Published online: 26 March 2007; | doi:10.1038/news070326-5
Who's your daddy?
Marmoset families have mixed-up genetics.Heidi Ledford


| All together: marmosets tend to raise their kids collectively. Jeffrey E. Fite. |
|
As
a general rule, a man who learns that his children are genetically his
brother's offspring would have good cause for distress. But for one
group of primates, that wouldn't necessarily mean that mum has been
unfaithful, a new study finds.
The
reason, says Corinna Ross of the University of Texas Health Science
Center in San Antonio, is that these primates are often genetic mosaics
containing some cells that belonged to their siblings. And when those
cells happen to be sperm, a male can sire offspring that are
genetically nephews and nieces rather than sons and daughters.
This
strange genetic mixing could be one of the reasons why these animals
tend to raise their families in large collectives, with everyone
lending a hand; animals are thought to generally give more parental
attention to children with a strong genetic similarity to themselves.
The discovery was made accidentally when Ross was studying small, tree-dwelling primates called black tufted-eared marmosets (
Callithrix kuhlii)
at the University of Nebraska in Lincoln. The marmosets that she
studied were being kept in captivity, with two senior males for every
reproducing female. Ross wanted to test the paternity of the colony's
offspring, to find out which male was the father of each child; to do
this, she looked at hair samples of various animals to determine their
genetic make-up.
But
her results were confusing: some hair samples showed the genetic
fingerprint of a sibling rather than that of the individual being
tested.
Cellular mixScientists
have known for years that marmosets - which are typically born in pairs
- share a blood supply with their twin while developing in the womb. As
a result, most marmosets contain blood cells from their siblings, and
therefore carry their sibling's genes as well as their own. But the
phenomenon - known as chimaerism - had only been observed in marmoset
tissues that produce blood cells.
Ross
went on to test 15 different tissue types - from kidney to skin to
sperm - in 36 sets of marmoset twins from 15 families. A percentage of
samples from every tissue tested contained the genetic information from
a sibling rather than the animal that provided the tissue sample, she
reports in
Proceedings of the National Academy of Sciences1. Of the hair samples, 17% were chimaeric.
Finding
chimaerism in reproductive tissue is particularly surprising, says
David Haig, an evolutionary biologist at Harvard University in
Cambridge, Massachusetts. "That means that when a marmoset reproduces,
some of the cells from that marmoset are producing sons and daughters,
whereas others are producing nephews and nieces," says Haig.
Ross
found chimaerism in four of the seven sperm samples that she analysed;
in 5 of the 15 families, members passed a sibling's genetic information
on to their offspring. In one particularly odd case, a female passed
her brother's genetic information on to her children - suggesing the
intriguing possibility that the mother may have passed a Y chromosome
to her offspring.
Family tiesAll this could have an impact on the family dynamics, says Haig.
Marmoset
families are highly cooperative, and the entire family helps to raise
the young. Marmoset mums hand much of the childcare over to dad, who
carries his offspring on his back as he scampers from tree to tree.
Older siblings also help out, and often opt to help raise their younger
brothers and sisters rather than have children of their own, freeing up
mum to get pregnant again more quickly.
Chimaerism
could facilitate that family harmony, agrees Ross, because a sibling
carrying a mosaic of the family's genetic information is more likely to
share some of that information with each family member, strengthening
kinship bonds among siblings. "For example, their parents could be
having infants that are more closely related to them than their own
infants might be," says Ross.
It does seem to have an impact on families, Ross found.
She looked at the amount of chimaerism in the skin of baby marmosets,
to see if that external (and relatively easy to measure) signal of a
genetic mix had an effect on parenting. It did.
Fathers
spend more time carrying infants with chimaeric skin than infants who
were not skin chimaeras, she found. Mothers, on the other hand, spend
less time with these chimaeric offspring, perhaps knowing that others
would pick up the slack. Exactly why dads seem to invest more in
chimaeric offspring isn't yet clear.