Athlete Details

Athlete

Vernonsem VernonsemGV


From: Maputo Mozambique


Primary Sport/Activy: Cycleing

Brisbane mother amy dawes discusses her concerns over her daughter's alleged assault at a pre-school in the Brisbane suburb of North Ballarat. It emerged the family had previously been aware of his mental health issues. Ms Dawes' son had also been troubled as a child, so it was only natural for his parents to worry. "I'm not the most idealistic mum," Ms Dawes said. "I think this has kind of brought the whole thing out, which is that I really thought, 'oh, he's still alive, he could still be alive.' "I thought, well, at least it's a positive step." 'I had no idea' But Ms Dawes admits the family had not expected such a long wait. "I had no idea. That was before all this, and when I discovered it, I just wasn't used to that," Ms Dawes said. "My gut reaction was, I thought this guy is still alive." After the trial, Ms Dawes said she was devastated to learn how many lives had been damaged by the alleged incidents. "I'm devastated," she said. "I'm devastated that we still are at this point, that I will never see my kids again, that we have so many children and yet we've failed to protect them." The trial heard the boy was in a relationship with the teenage girl, who was 11 at the time, when the alleged assault occurred. The child's parents initially said it was a minor, but have since acknowledged the boy was 18 at the time. The charges against the boy are still before the Brisbane District Court. Topics: courts-and-trials, assault, child-abuse, crime, brisbane-4000, nsw First posted 우리카지노 예스카지노 New findings may see end to antibiotic resistant superbugs There have been a number of cases of antibiotic resistance that have led to thousands of new bacteria becoming resistant to the standard of treatment offered. However, it appears that researchers have finally succeeded in making them become resistant. Researchers from the University of Warwick found that the bacterium Escherichia coli becomes resistant to an antibiotic called carbapenems, which works by killing the bacterial cell membrane that contains its DNA. The study was published in the journal Science. The study team found that when researchers injected cells containing a specific protein called a caspase into mice, they could not get the bacteria to stop producing the protein, the caspase protein, but to produce a toxin that damaged the cell's immune system. "In this mouse model, you get the effect that you're targeting that's actually creating resistance. We found that at a specific time at the correct time, it worked," lead researcher, Professor Mike Smith, explained to Science. As an example of the method used in the new study, Smith explained that they injected caspase into mice that have been genetically engineered so they carry a gene for an enzyme that is also produced in the body that attacks the bacterium. When they were injected, they could not produce the caspase enzyme because the caspase enzyme needed the protein. It became apparent that this enzyme had been making its way into the mouse's immune system. The team found that once researchers found the correct enzyme or that the correct protein was being produced, then they could target and kill this bacteria without harming the human body. However, Professor Smith also mentioned that more research is needed to confirm the findings as to why this method works so well in animals, as to the mechanism by which this is happening and what the impact of killing this particular bacteria could be. The authors of the study said it is exciting to see scientists finding a mechanism by which these superbugs can be eradicated, as they were able to target the gene for this enzyme for the first time in humans, as well as to find out a way of producing a cure that could be used in future for sickly populations. So if you have a sickly population, you could conceivably find a way to wipe them out with the right antibiotics, but if you were to treat them by spreading the bacteria through their air, you would be killing the bacteria, so it is exciting to see that this method does just that. Smith said: "If you had an antibiotic resistant bacteria that could affect anyone with very common infections, you could try to get rid of them, but if you were to treat it with the right treatment you would be killing it off, so we are trying to find ways t

Brisbane mother amy dawes discusses her concerns over her daughter's alleged assault at a pre-school in the Brisbane suburb of North Ballarat. It emerged the family had previously been aware of his mental health issues. Ms Dawes' son had also been troubled as a child, so it was only natural for his parents to worry. "I'm not the most idealistic mum," Ms Dawes said. "I think this has kind of brought the whole thing out, which is that I really thought, 'oh, he's still alive, he could still be alive.' "I thought, well, at least it's a positive step." 'I had no idea' But Ms Dawes admits the family had not expected such a long wait. "I had no idea. That was before all this, and when I discovered it, I just wasn't used to that," Ms Dawes said. "My gut reaction was, I thought this guy is still alive." After the trial, Ms Dawes said she was devastated to learn how many lives had been damaged by the alleged incidents. "I'm devastated," she said. "I'm devastated that we still are at this point, that I will never see my kids again, that we have so many children and yet we've failed to protect them." The trial heard the boy was in a relationship with the teenage girl, who was 11 at the time, when the alleged assault occurred. The child's parents initially said it was a minor, but have since acknowledged the boy was 18 at the time. The charges against the boy are still before the Brisbane District Court. Topics: courts-and-trials, assault, child-abuse, crime, brisbane-4000, nsw First posted 우리카지노 예스카지노 New findings may see end to antibiotic resistant superbugs There have been a number of cases of antibiotic resistance that have led to thousands of new bacteria becoming resistant to the standard of treatment offered. However, it appears that researchers have finally succeeded in making them become resistant. Researchers from the University of Warwick found that the bacterium Escherichia coli becomes resistant to an antibiotic called carbapenems, which works by killing the bacterial cell membrane that contains its DNA. The study was published in the journal Science. The study team found that when researchers injected cells containing a specific protein called a caspase into mice, they could not get the bacteria to stop producing the protein, the caspase protein, but to produce a toxin that damaged the cell's immune system. "In this mouse model, you get the effect that you're targeting that's actually creating resistance. We found that at a specific time at the correct time, it worked," lead researcher, Professor Mike Smith, explained to Science. As an example of the method used in the new study, Smith explained that they injected caspase into mice that have been genetically engineered so they carry a gene for an enzyme that is also produced in the body that attacks the bacterium. When they were injected, they could not produce the caspase enzyme because the caspase enzyme needed the protein. It became apparent that this enzyme had been making its way into the mouse's immune system. The team found that once researchers found the correct enzyme or that the correct protein was being produced, then they could target and kill this bacteria without harming the human body. However, Professor Smith also mentioned that more research is needed to confirm the findings as to why this method works so well in animals, as to the mechanism by which this is happening and what the impact of killing this particular bacteria could be. The authors of the study said it is exciting to see scientists finding a mechanism by which these superbugs can be eradicated, as they were able to target the gene for this enzyme for the first time in humans, as well as to find out a way of producing a cure that could be used in future for sickly populations. So if you have a sickly population, you could conceivably find a way to wipe them out with the right antibiotics, but if you were to treat them by spreading the bacteria through their air, you would be killing the bacteria, so it is exciting to see that this method does just that. Smith said: "If you had an antibiotic resistant bacteria that could affect anyone with very common infections, you could try to get rid of them, but if you were to treat it with the right treatment you would be killing it off, so we are trying to find ways t

Brisbane mother amy dawes discusses her concerns over her daughter's alleged assault at a pre-school in the Brisbane suburb of North Ballarat. It emerged the family had previously been aware of his mental health issues. Ms Dawes' son had also been troubled as a child, so it was only natural for his parents to worry. "I'm not the most idealistic mum," Ms Dawes said. "I think this has kind of brought the whole thing out, which is that I really thought, 'oh, he's still alive, he could still be alive.' "I thought, well, at least it's a positive step." 'I had no idea' But Ms Dawes admits the family had not expected such a long wait. "I had no idea. That was before all this, and when I discovered it, I just wasn't used to that," Ms Dawes said. "My gut reaction was, I thought this guy is still alive." After the trial, Ms Dawes said she was devastated to learn how many lives had been damaged by the alleged incidents. "I'm devastated," she said. "I'm devastated that we still are at this point, that I will never see my kids again, that we have so many children and yet we've failed to protect them." The trial heard the boy was in a relationship with the teenage girl, who was 11 at the time, when the alleged assault occurred. The child's parents initially said it was a minor, but have since acknowledged the boy was 18 at the time. The charges against the boy are still before the Brisbane District Court. Topics: courts-and-trials, assault, child-abuse, crime, brisbane-4000, nsw First posted 우리카지노 예스카지노 New findings may see end to antibiotic resistant superbugs There have been a number of cases of antibiotic resistance that have led to thousands of new bacteria becoming resistant to the standard of treatment offered. However, it appears that researchers have finally succeeded in making them become resistant. Researchers from the University of Warwick found that the bacterium Escherichia coli becomes resistant to an antibiotic called carbapenems, which works by killing the bacterial cell membrane that contains its DNA. The study was published in the journal Science. The study team found that when researchers injected cells containing a specific protein called a caspase into mice, they could not get the bacteria to stop producing the protein, the caspase protein, but to produce a toxin that damaged the cell's immune system. "In this mouse model, you get the effect that you're targeting that's actually creating resistance. We found that at a specific time at the correct time, it worked," lead researcher, Professor Mike Smith, explained to Science. As an example of the method used in the new study, Smith explained that they injected caspase into mice that have been genetically engineered so they carry a gene for an enzyme that is also produced in the body that attacks the bacterium. When they were injected, they could not produce the caspase enzyme because the caspase enzyme needed the protein. It became apparent that this enzyme had been making its way into the mouse's immune system. The team found that once researchers found the correct enzyme or that the correct protein was being produced, then they could target and kill this bacteria without harming the human body. However, Professor Smith also mentioned that more research is needed to confirm the findings as to why this method works so well in animals, as to the mechanism by which this is happening and what the impact of killing this particular bacteria could be. The authors of the study said it is exciting to see scientists finding a mechanism by which these superbugs can be eradicated, as they were able to target the gene for this enzyme for the first time in humans, as well as to find out a way of producing a cure that could be used in future for sickly populations. So if you have a sickly population, you could conceivably find a way to wipe them out with the right antibiotics, but if you were to treat them by spreading the bacteria through their air, you would be killing the bacteria, so it is exciting to see that this method does just that. Smith said: "If you had an antibiotic resistant bacteria that could affect anyone with very common infections, you could try to get rid of them, but if you were to treat it with the right treatment you would be killing it off, so we are trying to find ways t

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