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Category Archives: Transhuman News
NASAs CATS Installed On ISS By Robotic Handoff
Posted: February 2, 2015 at 5:47 pm
Mon, Feb 02, 2015
On Jan. 22, robotic flight controllers successfully installed NASAs Cloud Aerosol Transport System (CATS) aboard the International Space Station through a robotic handoff the first time one robotic arm on station has worked in concert with a second robotic arm. CATS will collect data about clouds, volcanic ash plumes and tiny airborne particles that can help improve our understanding of aerosol and cloud interactions and improve the accuracy of climate change models.
CATS had been mounted inside the SpaceX Dragon cargo crafts unpressurized trunk since it docked at the station on Jan. 12. Ground controllers at NASAs Johnson Space Center in Houston used one of the space stations robotic arms, called the Special Purpose Dexterous Manipulator, to extract the instrument from the capsule. The NASA-controlled arm passed the instrument to a second robotic arm like passing a baton in a relay race. This second arm, called the Japanese Experiment Module Remote Manipulator System, is controlled by the Japanese Aerospace Exploration Agency. The Japanese-controlled arm installed the instrument to the Space Stations Japanese Experiment Module, making CATS the first NASA-developed payload to fly on the Japanese module.
After installation, CATS was powered on and is currently sending health and status data back to NASAs Goddard Space Flight Center in Greenbelt, Maryland, where the instruments data will be analyzed, as the team begins their checkout procedures.
CATS is a lidar remote-sensing instrument designed to last from six months to three years. It is specifically intended to demonstrate a low-cost, streamlined approach to developing science payloads on the space station. CATS launched aboard the SpaceX Dragon spacecraft on Jan. 10 from Cape Canaveral Air Force Station in Florida.
(Image provided by NASA)
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Zebrafish flex their muscles for research aboard the International Space Station
Posted: at 5:47 pm
1 hour ago The Zebrafish Muscle study will observe the effects of microgravity aboard the International Space Station on the zebrafish. Credit: Sehara Lab
Although zebrafish are not deadlifting weights in orbit, they are helping researchers learn about muscle changes during their stay aboard the International Space Station. This impacts not only the fish, but also the crew and can have implications for Earth-related muscle challenges too. The Japan Aerospace Exploration Agency's (JAXA) Zebrafish Muscle investigation observes the effects of microgravity on the zebrafish, Danio rerio, a tropical freshwater fish belonging to the minnow family.
This research has the potential to lead to new drugs or treatments for patients on extended bed rest or with limited mobility. In addition to the potential human benefits, results from this study could aid researchers in developing countermeasures for muscle weakness in astronauts living in microgravity during extended missions.
"The main question of the Zebrafish Muscle experiment is whether atrophy of muscles under microgravity also occurs in fish, and why that muscle atrophy occurs in microgravity," explains Atsuko Sehara-Fujisawa, principal investigator and professor at Kyoto University in Kyoto, Japan.
Muscle atrophy is the wasting of muscle tissue. This occurs in microgravity since the muscles are not used to resist the force of gravity, as they would be on the ground. Astronauts mitigate this atrophy through prescribed daily exercise, yet some still lose bone and muscle mass during extended spaceflight.
In this investigation, the zebrafish is used as a model for comparison to larger organisms. Researchers use model organisms such as plants, animals or microbes like yeast to study the influence of microgravity on cells. Taking these organisms to space allows for examination of growth and development and physiological, psychological and aging processes without the impact of gravity. Previous observation of Medaka fish aboard the station monitored changes in bone impacted due to the microgravity environment.
Researchers study zebrafish because of their transparency compared to other fish. Scientists use transgenic zebrafish, which express fluorescence proteins inside the body to obtain three dimensional imaging of skeletal muscle and tendon tissues within the zebrafish. This means that the zebrafish contain DNA that is inserted experimentally. Furthermore, the availability of whole genome sequencing in zebrafish makes it an essential organism to study. This reveals the genetic characteristics of an organism with a precision that other technologies cannot match.
This investigation employs the station's Aquatic Habitat, an aquarium in microgravity. An LED light fixed to the top of the habitat illuminates the study for recording and simulates the sun's light on the surface of the water. The fish use their instinctual response to this light and swim in a position similar to upright on Earth. View the zebrafish swimming and eating during their spaceflight of more than 21 days on the space station in these JAXA videos.
A total of 18 zebrafish were launched to the space station. Five fish returned alive on a previous Soyuz spacecraft and some chemically preserved fish will be returned with the completion of the fifth SpaceX commercial resupply mission. The Zebrafish Muscle research team will compare gene expression - the process of determining a cell's function - profiles between fish flown in space and control fish on Earth. Specifically, they will look to see if fish muscle deteriorates in space and recovers upon return to the ground. The team also will examine if fish tendon is sensitive to microgravity.
"We hope that this research enables us to understand how microgravity affects muscle mass and strength in terms of genes and molecules and what kinds of molecular mechanisms contribute to the recovery of muscle after the exposure in microgravity," said Sehara-Fujisawa. "This research should clarify whether physical exercise and anti-gravity reactions share common gene regulation. It would be wonderful if this research gave us hints to ameliorate muscle atrophy due to aging or diseases."
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Zebrafish flex their muscles for research aboard the International Space Station
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A STAR is born: Engineers devise genetic 'on' switch
Posted: at 5:46 pm
All life processes depend on genes turning on and off. Cornell scientists have created a new on switch to control gene expression a breakthrough that could revolutionize genetic engineering.
Synthetic biologists led by Julius Lucks, assistant professor of chemical and biomolecular engineering, have created a new genetic control mechanism made exclusively of ribonucleic acids (RNA). They call their engineered RNAs STARS Small Transcription Activating RNAs described online in Nature Chemical Biology, Feb. 2.
Weve created a whole new toolset of regulation, said Lucks, who describes RNA as the most engineerable molecule on the planet.
RNA is a single-stranded version of its close cousin, DNA, which makes up the double-stranded genome of all living organisms. While DNA acts as natures hard drive, storing the genes that make up our genome, RNA is part of the cellular computer that activates the hard drive by helping the cell tune the expression of specific genes, Lucks says. While RNA is known to do this in many ways, one thing it cant do in nature is start the process by turning on, or activating, transcription the first step in gene expression, and the core of many cellular programs.
In the lab, Lucks and colleagues have assigned RNA this new role. Theyve engineered an RNA system that acts like a genetic switch, in which RNA tells the cell to activate the transcription of a specific gene. The STAR system involves placing a special RNA sequence upstream of a target gene that acts as a blockade and prevents the cell from transcribing that gene. When the STAR is present, it removes this blockade, turning on the downstream gene by allowing transcription to take place. The effect is like a lock-and-key system for turning genes on, with STARs acting as a set of genetic keys for unlocking cellular genetic programs.
RNA is like a molecular puzzle, a crazy Rubiks cube that has to be unlocked in order to do different things, Lucks said. Weve figured out how to design another RNA that unlocks part of that puzzle. The STAR is the key to that lock.
RNA is Lucks favorite molecule because its simple much simpler than a protein and its function can be engineered by designing its structure. In fact, new experimental and computational technologies, some developed by Lucks lab, are now giving quick access to their structures and functions, enabling a new era of biomolecular design that is much more difficult to do with proteins.
Lucks envisions RNA-only, LEGO-like genetic circuits that can act as cellular computers. RNA-engineered gene networks could also offer diagnostic capabilities, as similar RNA circuits have been shown to activate a gene only if, for example, a certain virus is present.
This is going to open up a whole set of possibilities for us, because RNA molecules make decisions and compute information really well, and they detect things really well, Lucks said.
The paper is called Creating Small Transcription Activating RNAs, and its co-authors are postdoctoral associate James Chappell and graduate student Melissa Takahashi. Supporters include the National Science Foundation, the Defense Advanced Research Projects Agency and the Office of Naval Research.
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A STAR is born: Engineers devise genetic 'on' switch
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Engineers devise genetic 'on' switch made exclusively of RNA
Posted: at 5:46 pm
6 hours ago
All life processes depend on genes turning on and off. Cornell University scientists have created a new "on" switch to control gene expression - a breakthrough that could revolutionize genetic engineering.
Synthetic biologists led by Julius Lucks, assistant professor of chemical and biomolecular engineering, have created a new genetic control mechanism made exclusively of ribonucleic acids (RNA). They call their engineered RNAs STARS - Small Transcription Activating RNAs - described online in Nature Chemical Biology, Feb. 2.
"We've created a whole new toolset of regulation," said Lucks, who describes RNA as "the most engineerable molecule on the planet."
RNA is a single-stranded version of its close cousin, DNA, which makes up the double-stranded genome of all living organisms. While DNA acts as nature's hard drive, storing the genes that make up our genome, RNA is part of the cellular computer that activates the hard drive by helping the cell tune the expression of specific genes, Lucks says. While RNA is known to do this in many ways, one thing it can't do in nature is start the process by turning on, or activating, transcription - the first step in gene expression, and the core of many cellular programs.
In the lab, Lucks and colleagues have assigned RNA this new role. They've engineered an RNA system that acts like a genetic switch, in which RNA tells the cell to activate the transcription of a specific gene. The STAR system involves placing a special RNA sequence upstream of a target gene that acts as a blockade and prevents the cell from transcribing that gene. When the STAR is present, it removes this blockade, turning on the downstream gene by allowing transcription to take place. The effect is like a lock-and-key system for turning genes on, with STARs acting as a set of genetic keys for unlocking cellular genetic programs.
"RNA is like a molecular puzzle, a crazy Rubik's cube that has to be unlocked in order to do different things," Lucks said. "We've figured out how to design another RNA that unlocks part of that puzzle. The STAR is the key to that lock."
RNA is Lucks' favorite molecule because it's simple - much simpler than a protein - and its function can be engineered by designing its structure. In fact, new experimental and computational technologies, some developed by Lucks' lab, are now giving quick access to their structures and functions, enabling a new era of biomolecular design that is much more difficult to do with proteins.
Lucks envisions RNA-only, LEGO-like genetic circuits that can act as cellular computers. RNA-engineered gene networks could also offer diagnostic capabilities, as similar RNA circuits have been shown to activate a gene only if, for example, a certain virus is present.
"This is going to open up a whole set of possibilities for us, because RNA molecules make decisions and compute information really well, and they detect things really well," Lucks said.
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Engineers devise genetic 'on' switch made exclusively of RNA
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Genetic switch regulates transcription and replication in human mitochondria
Posted: at 5:46 pm
9 hours ago by Heather Zeiger Mitochondria. Credit: Wikipedia commons
(Phys.org)The majority of the human genome is located within the nucleus. However, there is a small but important portion of DNA located within the mitochondria. This mitochondrial DNA (mtDNA) has received much attention in the last few years for tracing ancestry, mitochondrial disease, and three-parent IVF. Mitochondrial DNA's unique properties mean that it has different regulatory mechanisms. A new study by Dmitry Temiakov from Rowan University reports for the first time evidence that mtDNA transcription and replication are regulated by a molecular switch that may provide insight into developmental processes such as embryogenesis and spermatogenesis. The results are reported in Science.
Mitochondrial DNA, unlike nuclear DNA, undergoes transcription and replication at the same location. The transcriptional proteins used to read the mitochondrial RNA (mtRNA) strand, made from the mtDNA, are different from the ones used in replication but occur at the same time and space, which could potentially result in a collision and subsequent problems in gene expression. Temiakov's group investigated whether TEFM, a mitochondrial transcription elongation factor that has been shown to escalate transcription activity in promoterless DNA, plays a role in regulating transcription and replication in the mitochondria.
Transcription in the mitochondria occurs at two locations, the light strand promoter and the heavy strand promoter. Prior studies have shown that transcription terminates early, about 120 base pairs before the light strand promoter, at a region of mtDNA found in most vertebrates, known as CSBII, or conserved sequence block II. A hybrid complex forms with the nascent RNA and the nontemplate strand of DNA.
This complex forms near the origin of the of the replication primer for the heavy strand, and will replicate two-thirds of the mtDNA on the heavy strand. It stops near the origin of the light strand. The now single light strand forms a hairpin structure that is recognized by the mitochondrial RNA polymerase as the signal to begin replication of the light strand.
Temiakov's group showed that in the presence of TEFM, the mitochondrial DNA polymerase does not stop at CSBII as it typically does in human mtDNA transcription, but continues transcribing through the CSBII section. Because TEFM prevents transcription termination, it also prevents the synthesis of the mtDNA polymerase primer that is used in replication. This finding provided one of several clues that TEFM acted to regulate replication and transcription in human mitochondrial DNA.
While conducting this study, the group inadvertently found that because their reference genome has a rare polymorphism in the CSBII region, they observed a decrease in efficiency of the transcription termination mechanism. They believe that the polymorphism disrupted the formation of the G-quadruplex, and that this G-quadruplex is involved in the CSBII mechanism.
Further investigations of how the G-quadruplex is involved in the TEFM mechanism showed that the TEFM interacts with the particular portions of the nascent RNA transcript. Temiakov's group believes that the TEFM interferes with the formation of the G-quadruplex, causing the hairpin structure to not form. This, in turn, does not signal to the mtRNA polymerase to begin replication.
Further studies showed that TEFM affects how well mtRNA polymerase is able to produce long transcripts. Without TEFM, shorter transcripts are formed, terminating at the CSBII region. TEFM increases processivity of mtRNA polymerase.
Temiakov concludes that TEFM serves as a switch that either "turns on" transcription, making it more efficient, or it "turns on" replication. This research indicates that replication and transcription are likely mutually exclusive processes in the human mitochondrial genome precluding the possibility that the transcription and replication processes will collide. Furthermore, this switch may be a key player in the developmental processes in which transcription of mtDNA occurs but not replication.
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Genetic switch regulates transcription and replication in human mitochondria
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Retroviruses reveal mammalian genetics
Posted: at 5:46 pm
February 2, 2015
(Credit: Thinkstock)
Brett Smith for redOrbit.com Your Universe Online
Throughout our evolution, viruses have infected an egg or sperm, incorporated themselves into the genetic code and passed on to future generations. While these viruses appear to have no ill effects on us, some of them have been known to cause cancer and other health problems in other mammals.
For geneticists, these endogenous retroviruses (ERVs)serve another function they can reveal details about a species evolution and genetic diversity.
According to a new study published in the journal Retrovirology, humans have far fewer ERVs than other mammals, including close relatives like chimpanzees. The study team said this discrepancy was probably due to humans starting to use tools and weapons in conflicts as opposed to biting and scratching each other like our primate cousins.
Considering us simply as a primate species, the proportion of human individuals that are infected with retroviruses is much less than among our relatives such as chimpanzees, said Robert Belshaw, a genomics professor from Plymouth University in the United Kingdom.
In the study, the scientists analyzed the genetic signature of the two opposite sides of viruses in 40 mammalian species, including humans. These edges are very similar when the virus first incorporates itself into the genome, but as they get random mutations over time, they slowly start to diverge. By monitoring this split, the study team could see how long the retrovirus had been in an animals genome.
Using this gauge, they learned that far fewer retroviruses were included in the genome for humans and other great apes during the last 10 million years compared to other animals. Even compared to animals very similar to us, humans are abnormal in not getting any new kinds of retroviruses in their DNA over the last 30 million years.
Less blood means fewer viruses
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Retroviruses reveal mammalian genetics
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Advanced Warfare : DNA BOMBE byEnzo – Video
Posted: at 5:46 pm
Advanced Warfare : DNA BOMBE byEnzo
Call of Duty Advanced Warfare https://store.sonyentertainmentnetwork.com/#!/tid=CUSA00851_00.
By: By ReVoX
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Advanced Warfare : DNA BOMBE byEnzo - Video
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AW Domination: 68-3 w/Dropshot 103-7(he got DNA) – Video
Posted: at 5:46 pm
AW Domination: 68-3 w/Dropshot 103-7(he got DNA)
My friend Dropshot and I are playing Domination on solar. I go 68-3 and i go on a 31 streak and he goes 103-7 dropping 100 kills! His first DNA! And a 65+ streak. ENJOY! ( I am very sorry...
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AW Domination: 68-3 w/Dropshot 103-7(he got DNA) - Video
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Synaesthesia DNA Barcode – Video
Posted: at 5:46 pm
Synaesthesia DNA Barcode
Pumzi (2010) By Kenyan Writer/Director Wanuri Kahiu. Film synopsis from Pumzi website: Sc-Fi film about futuristic Africa, 35 years after World War III --The Water War. Nature is extinct....
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Synaesthesia DNA Barcode - Video
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DNA en Ml gnralela galre – Video
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DNA en Ml gnralela galre
Call of Duty Advanced Warfare https://store.sonyentertainmentnetwork.com/#!/tid=CUSA00851_00.
By: DiablaxX__58 Gamer For PS4
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DNA en Ml gnralela galre - Video
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