Mendelian Genetics: Key Concepts

1. Watch this video

2. Study this summary

Gregor Mendel, an Austrian monk who lived in the 1800s, is considered to be the father of modern genetics. In his honor, the we refer to these basic principles as Mendelian genetics.

Genes and Alleles:

  • Genes are the basic units of heredity, made of DNA sequences that code for proteins, which determine traits.
  • Alleles are alternative versions of a gene, which may vary in their DNA sequence and result in different traits.
  • Recipe analogy: If a gene were a recipe for a specific dish (like tomato sauce), then an allele would be a specific version of that recipe. You might inherit one from your mother (which has a lot of garlic in the sauce) while the recipe you inherit from your father might emphasize the basil.

Dominant vs. Recessive Alleles:

  • Dominant alleles are always expressed in the phenotype. In the Mendelian notation system, they’re represented by capital letters (e.g., A).
  • Recessive alleles only show their effect when an individual is homozygous recessive. They’re represented by lowercase letters (e.g., lowercase letter a).

Homozygotes and  Heterozygotes

  • Homozygote: An individual who has two identical alleles for a gene.
    • Examples: AA (homozygous dominant) or aa (homozygous recessive).
    • Homozygous dominant individuals express the dominant phenotype, while homozygous recessive individuals express the recessive phenotype.
  • Heterozygote: An individual who has two different alleles for a gene (e.g., Aa).
    • In heterozygotes, the dominant allele is expressed in the phenotype, masking the effect of the recessive allele.
    • In the case of diseases such as sickle cell anemia or cystic fibrosis, heterozygotes are also called carriers. That’s because they carry the defective allele in their genes and can pass it on to their offspring.

Mendel’s Principle of Segregation:

  • Every individual has two alleles for each gene, located on homologous chromosome pairs (something Mendel didn’t know, but you do).
  • These alleles separate during gamete formation (meiosis), so each gamete contains only one allele.

Genotype and Phenotype:

  • Genotype refers to the genetic makeup (e.g., BB, Bb, bb).
  • Phenotype refers to observable traits (e.g., eye color).
  • Example: A person with brown eyes (dominant phenotype) but a heterozygous genotype (Bb) can have blue-eyed children if their partner is homozygous recessive (bb). Note: eye color inheritance is somewhat more complicated.

Monohybrid Crosses:

  • A monohybrid cross involves two heterozygous individuals (e.g., Pp x Pp).
  • Using a Punnett square, the resulting phenotypic ratio of offspring is 3:1 (dominant:recessive).
  • Genotypic ratios are 1:2:1: (1 homozygous dominant: 2 heterozygous:1 homozygous recessive).

3. Master these flashcards

[qdeck qrecord_id=”sciencemusicvideosMeister1961-Mendelian Genetics, Basic Concepts (APBVP)”]
[h]Mendelian Genetics, Basic Concepts
[q]What are genes?
[a]Genes are the basic units of heredity, consisting of DNA sequences that code for proteins and determine traits.

[q]What are alleles?
[a]Alleles are alternative versions of a gene, differing in DNA sequence and potentially resulting in different traits.

[q]What is Mendel’s principle of segregation?
[a]Every individual has two alleles for each gene, and these alleles separate during gamete formation (meiosis), ensuring each gamete contains only one allele.

[q]Compare and contrast homozygous vs. heterozygous
[a]Homozygous means having two identical alleles for a gene (e.g., AA or aa). Heterozygous means having two different alleles for a gene (e.g., Aa).

[q]Compare dominant vs. recessive alleles

[a]A dominant allele is expressed in the phenotype if present, even when paired with a recessive allele (e.g., A). A recessive allele is only expressed in the phenotype when the individual is homozygous recessive (e.g., aa).

[q]Compare genotype and phenotype

[a]A genotype is an organism’s genetic makeup, describing its allele combinations (e.g., AA, Aa, or aa). A phenotype is an organism’s observable traits, such as eye color.

[q]What is a monohybrid cross?
[a]A monohybrid cross is a genetic cross between two heterozygous individuals (e.g., Aa x Aa), examining inheritance of a single trait.

[q]What does a Punnett square show for a monohybrid cross?
[a]It shows a phenotypic ratio of 3:1 (dominant:recessive) and a genotypic ratio of 1:2:1 (homozygous dominant:heterozygous:homozygous recessive).

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[/qdeck]

4. Tackle these quizzes

4.1 Genetics Vocabulary Check

[qwiz qrecord_id=”sciencemusicvideosMeister1961-Genetics Vocabulary, APBVP Check, “]

[h]Genetics Vocabulary Check

[q]The founder of genetics was an Austrian monk named Gregor [hangman]. In his honor, the basic principles of genetics are referred to as [hangman] genetics.

[c]TWVuZGVs[Qq]

[c]TWVuZGVsaWFu[Qq]

[q] An allele that always shows up in the offspring is a(n) [hangman] allele.

[c]ZG9taW5hbnQ=[Qq]

[q] An alternative form of a gene is called a(n) [hangman].

[c]YWxsZWxl[Qq]

[q]A(n) [hangman] allele will only influence the offspring’s phenotype if the offspring inherits two copies of that allele.

[c]cmVjZXNzaXZl[Qq]

[q] An organism that has two identical alleles for a particular gene is known as a(n) [hangman].

[c]aG9tb3p5Z290ZQ==[Qq]

[q] An organism that has two different alleles for a particular gene is known as a(n) [hangman].

[c]aGV0ZXJvenlnb3Rl[Qq]

[q]Another term for a heterozygote refers to the fact that they possess the allele, don’t display the trait, and can pass it on to the next generation. That term is [hangman].

[c]Y2Fycmllcg==[Qq]

[q] A unit of heredity that is passed from parent to offspring is known as a(n) [hangman].

[c]Z2VuZQ==[Qq]

[q] The chance that a heterozygote parent will pass on a recessive or a dominant allele is one in [hangman] (write out the number).

[c]dHdv[Qq]

[q] The chance that the offspring of two heterozygotes will inherit two recessive alleles is one in [hangman](write out the number).

[c]Zm91cg==[Qq]

[q] Your underlying genes make up your [hangman]. Your appearance is your [hangman].

[c]Z2Vub3R5cGU=[Qq]

[c]cGhlbm90eXBl[Qq]

[q]A person with a genotype that would be symbolized as Aa or Cc is

[c]aG9tb3p5Z291cyBkb21pbmFudA==[Qq]

[f]Tm8uIEhvbW96eWdvdXMgbWVhbnMgdGhlIHR3byBhbGxlbGVzIGFyZSB0aGUgc2FtZS4gSW4gdGhpcyBjYXNlLCB0aGUgdHdvIGFsbGVsZXMgYXJlIGRpZmZlcmVudC4gQSBob21venlnb3VzIGRvbWluYW50IGdlbm90eXBlIGxvb2tzIGxpa2UgdGhpczogU1MsIEFBLCBHRywgZXRjLiBBbHdheXMgdHdvIHVwcGVyY2FzZSBsZXR0ZXJzLg==[Qq]

[c]aGV0ZXJvenlnb3VzIC hhbmQgZG9taW5hbnQp[Qq]

[f]TmljZS4gQ2Mgb3IgQWEgZ2Vub3R5cGVzIGFyZSBoZXRlcm96eWdvdXMgKGFuZCBoZXRlcm96eWdvdGVzIGFsd2F5cyBkaXNwbGF5IHRoZSBkb21pbmFudCB0cmFpdCwgd2hpY2ggaXMgd2h5ICYjODIyMDtkb21pbmFudCYjODIyMTsgaXMgaW4gcGFyZW50aGVzaXMu[Qq]

[c]aGV0ZXJvenlnb3VzIChhbmQgcmVjZXNzaXZlKQ==[Qq]

[f]Tm8uIElmIHlvdSYjODIxNztyZSBoZXRlcm96eWdvdXMsIHlvdSYjODIxNztsbCBkaXNwbGF5IHRoZSBkb21pbmFudCB0cmFpdC4gWW91IGNhbiYjODIxNzt0IGJlICYjODIyMDtoZXRlcm96eWdvdXMgcmVjZXNzaXZlLiYjODIyMTs=[Qq]

[c]aG9tb3p5Z291cyByZWNlc3NpdmU=[Qq]

[f]Tm8uIEhvbW96eWdvdXMgcmVjZXNzaXZlIHBoZW5vdHlwZXMgbG9vayBsaWtlIHRoaXM6IGNjLCBzcywgYWEsIGV0Yy4gQWx3YXlzIHR3byBsb3dlcmNhc2UgbGV0dGVycy4=[Qq]

[q]A person with a genotype that would be symbolized as aa or cc is

[c]aG9tb3p5Z291cyBkb21pbmFudA==[Qq]

[f]Tm8uIEEgZG9taW5hbnQgZ2Vub3R5cGUgYWx3YXlzIGhhcyBhbiB1cHBlcmNhc2UgbGV0dGVyLiBBIGhvbW96eWdvdXMgZG9taW5hbnQgZ2Vub3R5cGUgbG9va3MgbGlrZSB0aGlzOiBTUywgQUEsIEdHLCBldGMu[Qq]

[c]aGV0ZXJvenlnb3VzIChhbmQgZG9taW5hbnQp[Qq]

[f]Tm8uwqAgSGV0ZXJvenlnb3VzIG1lYW5zIHRoYXQgdGhlIHR3byBhbGxlbGVzIGFyZSBkaWZmZXJlbnQuIEZvciBleGFtcGxlLCAmIzgyMjA7QWEmIzgyMjE7IGlzIGEgaGV0ZXJvenlnb3VzIGdlbm90eXBlLg==[Qq]

[c]aGV0ZXJvenlnb3VzIChhbmQgcmVjZXNzaXZlKQ==[Qq]

[f]Tm8uIEhldGVyb3p5Z291cyBtZWFucyB0aGF0IHRoZSB0d28gYWxsZWxlcyBhcmUgZGlmZmVyZW50LiBGb3IgZXhhbXBsZSwgJiM4MjIwO0FhJiM4MjIxOyBpcyBhIGhldGVyb3p5Z291cyBnZW5vdHlwZS4gQWxzbywgeW91IGNhbiYjODIxNzt0IGJlIGhldGVyb3p5Z291cyBhbmQgcmVjZXNzaXZlLiBIZXRlcm96eWdvdGVzIGFsd2F5cyBkaXNwbGF5IHRoZSBkb21pbmFudCB0cmFpdC4=[Qq]

[c]aG9tb3p5Z291cy ByZWNlc3NpdmU=[Qq]

[f]V2F5IHRvIGdvLiBIb21venlnb3VzIHJlY2Vzc2l2ZSBwaGVub3R5cGVzIGFsd2F5cyBoYXZlIHR3byBsb3dlcmNhc2UgbGV0dGVycy4=[Qq]

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[/qwiz]

4.2. Understanding Cystic Fibrosis

Cystic fibrosis is the most common genetic disease among North Americans of European descent. Complete the interactive reading/quiz below to learn about this disease and to consolidate your understanding of basic genetics concepts.

[qwiz qrecord_id=”sciencemusicvideosMeister1961-Cystic Fibrosis, APBVP”]

[h]Cystic Fibrosis, Interactive Reading

[i]

Symptoms of cystic fibrosis

[q labels=”top”]

Cystic fibrosis is caused by a defect in a protein found in cell membranes. The _______ for this protein is found on chromosome 7. That makes the gene an ____________ gene (because it’s not on the X or Y chromosome).

If you inherit a working ________ (version) of this gene, you’ll be fine, even if you inherit one defective allele. That’s because the disease-causing allele is ___________. If you inherit the working, ____________ allele, then this allele will be translated into the working membrane protein. Your cells will function as they should, and there’ll be no build-up of the sticky mucus that underlies the disease.

[l]allele

[fx] No, that’s not correct. Please try again.

[f*] Good!

[l]autosomal

[fx] No, that’s not correct. Please try again.

[f*] Good!

[l]dominant

[fx] No, that’s not correct. Please try again.

[f*] Great!

[l]gene

[fx] No. Please try again.

[f*] Great!

[l]genotypes

[fx] No. Please try again.

[f*] Great!

[l]homozygous

[fx] No, that’s not correct. Please try again.

[f*] Great!

[l]heterozygous

[fx] No. Please try again.

[f*] Good!

[l]phenotype

[fx] No. Please try again.

[f*] Excellent!

[l]recessive

[fx] No. Please try again.

[f*] Excellent!

[q labels=”top”]

You can only have the disease if you inherit two defective alleles. Another way to say this is that to have cystic fibrosis, you have to be ______________ for the cystic fibrosis allele. Being homozygous means that you’ll have two copies of the allele. People who are _______________, with one dominant allele and one recessive allele, don’t get the disease. They have a normal ____________ (no sticky mucus).

[l]allele

[fx] No, that’s not correct. Please try again.

[f*] Good!

[l]autosomal

[fx] No, that’s not correct. Please try again.

[f*] Good!

[l]dominant

[fx] No, that’s not correct. Please try again.

[f*] Great!

[l]gene

[fx] No. Please try again.

[f*] Great!

[l]genotypes

[fx] No. Please try again.

[f*] Great!

[l]homozygous

[fx] No, that’s not correct. Please try again.

[f*] Great!

[l]heterozygous

[fx] No. Please try again.

[f*] Good!

[l]phenotype

[fx] No. Please try again.

[f*] Excellent!

[l]recessive

[fx] No. Please try again.

[f*] Excellent!

[q labels=”top”]

If we use C to represent the normal allele and c to represent the cystic fibrosis allele, then we have three ____________:

  • _______________ dominant: CC
  • ________________: Cc
  • homozygous ___________: cc

[l]allele

[fx] No, that’s not correct. Please try again.

[f*] Good!

[l]autosomal

[fx] No, that’s not correct. Please try again.

[f*] Good!

[l]dominant

[fx] No, that’s not correct. Please try again.

[f*] Great!

[l]gene

[fx] No. Please try again.

[f*] Great!

[l]genotypes

[fx] No. Please try again.

[f*] Great!

[l]homozygous

[fx] No, that’s not correct. Please try again.

[f*] Great!

[l]heterozygous

[fx] No. Please try again.

[f*] Good!

[l]phenotype

[fx] No. Please try again.

[f*] Excellent!

[l]recessive

[fx] No. Please try again.

[f*] Excellent!

[q]Just to check your understanding. Cystic fibrosis is an autosomal [hangman] condition. That means you’ll only have the phenotype if you inherit [hangman] copies of the allele.

[c]cmVjZXNzaXZl[Qq]

[c]dHdv[Qq]

[/qwiz]

4.3. Guided Punnett Squares

Being able to solve genetics problems is an important AP Bio skill. The exercise below will show you how to complete a basic Punnett square

[qwiz qrecord_id=”sciencemusicvideosMeister1961-Guided Punnett Square: Autosomal inheritance, APBVP”]

[h]Guided Punnett Square: Autosomal inheritance

[q] In peas, the tall allele (T) is dominant to the short allele (t). Cross a plant that is homozygous tall with a plant that is heterozygous tall.

Step 1: Determine the genotypes of the parents

Parent 1) Homozygous tall: ___ ___

Parent 2) Heterozygous tall: ___ ___

Steps 2 through 4: Complete your Punnett square. Note that for this quiz, you have to place the alleles of the gametes of the 1st parent to the left of the Punnett square, and put the alleles of the second parent’s gametes on top. On paper, you could do it in either order.

 

Parent 2
       __    __
 Parent 1 __ ___ ___ ___ ___
__ ___ ___ ___ ___

 

Step 5: Genotype ratio: _____ TT: ____Tt: ____tt

Step 6: Phenotype ratio: _____ Tall: ______Short

 

[l]T

[fx] No, that’s not correct. Please try again.

[f*] Excellent!

[l]t

[fx] No. Please try again.

[f*] Great!

[l]0%

[fx] No, that’s not correct. Please try again.

[f*] Good!

[l]25%

[fx] No, that’s not correct. Please try again.

[f*] Correct!

[l]50%

[fx] No, that’s not correct. Please try again.

[f*] Good!

[l]75%

[fx] No, that’s not correct. Please try again.

[f*] Correct!

[l]100%

[fx] No. Please try again.

[f*] Great!

 

[q]In peas, the gene for purple flowers (P) is dominant to the gene for white flowers (p). What will happen if a plant homozygous for purple flowers is crossed with a plant homozygous for white flowers?

Step 1: Determine the genotypes of the parents

Parent 1) Homozygous purple flowers: ___ ___
Parent 2) Homozygous white flowers: ___ ___

Step 2: Draw the Punnett square (already done below)

Step 3: Place the alleles of the gametes that the 1st parent can make to the left of the Punnett square. Put the alleles that the 2nd parent can make on top. (note: these required positions (left and top) are solely so that this quiz program will work. On paper, you can put them in either position.

Step 4: Move the gametes to the right or downward into the square, simulating fertilization and zygote formation.

Parent 2
 __  __
 Parent 1   __ ___ ___ ___ ___
__ ___ ___ ___ ___

Step 5: Genotype ratio: ______ PP: _____Pp: _____pp

Step 6: Phenotype ratio: ______ Purple-flowered, _____white-flowered

[l]P

[fx] No. Please try again.

[f*] Excellent!

[l]p

[fx] No, that’s not correct. Please try again.

[f*] Correct!

[l]0%

[fx] No. Please try again.

[f*] Correct!

[l]25%

[fx] No. Please try again.

[f*] Good!

[l]75%

[fx] No. Please try again.

[f*] Great!

[l]100%

[fx] No, that’s not correct. Please try again.

[f*] Correct!

[q]In peas, the gene for tall (T) is dominant to the gene for short (t). What genotypes and phenotypes will result in the offspring if two heterozygous plants are crossed with each other?

Step 1: Determine the genotypes of the parents

Parent 1) Heterozygous tall: ___ ___
Parent 2) Heterozygous tall: ___ ___

Step 2: Draw the Punnett square (I did that one for you)

Step 3: Place the alleles of the gametes that the 1st parent can make to the left of the Punnett square. Put the alleles that the 2nd parent can make on top. (note: these required positions (left and top) are solely so that this quiz program will work. On paper, you can put them in either position).

Step 4: Move the gametes to the right or downward into the square, simulating fertilization and zygote formation.

Parent 2
     __  __
 Parent 1  __ ___ ___ ___ ___
__ ___ ___ ___ ___

Step 5: Genotype ratio: ______ TT: _____Tt: _____tt

Step 6: Phenotype ratio:

______ Tall, ______medium, ______ short

[l]T

[fx] No. Please try again.

[f*] Great!

[l]t

[fx] No, that’s not correct. Please try again.

[f*] Great!

[l]0%

[fx] No, that’s not correct. Please try again.

[f*] Excellent!

[l]25%

[fx] No. Please try again.

[f*] Excellent!

[l]50%

[fx] No, that’s not correct. Please try again.

[f*] Excellent!

[l]75%

[fx] No. Please try again.

[f*] Correct!

[l]100%

[fx] No. Please try again.

[f*] Great!

[/qwiz]

What’s Next?

Proceed to the next tutorial: Dihybrid Crosses