Portable DNA Purifier for Poor Countries

A new handheld device isolates DNA from human fluid without the use of electrical power.
A standard bicycle pump is all that's required to power a DNA purifying kit, designed by Catherine Klapperich and her students at Boston University. The thermos-size device, dubbed SNAP (System for Nucleic Acid Preparation), extracts genetic material from blood and other bodily fluids by pumping fluid through a polymer-lined straw designed to trap DNA. A user can then pop the straw out and mail it to the nearest lab, where the preserved DNA can be analyzed for suspicious bacteria, viruses, and genetic diseases.

A DNA extraction device that requires no power, such as the SNAP prototype, would have tremendous value in rural communities, says Paul Yager, a professor and acting chair of the University of Washington's Department of Bioengineering, who was not involved in the research. "This would be the front end for a lot of potential instruments people could use," he says.

To test for diseases like HIV, clinicians typically take blood samples from patients, which then must be refrigerated and transported to the nearest laboratory. Technicians then extract and analyze the DNA. In areas where electricity is scarce, blood may not be adequately refrigerated, potentially degrading a sample's quality. Isolated DNA, on the other hand, remains relatively stable at room temperature, so extracting DNA from blood before shipping it to a laboratory may eliminate the need for expensive refrigeration.

"Instead of taking blood samples and keeping them cold, with our technology, they would be able to prepare all the samples at the point of care," says Klapperich, an assistant professor of mechanical and biomedical engineering at Boston University. "They would also have a longer period of time to get a much more preserved sample to a central lab someplace else."

The conventional method of extracting DNA from blood involves a number of instruments: researchers first break open blood cell walls, either with chemicals or by shaking the blood, in order to get at genetic material inside cells. They then add a detergent to wash away the fatty cell walls, and spin the DNA out of solution with a centrifuge. The SNAP prototype performs a similar series of events with a bicycle pump, some simple chemicals, and a specialized straw lined with a polymer designed to attract and bind DNA.

A world without need for men

While some females would argue this has long been the case, British fertility researchers are on track to proving it, having created sperm using stem cells from an embryo.

Scientists at the Northeast England Stem Cell Institute say that with some minor adjustments, the technique could theoretically be used to fertilise an egg to create a child - taking real men out of the equation.

Within a decade, the technique may be adapted to help couples have children genetically on their own, or even for sperm to be created from female stem cells, they say.

But New Zealand experts warn that the technique is still a work in progress and have shied away from the big question of male dispensability.

Sylvia Rumball, chairwoman of the Massey University advisory committee on assisted reproductive technology, said: "I think I'll pass on that one."

Guy Gudex, medical director of Repromed Auckland, laughed and said: "Don't go there, don't even go there."

But Dr Richard Fisher, director of Fertility Associates, took a stand.

"There's no good reason why you couldn't ultimately generate a sperm-like cell from any cell in the body, so the answer to that is potentially yes."

Jokes aside, the experts said the technique was far from being used.

"I think I heard them say on the five-year horizon," said Professor Rumball, whose committee advises the Minister of Health on ongoing developments in the field.

"We tend to try to think first of all about issues associated with producing something, and then the use of that is a separate thing.

"It's got to be shown that it really can happen before we put our regulatory hats on and decide what should happen."

Dr Gudex said the technique, if proven successful, could help men unable to produce sperm. "We still don't have a way of helping men with either no sperm at all or the condition known as 'maturation arrest' [slow-maturing sperm]."

Professor Gareth Jones, an Otago University commentator on scientific and bioethical issues, said it was not just about the technical achievement.

"It is a matter of how successful will this be and what will be the problem. You've then got to say, 'Well, what genetic characteristics will the sperm have?"'

Professor Jones queried whether artificially produced sperm would have the same characteristics as true sperm: "If the answer to that was going to be yes, then perhaps you could say in the end there wouldn't be a great problem."

If sperm was ultimately produced from female cells and a man was no longer required, cloning allegations would come into play. "You're probably not going to get rid of men that quickly."

Professor Karim Nayernia, the stem cell biologist leading the UK team, admitted the sperm created were not perfect, but they had all the essential qualities for creating life. "They have heads, they have tails and they move. The shape is not quite normal, nor the movement, but they contain the proteins for egg activation."

Lemon Frosted Lemon Cake Recipe

Recipe:
1 cup (226 grams) unsalted butter, room temperature
1 cup (200 grams) granulated white sugar
4 large eggs
1 teaspoon pure vanilla extract
Zest of 1 large lemon
2 cups (280 grams) all purpose flour
2 teaspoons baking powder
1/4 teaspoon salt
1/4 cup (60 ml) fresh lemon juice
Icing:
1 cup (115 grams) confectioners' (powdered or icing) sugar, sifted
2 tablespoons fresh lemon juice

Preheat oven to 350 degrees F (180 degrees C) and place rack in the center of the oven. Butter, or spray with a nonstick spray, a 9 inch (23 cm) springform pan and then line the bottom of the pan with parchment paper. Set aside.
In the bowl of your electric mixer, with the paddle attachment, cream the butter and sugar until light and fluffy and pale in color (about 3 minutes). Add the eggs, one at a time, mixing well after each addition. Beat in the vanilla extract and lemon zest.
Sift together the flour, baking powder and salt and then add to the batter along with the lemon juice. Mix only until incorporated.
Pour the batter into the prepared pan, smoothing the top with an offset spatula. Bake about 45 minutes, or until a toothpick inserted in the center comes out clean. Place on a wire rack to cool, then gently remove the sides of the pan.
For the icing, combine the sifted confectioners' sugar with the 2 tablespoons lemon juice. (You want the icing to be thicker than a glaze but still thin enough that it will just run over the sides of the cake. If not the right consistency add more lemon juice or powdered sugar, accordingly.) Frost the top of the cake, allowing the icing to drip down the sides. Let the icing set before covering.
This cake will keep for several days in an airtight container.
Makes one - 9 inch (23 cm) cake

CDC Health Alert Network (HAN) Info Service Message: New and Updated CDC Guidance Related to Novel H1N1 Flu

Influenza illness, including illness associated with the novel influenza A H1N1 virus is ongoing in the United States. The May 22 FluView Report shows that influenza activity is decreasing in the United States; however, levels of influenza-like illness are higher than normal for this time of year. At this time, the majority of influenza viruses isolated in the United States are now novel H1N1 viruses.

It’s uncertain at this time how severe this novel H1N1 outbreak will be in terms of how many people infected have severe complications or death related to novel H1N1 infection. While nation-wide influenza-like-illness surveillance is trending downward, localized outbreaks are ongoing and it’s likely that such outbreaks will continue over the summer. It’s uncertain how the novel H1N1 virus will affect the upcoming 2009-2010 influenza season.

The Centers for Disease Control and Prevention continues its response to the novel H1N1 Flu outbreak. CDC's goals continue to be to reduce the spread and severity of illness and to provide information to assist health care providers, public health officials, and the public address the challenges posed by this emergency. To this end, CDC continues to develop and update guidance documents and provide other information.

CDC Health Alert Network (HAN) Info Service Message: New and Updated CDC Guidance Related to Novel H1N1 Flu

Influenza illness, including illness associated with the novel influenza A H1N1 virus is ongoing in the United States. The May 22 FluView Report shows that influenza activity is decreasing in the United States; however, levels of influenza-like illness are higher than normal for this time of year. At this time, the majority of influenza viruses isolated in the United States are now novel H1N1 viruses.

It’s uncertain at this time how severe this novel H1N1 outbreak will be in terms of how many people infected have severe complications or death related to novel H1N1 infection. While nation-wide influenza-like-illness surveillance is trending downward, localized outbreaks are ongoing and it’s likely that such outbreaks will continue over the summer. It’s uncertain how the novel H1N1 virus will affect the upcoming 2009-2010 influenza season.

The Centers for Disease Control and Prevention continues its response to the novel H1N1 Flu outbreak. CDC's goals continue to be to reduce the spread and severity of illness and to provide information to assist health care providers, public health officials, and the public address the challenges posed by this emergency. To this end, CDC continues to develop and update guidance documents and provide other information.

Images of the H1N1 Influenza Virus

Influenza A(H1N1)

12 May 2009 -- As of 06:00 GMT, 12 May 2009, 30 countries have officially reported 5251 cases of influenza A(H1N1) infection.

Mexico has reported 2059 laboratory confirmed human cases of infection, including 56 deaths. The United States has reported 2600 laboratory confirmed human cases, including three deaths. Canada has reported 330 laboratory confirmed human cases, including one death. Costa Rica has reported eight laboratory confirmed human cases, including one death.

The following countries have reported laboratory confirmed cases with no deaths - Argentina (1), Australia (1), Austria (1), Brazil (8), China (2, comprising 1 in China, Hong Kong Special Administrative Region, and 1 in mainland China), Colombia (3), Denmark (1), El Salvador (4), France (13), Germany (12), Guatemala (1), Ireland (1), Israel (7), Italy (9), Japan (4), Netherlands (3), New Zealand (7), Norway (2), Panama (16), Poland (1), Portugal (1), Republic of Korea (3), Spain (95), Sweden (2), Switzerland (1) and the United Kingdom (55).

WHO is not recommending travel restrictions related to the outbreak of the influenza A(H1N1) virus.

Individuals who are ill should delay travel plans and returning travelers who fall ill should seek appropriate medical care. These recommendations are prudent measures which can limit the spread of many communicable diseases, including influenza.

BLACK HOLE

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