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Archive for the ‘genetics’ category: Page 418

Mar 23, 2018

Genetic switch activates transformation of stem cells into heart muscle cells

Posted by in categories: biotech/medical, genetics

The discovery of a genetic switch that triggers stem cells to turn into heart cells is a major step in finding treatment for damaged hearts.

Researchers from A*STAR and their colleagues in India have been investigating the molecular and genetic processes by which human embryonic differentiate into the body’s many types of cells—in particular, cardiomyocytes, or .

“The effort is underway globally to find ways to differentiate these stem cells into beating functional heart muscle cells so that they can be used for cell-based therapies to treat structural abnormalities,” says Prabha Sampath, from the A*STAR Institute of Medical Biology.

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Mar 23, 2018

Bioquark Inc. — Evolution of the New SuperHuman — Ira Pastor

Posted by in categories: alien life, bioengineering, business, cosmology, DNA, genetics, health, life extension, transhumanism

Continue reading “Bioquark Inc. — Evolution of the New SuperHuman — Ira Pastor” »

Mar 22, 2018

Changing Regulations Mean Genetically Modified Meat Could Soon Be on Your Plate

Posted by in categories: biotech/medical, food, genetics

Biotech lobbyists and companies are trying to get the Trump administration to hand regulation of genetically edited animals over to the USDA, which has more lenient rules than the FDA, which currently regulates animals.

Low-fat pigs? Chickens with cancer-fighting eggs?

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Mar 22, 2018

Nanospears deliver genetic material to cells with pinpoint accuracy

Posted by in categories: biotech/medical, genetics, life extension, nanotechnology

UCLA scientists have developed a new method that utilizes microscopic splinter-like structures called “nanospears” for the targeted delivery of biomolecules such as genes straight to patient cells. These magnetically guided nanostructures could enable gene therapies that are safer, faster and more cost-effective.

The research was published in the journal ACS Nano by senior author Paul Weiss, UC Presidential Chair and distinguished professor of chemistry and biochemistry, materials science and engineering, and member of the Eli and Edythe Broad Center of Regenerative Medicine and Stem Cell Research at UCLA.

Gene therapy, the process of adding or replacing missing or defective genes in patient cells, has shown great promise as a treatment for a host of diseases, including hemophilia, muscular dystrophy, immune deficiencies and certain types of cancer.

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Mar 22, 2018

Unique communication strategy discovered in stem cell pathway controlling plant growth

Posted by in categories: biotech/medical, food, genetics

A team of plant geneticists at Cold Spring Harbor Laboratory (CSHL) has identified a protein receptor on stem cells involved in plant development that can issue different instructions about how to grow depending on what peptide (protein fragment) activates it.

This is the first such multi-functional receptor found to work in this way to control . The new findings obtained by CSHL Professor David Jackson and colleagues may have important implications for efforts to boost yields of essential food crops such as corn and rice.

Plant growth and development depend on structures called meristems — reservoirs in plants that contain . When prompted by peptide signals, stem in the meristem develop into any of the plant’s organs — roots, leaves, or flowers, for example. These signals generally work like a key (the peptide) fitting into a lock on the surface of a cell (the ). The lock opens momentarily, triggering the release of a inside the cell. The messenger carries instructions for the cell to do something, such as grow into a root or flower cell or even stop growing altogether. Conventionally, one or more peptides fit into a receptor to release a single type of chemical messenger.

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Mar 21, 2018

13-Year-Old Boy Is First Person in US to Receive Newly Approved Gene Therapy for Blindness

Posted by in categories: biotech/medical, genetics

On Tuesday, a 13-year-old boy from New Jersey was at the center of medical history as he became the first person in the US to receive an FDA-approved gene therapy for an inherited disease. The event marks the beginning of a new era of medicine, one in which devastating genetic conditions that we are born with can be simply edited out of our DNA with the help of modern biomedical technologies.

The therapy, Luxturna, from Spark Therepeutics, was approved by the FDA in December to treat a rare, inherited form of blindness. Its price tag, set at $850,000—or $425,000 per eye—made it the most expensive drug in the US and sparked mass sticker-shock. But the therapy, which in high-profile clinical trials has allowed patients to see the stars for the first times, also offered the almost miraculous possibility of giving sight to the blind.

The therapy is intended to treat retinal diseases, including leber congenital amaurosis or retinitis pigmentosa, caused by mutations in the RPE65 gene. The RPE65 gene produces an enzyme that helps the eye process light. In these disorders, severe visual impairment begins often in infancy, and sometimes degrades over time. Some people with a mutated copy of the gene can see during the day; others are legally blind. The drug works by delivering a correct copy of the RP65 gene to retinal cells, allowing the patient to produce the deficient enzyme—and, hopefully, restoring their vision. (Luxturna is considered by some to be the first “true gene therapy” approved by the FDA, since other approved therapies, like those for blood cancers, involve removing a patient’s cells from their body, modifying them externally, and then infusing them back into the body.)

Continue reading “13-Year-Old Boy Is First Person in US to Receive Newly Approved Gene Therapy for Blindness” »

Mar 21, 2018

Anyone Can Now Take This Breast Cancer Gene Test, But It Probably Won’t Tell You Much

Posted by in categories: biotech/medical, genetics

Breast and ovarian cancers are scary, anxiety-provoking diseases, and with good reason. Although breast cancer isn’t the cancer that kills the most women (lung cancer holds that distinction), it is the most commonly diagnosed cancer in women. And ovarian cancer is difficult to find in its early stages. But anyone willing to spit in a tube and pay $199 will soon be able to find out if they have a particular genetic predisposition to either of these cancers.

This month, the FDA granted the genetics company 23andMe permission to offer direct-to-consumer testing for three of the more than 1,000 known variants of the genes BRCA1 and BRCA2The variants may also boost the risk of prostate cancer and melanoma.

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Mar 21, 2018

Bioquark Inc. — Al Bayan News (UAE) — AI and Health — Ira Pastor

Posted by in categories: aging, automation, big data, bioengineering, biotech/medical, business, computing, genetics, health

https://www.albayan.ae/middle-east-dialogue/2018-03-20-1.3214947

Mar 20, 2018

Targeting levels of specific protein could improve memory in aging, reduce symptoms of PTSD

Posted by in categories: biotech/medical, genetics, life extension, neuroscience

A neural circuit mechanism involved in preserving the specificity of memories has been identified by investigators from the Massachusetts General Hospital (MGH) Center for Regenerative Medicine and the Harvard Stem Cell Institute (HSCI).

They also identified a genetic “switch” that can slow down #memory generalization — the loss of specific details over time that occurs in both age-related memory impairment and in post-traumatic stress disorder (#PTSD), in which emotions originally produced by traumatic experiences are elicited in response to innocuous cues that have little resemblance to the traumatic memory.

“The circuit mechanism we identified in mice allows us to preserve the precision or the details of memories over the passage of time in adult as well as aged animals,” says Amar Sahay of the MGH Center for #Regenerative Medicine and HSCI, corresponding author of a paper appearing in Nature Medicine. “These findings have implications for the generalization of traumatic memories in PTSD and for memory imprecision in #aging.”

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Mar 20, 2018

Bioquark Inc. — Senior Care — Reversal Of Age-Related Diseases — Ira Pastor

Posted by in categories: aging, bioengineering, biological, biotech/medical, disruptive technology, DNA, futurism, genetics, health, science