Science Questions

How is skin colour controlled by genes?

Fri, 14th Jun 2013

Listen Now    Download as mp3 from the show The future of fingerprinting

Question

Wells, Catherine asked:

Hi,

 

I understand about dominant and recessive genes in such things as eye colour, but was wondering how it is that if a black and a white person have a child together it would be brown? Also, what causes 'marbled' skin colour that you see quite rarely on some people?

 

Many thanks,

 

Cath

Answer

Kat - Now itís time to look at your burning genetics questions, with the help of Naked Scientist Martha Henriques.

Martha -   Listener Catherine Wells wanted to know about the genetics underlying differences in human skin colour.  Why is it that children often have an intermediate appearance between their two parents?  Mircea Iliescu from Cambridge University explainedÖ

Mircea -   Skin pigmentation is given by melanin, so melanin is a pigment which is in the skin cells.  Melanin is produced in these granules in the cells which are melanosomes and this is quite a complex process of probably more than a hundred proteins and genes that are involved in producing this pigment.  And so, the pigmentation eventually depends on the type of melanin, on the amount of these granules of melanin, and on the distribution of the granules in the skin.  All these affects how dark or light the skin would be. 

These days, we measure for example with a melanin index, so we have a reflectometer machine which can measure skin reflectance Ė so, how light or dark the skin is and it gives us some melanin index of value.  For example, the range can be letís say, from 25 to 100 where 25 would be a European skin and 100 would be someone in equatorial Africa.  So, because we have a complex process and because there's a high range of variations, it is highly unlikely that one gene only, one change in one gene would cause all these difference like  it happens with eye colour from blue to brown, and changes in several genes can alter the pigmentation values.  So, just to give you an example, the gene which probably has the most effect is slc2485 which has an effect of about 10, 15 melanin index units.  Thatís the most one gene can impact pigmentation and that is usually in an additive manner.  So, if you have two copies of this gene, one change would maybe give it Ė create a difference of 5 melanin index units and the second copy, as it changes, gives you another 5 or 6. 

So, itís not really dominant like it happens with blue and brown eyes where if you have only then one copy of the brown gene letís call it, you'll get instantly brown eyes.  And so, this process, there's a combinatorial effect of all these genes, each with their own effect and depending on what the parents have then the kid will have an intermediate range and it could have darker or lighter skin.  Thatís how basically the range of pigmentation in the world is created.

Martha -   So, a large number of genes contribute to human skin colour in a number of different ways which results in a subtle and complicated process influencing the childís skin colour.  Thanks to Mircea Iliescu for answering that question from Catherine Wells.

Kat - If youíve got any questions about genes, DNA and genetics youíd like us to answer, just email them to genetics@thenakedscientists.com, tweet us @nakedgenetics or post on our Facebook page

Multimedia

Subscribe Free

Related Content

Comments

Make a comment

Wells, Catherine asked the Naked Scientists: Hi, I understand about dominant and recessive genes in such things as eye colour, but was wondering how it is that if a black and a white person have a child together it would be brown? Also, what causes 'marbled' skin colour that you see quite rarely on some people? Many thanks, Cath What do you think? Wells, Catherine , Thu, 11th Sep 2008





http://en.wikipedia.org/wiki/Human_skin_color
http://en.wikipedia.org/wiki/Incomplete_dominance#Incomplete_dominance Evie, Mon, 15th Sep 2008

See the whole discussion | Make a comment

Not working please enable javascript
EPSRC
Powered by UKfast
STFC
Genetics Society
ipDTL