Codominance and Incomplete Dominance: Non-Mendelian Genetics

BOGObiology

26 Sept 201704:08

Summary

TLDRThis educational video delves into the fascinating world of genetic inheritance, focusing on co-dominance and incomplete dominance. It explains how offspring can exhibit phenotypes that are a mix of their parents' traits, rather than a direct match. Using the example of 'Dots' with different coat colors and textures, the video illustrates the concepts of complete dominance, co-dominance, and incomplete dominance. Real-life examples include the coat patterns of cows and the petal colors of flowers, highlighting the complexity of genetic expressions. The video concludes with formal definitions for each dominance pattern, enhancing viewers' understanding of non-Mendelian genetics.

Takeaways

🧬 Offspring can exhibit traits that are a mix of both parents due to gene interactions like co-dominance or incomplete dominance.
🐾 Complete dominance is when one allele masks the presence of another, resulting in the expression of only one allele in the phenotype.
🌈 Co-dominance occurs when both alleles are dominant and both traits are expressed in the phenotype, such as in the coat color of some animals.
🎨 In incomplete dominance, neither allele is completely dominant, and the phenotype is a blend of the two, like the pink color in flowers from red and white parents.
🔬 Non-Mendelian traits do not follow simple Mendelian inheritance patterns and can result in unique phenotypes in offspring.
🐄 Co-dominance in animals can be seen in cow coat colors, where red and white patches appear in a pattern known as 'roan'.
🌹 Examples of incomplete dominance in plants include flowers like tulips, roses, and carnations, where red and white parent flowers can produce pink offspring.
👨‍⚕️ In humans, blood type is an example of co-dominance, and hair texture can show incomplete dominance.
📚 The video script uses the fictional creatures 'Dots' to illustrate the concepts of dominance, helping to clarify genetic principles.
📈 The tutorial provides a clear comparison between complete dominance, co-dominance, and incomplete dominance using coat color as an example.

Q & A

What is the difference between complete dominance and non-Mendelian traits?
-Complete dominance is a Mendelian trait where one allele is dominant and masks the presence of the other allele, leading to only one allele being expressed in the phenotype. Non-Mendelian traits, however, do not follow Mendelian genetics rules, and the offspring's phenotype is a mix of both parents rather than matching either one.
What are the three types of dominance mentioned in the script?
-The three types of dominance mentioned are complete dominance, co-dominance, and incomplete dominance.
How does the phenotype of an organism with co-dominance differ from one with complete dominance?
-In co-dominance, both alleles are expressed in the phenotype, resulting in a combination of traits from both alleles. In complete dominance, only the dominant allele is expressed, and the recessive allele's effect is masked.
What is an example of co-dominance given in the script?
-An example of co-dominance in animals is the coat coloring of cows, where a red cow bred with a white cow produces offspring with both red and white patches, known as 'roan'.
How does the petal color in flowers demonstrate incomplete dominance?
-In flowers like tulips, roses, carnations, and snapdragons, crossing a red flower with a white flower results in pink offspring, which is a blend of the two parental phenotypes, demonstrating incomplete dominance.
What is the genotype of a hybrid offspring resulting from a blue dot and a yellow dot, according to the script?
-The genotype of the hybrid offspring resulting from a blue dot (CB) and a yellow dot (CY) is CB-CY.
What would be the phenotype of the hybrid offspring if coat color showed complete dominance of blue over yellow?
-If coat color showed complete dominance of blue over yellow, the phenotype of the hybrid offspring with genotype CB-CY would be blue, as only the blue allele would be expressed.
What would the phenotype be if the dots exhibited co-dominance for coat color?
-If the dots exhibited co-dominance for coat color, the phenotype of the hybrid offspring with genotype CB-CY would be a combination of blue and yellow.
How is incomplete dominance different from co-dominance?
-In incomplete dominance, neither allele is completely dominant, and the phenotype is a blend of the two parental phenotypes. In co-dominance, both alleles are dominant, and traits from both alleles are expressed together in the phenotype.
What is the formal definition of complete dominance as per the script?
-Complete dominance is when one allele is dominant and masks the presence of the other allele, resulting in only one allele being expressed in the phenotype.
What is the formal definition of co-dominance as per the script?
-Co-dominance is when both alleles are dominant, and traits from both alleles are expressed together in the phenotype.
What is the formal definition of incomplete dominance as per the script?
-Incomplete dominance is when neither allele is completely dominant, and a blend of the two alleles is expressed in the phenotype.