it, this is the letter representation of the phenotype
YY, Ff, ff
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Phenotype: Brown Genotype
Bb
Example
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Practice
In people, brown eyes (B) are dominant to blue (b), from the following phenotypes identify possible genotypes:
BB or Bb bbBB or Bb bb
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What are your traits?
Curley (H) hair is dominant to straight (h)Widow’s peak (W) is dominant to no widow’s
peak (w)Free ear lobes (F) are dominant to attached
ear lobes (f)
Hair Widow’s Peak
Ear lobes
Phenotype Straight Yes Free
Possible Genotypes
hh WW or Ww FF or Ff
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Punnet Squares
Punnet Squares: use probability to help predict genotypes and phenotype combinations (ratios) in genetic crosses
Monohybrid Cross: examine the inheritance of only one specific trait.
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Completeing Punnet Squares
1. Start with the Parents: Find the genotype of the parents
2. Figure out the Gametes: Determine the alleles that each parent could pass on to their offspring
3. Set-up the Table: Draw the Punnet Square and place the alleles and parents on the top and the left side of the square
4. Complete the Punnet Square: Fill in the table with offspring’s possible genotypes
5. Interpret the results
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Step 1: Start with Parents
Long fins (L) in fish are dominant to short (l). You are breeding a homozygous dominant long fin male to a homozygous recessive short fin female. What are the possible genotypes of the F1 offspring?
What are the genotypes of the parents Male: LL Female: ll
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Step 2: Figure out the gametes
What alleles can the male and female possibly give to their offspring?
Male Genotype: LL Can give an L allele or an L allele
Female Genotype: ll Can give an l allele or an l allele
LL
L L
ll
l l
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Step 3: Set up the Punnet Square
L L
l
l
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Step 4: Fill in Punnet Square
L L
l
l
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Step 4: Completed Punnet Square
L L
l
lLl
LlLl
Ll
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Step 5: Interpret Results
What were the possible genotypes from the cross?
Ll (heterozygous dominant)
What are the possible phenotypes from the cross?
All offspring will have long fins
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Step 5: Interpret Results
What is the probability that the genotype will be Ll?
4/4 = 100%
What is the probability that the genotype will be ll?
0/4 = 0%
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Step 5: Interpret the Results
What is the probability that the offspring will have long fins?
4/4 = 100%
What is the probability that the offspring will have short fins
0/4=0%
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Testcross
A testcross is a cross between an organism with an unknown genotype and an organism with the recessive phenotype
If you have an organism with the dominant phenotype and you need to determine the possible genotype you can perform a test cross.
If you cross your Dominant organism with a recessive and produce recessive offspring you know the unknown organism must be heterozygous.
If no recessive offspring are produced can you be sure of the genotype of the unknown organism? NO
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Testcross Example
Cattle are either horned or polled (no horns)Horns are dominant to polledPolled cattle are worth more so want
genotypes that carry the polled alleleRanchers will test cross cattle with horns to
determine if they are heterozygous or homozygous dominant
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Questions??????