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Honey bees' genetic code unlocked

2012-12-11 11:51:58

By Mark Kinver Environment reporter, BBC News

Researchers say they have unlocked the genetic secrets of honey bees' high

sensitivity to environmental change.

Scientists from the UK and Australia think their findings could help show links

between nutrition, environment and the insects' development.

It could, they suggest, offer an insight into problems like Colony Collapse

Disorder, a mysterious cause of mass bee deaths globally.

The findings appear in Insect Biochemistry and Molecular Biology.

"Honey bees live in complex societies comprising tens of thousands of

individuals," explained study co-author Paul Hurd from Queen Mary, University

of London.

"Most of these are female 'worker' honeybees that are unable to reproduce and

instead devote their short lives to finding food in flowers... and other tasks

such as nursing larvae inside the hive."

But the hive has a queen as well - the much longer-lived, reproductive head of

the hive,

"When the queen bee lays her eggs, worker bees can determine whether the

resulting larvae are to become an adult worker bee or an adult queen bee," Dr

Hurd said.

"The type of food the larvae is fed dictates the developmental outcome - larvae

destined to become workers are fed a pollen and nectar diet, and those destined

to become queens are fed royal jelly.

"This difference in feeding is maintained over the entire lifetime of the

worker or queen bee."

The change is suggested to be the result of a "histone code" - a process that

sees genetic changes made to proteins called histones within cells' nuclei.

Rather than "genetic" changes that are locked into DNA, these are known as

"epigenetic" changes.

The report marks the first time such effects had been recorded in honey bees.

"The development of different bees from the same DNA in the larvae is one of

the clearest examples of epigenetics in action - mechanisms that go beyond the

basic DNA sequence," said co-author Mark Dickman from the University of

Sheffield.

"From our knowledge of how the histone code works with in other organisms, we

think the marks on the histone proteins might act as one of the switches that

control how the larvae develop."