It's a unisex brain with specific signals that trigger 'male' behavior

The researchers showed that a courting “song and dance” routine that only male flies naturally perform — one wing is lifted and wiggled to make a humming “song” — can also be triggered in female flies by artificially stimulating particular brain cells that are present in both sexes. It isn’t what you’ve got — it’s how you use it, the authors say.

“It appears there is a largely bisexual or ‘unisex brain.’ Anatomically, the differences are subtle and a few critical switches make the difference between male and female behavior,” said senior author Gero Miesenboeck, formerly of Yale University and now at the University of Oxford.

According to the authors, most male animals have to perform elaborate courtship displays to try to convince the female that they are worthy mates. Their study was designed to see what neurons were responsible for behavior in the courtship dance of flies, and how the neural circuits in males and females differed. To do this, they genetically engineered specific neurons in the fly to respond to light. This optical trick allowed them to activate the neural circuits that control the behavior pattern directly.

Using a flash of laser light as a “remote control” for the brain cells, the researchers first identified which nerve cells control the courting behavior in males. Next, they showed that the cells were present and functional in both males and females, even though only males do the song and dance.

“Surprisingly, when the brain cells of female flies were flashed with the laser cue we found that even the female flies that never normally behaved this way, began to sing,” said Dylan Clyne, a Yale post-doctoral associate and primary investigator of the study. “Our work shows that the brains not only look similar but are functionally similar. The females have all the equipment to sing, but normally don’t use it because their song circuit doesn’t get the appropriate activating signals.”

Asked about the relevance of this study to humans, Clyne said, “You have to be careful about how much you can extrapolate from studying flies. But, the basic principle should hold up – that is, the idea that we don’t need big sex-differences in the brain to explain why it seems that men are from Mars and women from Venus.”

The authors’ next goal is finding the controls that set the flies’ brains to the male or female mode. They hope that by studying examples like sex-specific behaviors, they can clarify the still poorly understood relationships between genes, which are the targets of natural selection, and behavior, which is the product of evolution. Ultimately, this line of research could also shed light on how genes underlie behavioral variation and perhaps even specific mental illnesses.

Citation: Cell 133: 354-363 (April 18, 2008).

Source: Yale University

Male and female brains are not so different, fruit flies’ sex acts tell us
While males and females might sometimes act as though they come from different planets, a new study in flies suggests they are both equipped with a largely unisex brain.
How 'nature's ultimate sensory machines' integrate sight and smell
“Flies are nature’s ultimate sensory machines, outperforming any human-engineered devices,” said Mark Frye of the University of California, Los Angeles. Adult fruit flies can distinguish small differences in odor concentration across antennae separated by less than one millimeter. Flies can also see in all directions at once, though the picture may be grainy.
For the fruit fly, everything changes after sex
The females of many insect species change their behavior right after mating: mosquitoes look for a meal of fresh blood and flies begin to lay eggs. Researchers at the IMP managed to identify the molecular switches that are responsible for these behavioral changes. This could open up new possibilities to control agricultural pests or disease carriers. The science journal Nature reports on the discovery in its current online release.
In fruit flies, homosexuality is biological but not hard-wired
While the biological basis for homosexuality remains a mystery, a team of neurobiologists reports they may have closed in on an answer -- by a nose.
Scientists alter sexual orientation in worms
University of Utah biologists genetically manipulated nematode worms so the animals were attracted to worms of the same sex – part of a study that shows sexual orientation is wired in the creatures’ brains.
Bird sex is something else
We’ve all heard about the birds and the bees. But apparently when it comes to birds, they have an unusual take on his and hers – and the difference is genetic. Species with differentiated sex chromosomes (X and Y in humans, for example) get around the fact that males and females get different-sized portions of sex chromosome genes with a balancing act geneticists call dosage compensation.
Is there a homosexuality gene?
Although biologists are still far from answering this question, scattered evidence for a possible gene influencing sexual orientation has recently encouraged scientists to map out a guide to future research. Because many possibilities for such a gene exist, scientists Sergey Gavrilets and William Rice have recently developed some theoretical guidelines and testable predictions for explaining the evolutionary causes of homosexuality.
Fighting Like a Girl or Boy Determined By Gene in Fruit Flies
Fighting like a girl or fighting like a boy is hardwired into fruit fly neurons, according to a study in the Nov. 19 Nature Neuroscience advance online publication by a research team from Harvard Medical School and the Institute of Molecular Pathology in Vienna. The results confirm that a gene known as “fruitless” is a key factor underlying sexual differences in behavior. The findings mark a milestone in an unlikely new animal model for understanding the biology of aggression and how the nervous system gives rise to different behaviors.

It's a unisex brain with specific signals that trigger 'male' behavior

Related stories:

News discussion: