Discover answers to your questions with Westonci.ca, the leading Q&A platform that connects you with knowledgeable experts. Get immediate and reliable solutions to your questions from a community of experienced experts on our Q&A platform. Experience the convenience of finding accurate answers to your questions from knowledgeable experts on our platform.
Sagot :
If all of the individual in a generation receives one dominant allele and one recessive allele, then they will all show the dominant trait.
If they are bred, they will pass on the dominant allele to some of their offspring and recessive allele to others.
If an offspring receives two recessive alleles, it will show the recessive trait and therefore it will reappear.
When two true-breeding or homozygous individuals for dominant and recessive traits are crossed, the resultant is always a dominant trait. The recessive character appears in the following generation when the F1 progeny is self-crossed due to independent segregation and random fusion of gametes.
Further Explanation:
Consider Mendel's experiment on a pea plant in which he used the trait of height as tall and short. On self-pollinating the tall plants, the resulting progeny were all tall while when self-pollination was done for short plants, the resultants were all short. It was found that when true-breeding short (t) plants are bred with the true breeding tall (T) plants, the offspring results in all tall plants in the F1 generation. When this progeny is self-crossed, the F2 generation results in both tall and short plants in a 3:1 ratio.
Mendel stated that the traits are controlled by genes that are present in pairs of alleles. Each parent contributes the alleles in the pair. Allele 'T' is received from a tall parent while short parent contributes to allele’t’ and they together produce a tall plant. This is because the 'T' allele suppresses the expression of’t’ allele because of its dominant nature. Therefore,’t’ is a recessive allele, and 'T' is a dominant allele.
Cross between true-breeding tall (TT) and short (tt) plant:
Parents: TT x tt
Gametes: T x t
Progeny: Tt (tall, F1 generation)
When F1 generation is self crossed:
Parents: Tt x Tt
Gametes: T, t x T, t
Progeny: TT, Tt, Tt, tt
In the F1 generation, the recessive trait (short plant) was suppressed because of the dominance of the 'T' allele over the’t’ allele. In the following generation, the recessive trait reappeared because of the independent segregation of gametes and their random association with each other.
Learn More-
- Learn more about a haploid cell during meiosis https://brainly.com/question/94813
- Learn more about how are mitosis and binary fission similar https://brainly.com/question/6462270
- Learn more about a dividing eukaryotic cell that is treated with a drug that inhibits the shortening of spindle microtubules. This will cause the cell division cycle to stop at the ____ stage. https://brainly.com/question/10767798
Answer Details:
Grade: High School
Chapter: Gene interaction
Subject: Biology
Keywords:
True-breeding, homozygous, genes, alleles, dominant, recessive, independent segregation, random fusion, gametes, progeny, F1 generation, F2 generation.
Thanks for using our service. We're always here to provide accurate and up-to-date answers to all your queries. Thanks for using our service. We're always here to provide accurate and up-to-date answers to all your queries. Thank you for using Westonci.ca. Come back for more in-depth answers to all your queries.