”Doublesex” gene determines fruit fly gender

March 22, 2010 By Leave a Comment

London, Mar 22 (ANI): ”Doublesex” (dsx) gene in fruit fly, not only determines the shape and structure of the male and female body, but also moulds the architecture of their brain and nervous system, resulting in sex-specific behaviours, according to a study from the Glasgow University and Oxford.

For a long time, the courtship behaviour of the fruit fly has long been used to study the relationship between genes and behaviour— it is innate, manifesting in a series of stereotypical behaviours largely performed by the male.

And until recently, the gene ”fruitless” (fru), which is specific to the adult male fruit fly, was thought to be the key to male behaviour and the development of male specific neural circuitry of flies.

However, the researchers have shown that fru does not explain the complete repertoire of male behaviours in the fly: female flies in which the fru gene has been activated demonstrate some, but not all, of the characteristics usually associated with courtship behaviour in males.

The researchers have also shown that dsx plays an important role in shaping the neural circuitry involved in this behaviour.

“The dogma was that dsx made fruit flies look the way they did and fru made them behave the way they did. We now know that this is not true. dsx and fru act together to form the neuronal networks – the wiring – for sexual behaviour,” Nature quoted Dr Stephen Goodwin from the University of Oxford, who led the research, as saying.

While fru has so far been found only in insects; dsx is found throughout the animal kingdom, where it plays a fundamental role in sex determination, and so is of particular interest to researchers.

The researchers used a transgenic tool generated in his lab and could map dsx throughout the fly”s development using a fluorescent protein marker that illuminates areas where DSX is active.

This highlighted profound differences in neural architecture between the sexes.

In males, the researchers were able to show that dsx complements fru activity to create a ”shared” male-specific neural circuit; in females (where fru is inactive), dsx forms a female-specific circuit.

Importantly the researchers could to manipulate these cells, impinging their ability to function, and show that these circuits are responsible for behaviours unique to the individual sexes.

“It has been suggested that there are only minor trivial differences between the neural circuits that underlie behaviour in males and females. We have shown that in fact there is quite a bit of difference in the number of neurons and how these neurons connect, or ”talk”, to each other. These differences can have big consequences on the structure and function of the nervous system,” explained Goodwin.

In addition, while dsx was known to establish the gender of the adult fly, the pattern of dsx activity in the adult was unknown.

The researchers have shown that this pattern is not ubiquitous, but rather is restricted in a specific and telling manner.

The study has been published in the journal Nature Neuroscience. (ANI)

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Gene that determines sex in birds identified

August 27, 2009 By Leave a Comment

London, Aug 27 (ANI): Ending a long debate about what determines the sex of birds, scientists have now found that the expression of just one gene in chickens controls whether they will grow up to become a hen or a cockerel.

While sex is decided via genes on one of two sex chromosomes (Y in mammals and X in fruit flies) in most organisms, but in birds the picture is less clear.

The distribution of the sex chromosomes is reversed – males have two Z chromosomes, and females have one Z and one W – and it has been hotly contested whether the sex of avian embryos is decided by a female-specific gene on the W chromosome, or whether it’s the number of Z chromosomes that matters.

The researchers proposed two genes that could unravel the mystery- on one hand, the W-linked gene HINTW has been touted as a potential female-only factor, while on the other, the Z-linked gene DMRT1, which is involved in sexual differentiation in many organisms, provides a potential dose-sensitive sex determinant.

According to new data, the latter gene has been touted as the master sex regulator.

Researchers led by Craig Smith of the Murdoch Childrens Research Institute in Melbourne, Australia, reduced the expression of DMRT1 in young chick embryos using RNA interference (RNAi).

They found that male chicks – those with two Zs – with abnormally low levels of the gene developed partially feminized gonads instead of proper testes.

In an earlier research, Smith’s group showed that overexpressing HINTW in male embryos did not alter the course of male development2.

Taken together, the studies support the theory that the Z-linked double dose mitigates avian gender.

“These experiments are giving us the ultimate proof. This system of sex determination is valid for all 500 other birds,” Nature quoted Michael Schmid, a geneticist at the University of Würzburg, Germany, as saying.

However, Graves noted that DMRT1 might work in unison with a gene on the W chromosome that enhances the dose signal coming from the master regulator.

“A two-to-one ratio is a bit dicey. With something as important as sex you’d want to be a bit more robust than that,” she said.

Hans Ellegren, an evolutionary biologist at Uppsala University in Sweden, said that the new findings are consistent with the dose hypothesis, but they don’t definitively show that it is the number of gene copies – rather than the expression levels of those genes – that is the key factor.

“The experiments cannot formally exclude the dominant-W hypothesis,” he added.

He explained that there could be a W-linked gene in females that suppresses DMRT1 to prevent male development.

The findings have been published in Nature. (ANI)

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Madhya Pradesh to launch campaign against female foeticide

May 23, 2009 By Leave a Comment

Bhopal, May 23 (IANS) The Madhya Pradesh government will launch a campaign christened “Bitiya” (Daughter) to create awareness against female foeticide and discrimination against girls. Existing laws to curb sex determination tests and foeticide will also be given more teeth.

“A campaign named ‘Bitiya’ would be launched in the state to create awareness against sex determination and female foeticide,” state Public Health and Family Welfare Minister Anup Mishra said late Friday while chairing a meeting of the supervisory board for monitoring implementation of Pre-conception and Pre-natal Diagnostic Technique Act (PC&PNDT Act), 1996.

He stressed the need for keeping close watch over the centres where sex determination tests are conducted to detect and kill a girl child in the womb itself and asked the authorities concerned to cancel the registration of those doctors who did not have permission to install sonography machine and take strict action against them.

The minister directed the officials to focus on the districts where misconception about girls still persisted and said that some amendments would be made to the PC&PNDT Act to check such centres which encourage the malpractice of sex determination and female foeticide.

Mishra also instructed to appoint a legal adviser for effective and quick legal action in such cases, adding that a meeting of health ministers of Madhya Pradesh, Uttar Pradesh and Rajasthan will be convened soon to chalk out a joint strategy to counter sex determination tests and girl embryo killings.

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Here’s why redheads produce more sons

March 20, 2009 By Leave a Comment

Sydney, Mar 20 (ANI): Given a choice, a female Gouldian finch will go for her own kind, mating with the male with the same head colour as her – black. However, if a redhead is her only option, she will produce many more sons than daughters after mating.

Australian researchers studying the breeding patterns of the coloured Gouldian finch have found that females of the species deliberately overproduce sons when breeding with a male of a different head colour.

The research is the best evidence yet that birds can control the sex of their offspring.

With the help of some black dye, to cover up the red and trick the females, the researchers showed that the female Gouldian finches determined their offspring’s sex based on the male appearance alone.

When black females thought they were mating with black males they had about equal numbers of sons and daughters.

A Macquarie University biologist, Sarah Pryke, said there was no chemical or genetic interaction between the parents at work.

“Change the colour of the male’s head with dye and the sex ratio changes,” the Sydney Morning Herald quoted Pryke, as saying.

She said her study raised the question of whether other animals, perhaps even humans, have this ability to influence whether boys or girls are born.

“This discovery will change our understanding of sex determination across the animal kingdom,” Pryke said.

The study is published in the journal Science. (ANI)

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