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Linkage Simplified Revision Notes for Leaving Cert Biology
Revision notes with simplified explanations to understand Linkage quickly and effectively.
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Linkage
Linkage occurs when two genes are located on the same chromosome.
- Any two genes which occur on the same chromosome are said to be linked.
- Linked genes are located on the same chromosome and tend to be inherited together because they do not separate during meiosis.
- These genes remain together during cell division, and the gametes receive them as a unit.
- If genes are not linked, the genotypes and phenotypes of the offspring follow the typical Mendelian ratios, e.g.
- 1:1:1:1 for heterozygous dihybrid x homozygous recessive
- 9:3:3:1 for heterozygous dihybrid x heterozygous dihybrid
- If genes are linked, the ratio of the genotypes produced will be 1:1 or 3:1 ratio.
Linked genes remain together during cell division and pass into the gametes together. They do not separate according to Mendel's Law of Independent Assortment.
Mendel's Second Law - The Law of Independent Assortment Mendel's second law states that at gamete formation, either member of a pair of factors is equally likely to recombine with either of another pair of factors.
Example (a): Linked Genes Cross
Cross: One parent is heterozygous for tall (T) and purple-flowered (P) traits, and the other parent is homozygous recessive for short (t) and white flowers (p).
Genes Are Linked:
- T is linked to P.
- t is linked to p.
Step 1: Determine the Parent Genotypes
- Parent 1: TtPp
- Parent 2: ttpp
Step 2: Identify Possible Gametes
- Parent 1 (TtPp) can only produce TP or tp (due to linkage).
- Parent 2 (ttpp) can only produce tp.
Step 3: Perform the Cross
| TP | tp | |
|---|---|---|
| tp | TtPp | ttpp |
Step 4: F1 Generation Results
- Genotypes:
- TtPp: 1 (heterozygous, tall and purple-flowered).
- ttpp: 1 (homozygous recessive, short and white-flowered).
- Phenotypes:
- Tall with purple flowers: 1
- Short with white flowers: 1
- Phenotypic Ratio: 1:1
Key Points:
- Linked genes are inherited together because they are on the same chromosome.
- They do not assort independently, violating Mendel's Second Law.
- Linked genes reduce variation in the offspring and result in altered ratios.
- In this example, the linked genes produced a 1:1 ratio, with no variation in phenotypes.
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