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There are of two types 1.allelic gene interaction 2.non-allelic gene interaction further allelic interaction can be classified as 1.duplicating factors 2.complete dominance 3.incomplete dominance 4.co-dominance and non-allelic interaction is classified as follows 1.complimentary genes 2.suppementary genes 3.epistasis
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I would also like to know that...I've got an entire project due on that subject. :'(
This is called epistasis.
epistasis
This would be known as epistasis because one gene blocks another from expressing itself. Epistasis could also be the interaction between genes.
Sex-linked traits and epistasis. Mendel only worked with single-allele traits on somatic chromosomes (autosomes).
Information about Epistasis can be found at the Wikipedia website. Once on the page, type in 'Epistasis' into the search box and press enter to bring up the information.
There are of two types 1.allelic gene interaction 2.non-allelic gene interaction further allelic interaction can be classified as 1.duplicating factors 2.complete dominance 3.incomplete dominance 4.co-dominance and non-allelic interaction is classified as follows 1.complimentary genes 2.suppementary genes 3.epistasis
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epistasis
It means the chromosomes are able to align at mitosis and meiosis but do not share the same origin. for example if an orange and a lemon tree were cross pollinated, the chromosomes would be homelogous( if of course this interaction was viable )
It is called recessive gene .
it means bia kire koloftamo bokhor
I would also like to know that...I've got an entire project due on that subject. :'(
Epistasis is when genes interact that aren't alleles. The genes begin to suppress other genes, For example: baldness, or a widow's peak.
It does not obey mendel's law of dominance