Genes do not always follow Mendel's principles of dominance and segregation. Some alleles show incomplete dominance where neither is fully dominant. Others show codominance where both alleles are expressed simultaneously. Multiple alleles exist for some genes with more than two variants. Polygenic traits are influenced by multiple interacting genes and show wide variety in phenotypes. Maternal inheritance and genetic imprinting also influence traits. While an organism's genotype determines traits, its phenotype is also influenced by environmental conditions interacting with its genes.
Examples of Codominance. The best example, in this case, is the codominance blood type. ABO group is considered to be a codominant blood group where both father’s and mother’s blood group is expressed. It means that the properties of the blood groups exist in the ABO type.
Codominance is a relationship between two versions of a gene. Individuals receive one version of a gene, called an allele, from each parent. If the alleles are different, the dominant allele usually will be expressed, while the effect of the other allele, called recessive, is masked.
It is a powerpoint presentation that discusses about the lesson or topic: Punnett Square. It also talks about the definition, history and the process that are included in the field of Punnett Square.
Examples of Codominance. The best example, in this case, is the codominance blood type. ABO group is considered to be a codominant blood group where both father’s and mother’s blood group is expressed. It means that the properties of the blood groups exist in the ABO type.
Codominance is a relationship between two versions of a gene. Individuals receive one version of a gene, called an allele, from each parent. If the alleles are different, the dominant allele usually will be expressed, while the effect of the other allele, called recessive, is masked.
It is a powerpoint presentation that discusses about the lesson or topic: Punnett Square. It also talks about the definition, history and the process that are included in the field of Punnett Square.
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Codominance is the situation when the effect of both genes are observed. This presentation describes how codominant traits work to determine human blood types and flower coloring .
Features of multiple alleles. The same genes have more than two alleles. All multiple alleles in homologous chromosomes occupy the respective loci. A chromosome or gamete only has one group allele. Each human contains only two separate gene alleles, one for each homologous pair of chromosomes carrying the gene.
More than two alternative alleles of a gene are known as multiple alleles in a population occupying the same locus on a chromosome or its homologue. ... Multiple alleles express various alternatives of one trait. Different alleles can exhibit codominance, dominance-recessive behaviour or incomplete dominance.
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Codominance is the situation when the effect of both genes are observed. This presentation describes how codominant traits work to determine human blood types and flower coloring .
Features of multiple alleles. The same genes have more than two alleles. All multiple alleles in homologous chromosomes occupy the respective loci. A chromosome or gamete only has one group allele. Each human contains only two separate gene alleles, one for each homologous pair of chromosomes carrying the gene.
More than two alternative alleles of a gene are known as multiple alleles in a population occupying the same locus on a chromosome or its homologue. ... Multiple alleles express various alternatives of one trait. Different alleles can exhibit codominance, dominance-recessive behaviour or incomplete dominance.
It is a powerpoint presentation that discusses about the lesson or topic: Non-Mendelian Inheritance. It also talks about the definition, history and the laws included in the Non-Mendelian Inheritance or Non-Mendelian Genetics.
These all relate to exceptions to the inheritance patterns encounter.pdfarjuncp10
These all relate to exceptions to the inheritance patterns encountered by Mendel.
Why do multiple and lethal alleles often result in modifications of the classic Mendelian
monohybrid and dihybrid ratios?
Select the four correct statements.-When an essential gene is mutated, it can result in a lethal
phenotype. There are no classic Mendelian monohybrid and dihybrid ratios.-In the case of
codominance, heterozygotes produce gene products from both alleles of a gene. Classic
Mendelian monohybrid and dihybrid ratios are modified by codominance.-In the case of
incomplete dominance, the phenotype of the heterozygote is distinct from and often intermediate
to the phenotypes of homozygous individuals. Classic Mendelian monohybrid and dihybrid
ratios are modified by incomplete dominance.-Genes exist in a large number of allelic versions
and a diploid organism has two homologous gene loci that may be occupied by different alleles
of the same gene. This can result in many different phenotypes for traits, which may not follow
typical Mendelian ratios.-When an essential gene is mutated, it can result in a lethal phenotype.
This results in a modification of classic Mendelian ratios.-The phenotype of the heterozygous
genotype is distinct from and often intermediate to the phenotypes of the homozygous
genotypes. The joint expression of both alleles in a heterozygote is called codominance. There
are no classic Mendelian monohybrid and dihybrid ratios.-Genes exist in a large number of
allelic versions, but in a diploid organism, only one allele of the gene can occupy one
homologous gene loci. Classic Mendelian inheritance cannot explain this phenomenon.-Each
gene produces a unique gene product. The effect of one allele in a heterozygote completely
masks the effect of the other. Classic Mendelian genetics cannot explain this phenomenon.
Solution
Answers:
Correct statements:
2. In the case of codominance, heterozygotes produce gene products from both alleles of a gene.
Classic Mendelian monohybrid and dihybrid ratios are modified by codominance.
(Codominance)
3. In the case of incomplete dominance, the phenotype of the heterozygote is distinct from and
often intermediate to the phenotypes of homozygous individuals. Classic Mendelian monohybrid
and dihybrid ratios are modified by incomplete dominance. (Incomplete dominance)
4. Genes exist in a large number of allelic versions and a diploid organism has two homologous
gene loci that may be occupied by different alleles of the same gene. This can result in many
different phenotypes for traits, which may not follow typical Mendelian ratios. (Multiple alleles)
5. When an essential gene is mutated, it can result in a lethal phenotype. This results in a
modification of classic Mendelian ratios. (Lethal gene).
Welcome to TechSoup New Member Orientation and Q&A (May 2024).pdfTechSoup
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June 3, 2024 Anti-Semitism Letter Sent to MIT President Kornbluth and MIT Cor...Levi Shapiro
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2. Learning Objectives
Describe examples of exceptions to Mendel’s principles.
Explain the relationship between genes and the
environment.
3. Incomplete Dominance
• Some alleles are neither dominant nor recessive.
• Incomplete dominance: One allele is not completely
dominant over another.
4. Codominance
• The phenotypes for both alleles are clearly expressed.
• Examples: chicken feather color, human protein controlling
blood cholesterol levels
5. Multiple Alleles
• Many genes exist in more than two forms.
• Examples: human blood types, fur color in rabbits
6. Polygenic Traits
• Many traits are produced by the interaction of several genes.
• Examples: eye color in fruit flies, coat color in dogs
• Traits typically show a wide variety of phenotypes.
8. Genes and the Environment
Environmental conditions can affect gene expression
and influence genetically determined traits.
The of an organism is only partly
determined by its .
phenotype
genotype
Editor's Notes
Read the lesson title aloud to students.
Point out that when Mendel examined characteristics of pea plants, he was fortunate in that the particular characteristics were each controlled by a single gene, each of which had two alleles. Tell students to think about all the different shades of hair color that humans have. Then ask if they think that hair color is controlled by just one gene. Lead students to conclude that there is likely more than one gene responsible for human hair color.
Click to reveal each objective in turn. Read the objectives aloud or have a volunteer do so.
Tell students by the end of this presentation they will understand some categories of exceptions to Mendel’s principles and will be able to describe the relationship between an organism’s genes and its environment.
Distribute the lesson worksheet. Encourage students to complete the worksheet during the presentation, making one organizer for each of the following: incomplete dominance, codominance, multiple alleles, polygenic traits.
Review with students the definitions of dominant and recessive.
Explain that four o’clock plants, whose flowers are shown here, have genes for flower color that don’t follow the strict dominance pattern that Mendel saw in different characteristics of pea plants. In four o’clock plants, the alleles for red and white flowers show incomplete dominance. Heterozygous (RW ) plants have pink flowers—a mix of red and white coloring.
Ask: Are the parent plants homozygous or heterozygous for flower color?
Answer: homozygous.
Ask: Are the offspring homozygous or heterozygous for flower color?
Answer: heterozygous
Ask: Why is there no small letter “r” or small letter “w” represented in the diagram?
Answer: Small letters represent recessive alleles, and the alleles for this flower color gene don’t show that pattern.
Ask: Could plants with pink flowers produce any offspring with red flowers?
Answer: Yes; each parent could give an “R” allele for flower color to an offspring, which would make that offspring homozygous for red flowers.
Explain that in codominance, the phenotypes produced by both alleles are clearly expressed. In some varieties of chicken, the allele for black feathers is codominant with the allele for white feathers.
Heterozygous chickens have a color described as “erminette,” speckled with black and white feathers.
Ask: How is incomplete dominance different from codominance?
Answer: In incomplete dominance, the traits are blended. In codominance, both traits are distinctly expressed.
Students are likely familiar with the concept of blood types. Ask them to identify the blood types they know. Explain that there being more than two alleles for a gene is common in a population. Make sure students understand, though, that any given individual in this population will have only two of those alleles.
Point out that in the case of human blood types, some alleles also show codominance. Tell students that the A and B alleles are codominant. A and B are each dominant over O. Explain that the Rh factor is inherited independently of the blood type alleles. Rh+ is dominant over Rh−.
Click to reveal the circle graph showing blood groups in the U.S.
Guide students in practice interpreting graphs.
Ask: Which blood type makes up the greatest percentage of the U.S. population?
Answer: O+
Ask: What percentage of the total U.S. population has a positive Rh factor? What percentage has a negative Rh factor?
Answer: 85 percent are Rh+; 15 percent are Rh−.
Ask: Which blood type can be used for transfusion into the largest percentage of individuals? Which type has the smallest percentage of possible donors available?
Answer: O− can be used for 100 percent of individuals; AB+ can be used for only 4 percent.
Ask: Could a person with O+ blood have two parents with O– blood? Could that person have a daughter with AB+ blood?
Answer: No, because both parents would be homozygous recessive for the Rh factor. They do not have any Rh+ alleles to pass on. This person could not have an AB+ daughter, because a person with O+ blood has only O alleles to pass on.
To illustrate further how a gene can exist in more than two forms, write the symbols for four alleles for rabbit coat color on the board in order from the most dominant to the least dominant: C = full color, Cch = chinchilla color, Ch = Himalayan color, c = albino (no color). Have students make up genetic crosses for coat color in rabbits. If desired, have them exchange their proposed crosses with a partner who can then use Punnett squares to solve the problems.
Define polygenic traits for students: Polygenic traits are produced by the interaction of several genes.
Ask: How are multiple alleles different from polygenic traits?
Answer: Multiple alleles refers to different forms (alleles) for a single gene. Polygenic traits refers to multiple genes influencing a single trait.
Misconception Alert: Many students think that one gene is always responsible for one trait. Explain that such a case is actually rare. Most traits—such as hair and eye color in humans—are influenced by multiple genes.
Explain that nearly 100 years ago botanists realized that some traits did not follow the patterns of inheritance described by Mendel. One example is leaf color in the morning glory (Mirabilis jalapa), which is determined solely by the color of flower tissue in the maternal parent. This phenomenon is known as maternal inheritance and results from influence of the separate DNA found in the mitochondria and chloroplasts of the mother. Point out that in humans, too, some genetic disorders result from maternal mitochondrial DNA.
Describe how genetic imprinting is seen in mice. A gene regulating body size is imprinted in a way that silences it in the next generation whenever it is carried by a female. Mice inheriting the gene from their mothers may suffer from dwarfism. However, mice inheriting the very same gene from their fathers do not.
Describe the example of the western white butterfly, Pontia Occidentalis, which is found throughout western North America. Some people noticed over the years that western whites hatching in the summer had different color patterns on their wings than those hatching in the spring. Scientific studies showed the reason: Butterflies hatching in the shorter days of springtime had greater levels of pigment in their wings, making their markings appear darker than those hatching in the longer days of summer. In other words, the environment in which the butterflies develop influences the expression of their genes for wing coloration. Point out that pictures here are of buckeye butterflies, which show a similar pattern: They are darker in the summer than in the autumn.
Explain that the characteristics of any organism—whether plant, fruit fly, or human being—are not determined solely by the genes that organism inherits. Genes provide a plan for development, but how that plan unfolds also depends on the environment.
Ask for a volunteer to fill in the blanks verbally, reading the complete sentence.
Click to reveal the correct terms.
Ask students to consider in the case of the butterflies why being darker in the autumn than in the summer be useful. Explain that in order to fly effectively, the body temperature of the butterfly must be 28°C–40°C (about 84°F–104°F). Because the spring months are cooler in the West, greater pigmentation helps them reach the body temperature needed for flight. Similarly, in the hot summer months, less pigmentation enables the moths to avoid overheating.
Point out that “environment” refers to internal factors, too. For example, both men and women can have the genes for male pattern baldness, but baldness shows up more often in men because male hormones trigger the expression of the gene.
Give students a few minutes to complete their graphic organizers following the presentation.
Then have students work with a partner to compare their organizers. Allow time to answer questions and address misconceptions.
The sketches students make to illustrate for themselves some aspect of the each concept will vary widely.
Sample Worksheet Answers:
Word: incomplete dominance
Definition in your own words: one allele not completely dominant over another
Facts/characteristics: Trait in heterozygotes is “mixture.”
Examples: four o’clock flowers (white, red, pink)
Word: codominance
Definition in your own words: phenotype for both alleles clearly expressed
Facts/characteristics: Heterozygotes show both traits distinctly.
Examples: chicken feather colors; human blood type alleles
Word: multiple alleles
Definition in your own words: some genes exist in more than one form
Facts/characteristics: Mendel looked at traits with only two alleles.
Examples: blood types
Word: polygenetic traits
Definition in your own words: a single trait controlled by more than one gene
Facts/characteristics: very common in nature; show wide variety of phenotypes
Examples: eye color in fruit flies