Can Alleles Be Swapped Without Changing Inherited Traits?

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Discussion Overview

The discussion revolves around the concept of allele swapping and its potential impact on inherited traits. Participants explore whether equivalent alleles from different donors would result in identical inherited characteristics or if there could be subtle differences due to genetic variations or other factors.

Discussion Character

  • Exploratory
  • Conceptual clarification
  • Debate/contested

Main Points Raised

  • One participant proposes a thought experiment about swapping alleles responsible for inherited characteristics and questions if such swaps would lead to any changes in those traits.
  • Another participant asserts that if alleles are equivalent, they are the same by definition, seeking clarification on the original question.
  • A follow-up question is raised about whether two individuals with identical genetic makeups but different ancestral backgrounds would exhibit any differences in inherited characteristics.
  • One participant notes that mutations and variations in genes can affect phenotypes, suggesting that the outcome of allele swaps may depend on the specific genes and their functions.
  • Another participant introduces the concept of epigenetics, explaining that identical DNA sequences may not solely determine gene expression, leading to potential phenotypic differences despite genetic similarity.
  • A participant expresses interest in the topic, indicating engagement with the discussion.

Areas of Agreement / Disagreement

Participants express varying viewpoints on the implications of allele swapping, with some suggesting that genetic variations and epigenetic factors could lead to differences in traits, while others focus on the definition of equivalence in alleles. The discussion remains unresolved with multiple competing views presented.

Contextual Notes

The discussion touches on complex biological concepts such as genetic mutations, epigenetics, and the stochastic nature of gene expression, which may introduce limitations in understanding the full implications of allele swapping.

Dadface
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The following thought experiment popped into my head when I was driving from the shop;

Consider one set of alleles which is responsible for one of your inherited characteristics.Now suppose that we could swap that set ,without damage or interference,with equivalent sets from one or a multiple number of donors.Are those alleles exactly identical and would there be any change,no matter how slight, to the original characteristic?Expressing this another way, are the genes that you have exclusive to you?
Loads of other related questions spring to mind but I shall leave it here.:confused:
 
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If they are equivalent, then they are the same, by definition. I'm not sure what you're trying to ask.
 
Thank you Moonbear.What I mean is are they exactly the same in terms of the characteristics that are inherited ?Could there be slight and possibly as yet to be discovered differences?Suppose ,for example,that there were two people who did not have any ancestors in common(going back numerous generations)but who had the same genetic make up.Since these people inherited the majority of their genes from different sources would their inherited characteristics be slightly different or would they be as alike as say identical twins?
 
Genes can have mutations and variations, I think that is obvious. It depends on the function of the gene and the location of the gene swap (the tissue that's affected) what the phenotype will be.
 
There are instances in biology where the underlying DNA sequence of a gene is not the sole determinant of how that gene is expressed and how that gene influences the characteristics of the organism. Collectively, these instances fall under the category of epigenetics (see http://en.wikipedia.org/wiki/Epigenetics). Mainly these epigenetic controls consist of regulatory modifications to the genome (e.g. by affecting DNA methylation or packaging). However, in simplified systems (such as bacteria), there is evidence that the randomness (stochasticity) of gene expression and protein-protein interactions can cause phenotypic changes (see Kaern M et al. Nat Rev Genetics 2005, http://dx.doi.org/10.1038/nrg1615 and Choi PJ et al. Science 2008, http://dx.doi.org/10.1126/science.1161427).

This area of biology is still fairly new and much remains controversial and poorly understood. However, it is clear that there are many mechanisms by which identical genotypes can lead to non-identical phenotypes.
 
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Wow this is interesting stuff.Thank you everybody.
 

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