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Dominant and recessive

Here I take the classical example used to explain genetics in budgerigars: the blue gene bl. There exist at least four different alleles (forms) of this gene. In this example we only use the two most frequent ones:

  • the not mutated wild allele: bl+ (the superscript '+' always indicates the wild allele)
  • the mutated 'blue' allele: bl

Since genes come in pairs there are 3 possible combinations of these two alleles:
bl+
---: normal, lightgreen
bl+
bl+   bl 
--- = ---: normal/blue (normal split blue), lightgreen/blue
bl    bl+
bl 
---: blauw, hemelsblauw
bl 

A lightgreen/blue bird is in appearance (phenotypicaly) the same as a normal lightgreen. The bl+ allele is said to be dominant with respect to the bl allele. Equivalently you can say that the bl allele is recessive with respect to the bl+ allele. A recessive allele has to be present twice in order to appear visually. This form of dominance is called complete dominance. There are two other forms of dominance: partial dominance and co-dominance:

  • The spangle gene is an example of partial dominance (or incomplete dominance): the heterozygous phenotype is a kind of intermediate between the dominant and recessive phenotype.
  • An example of co-dominance is the gene that determines our human blood type:
    Allele combination Bloodtype
    A A A
    B B B
    A B AB
    Here the heterozygote has the properties of both alleles. (Note: the human bloodtype is not only determined by the alleles A and B, but also by the allele O).

The following mutations are dominant to the wild type:

  • Cl Aisley clearbody
  • Cr Crested [not nicley 100% dominant and a crest is partially lethal]
  • D Darkfactor [partial dominance]
     D+/D+ = lichtgreen
     D/D+ = darkgreen
     D/D = olivegreen
  • Pd (Australian) pied [a double factor bird has less markings]
  • Pi (Dutch) pied [a double factor bird has less markings]
  • Sp Spangle [a single factor bird has the typical spangle markings, a double factor bird is entirely yellow without markings]
  • V Violet [there is a lot to say about this mutation]

The following mutation are recessive to the wild type. Some are mutations of the same gene and are set in the order of dominance:

  • abz > a bronze fallow > non sex linked ino
  • b browning (sepia)
  • bf blackface
  • bl blue [there are different forms of this gene that result in different forms of blue or yellowface]
     blaq Australian yellowface (aqua)
    •  bltq yellowface mutation II (turqoise)
     bl1 first blue allele
     bl2 second blue allele - also produces a blue bird but the combinatie of 1 and 2 gives yellowface type I (yellow mask, blue body)
  • cgw > ccw > c greywing > clearwing (geelvleugel/witvleugel) > dilute [cgw/ccw = full body colour greywing]
  • fd faded
  • ag Australian recessive grey
  • g (English) recessive grey
  • pl Schottish fallow
  • pf English fallow
  • s (Danish) recessive pied
  • sa Saddleback