1. Standard memberGrampy Bobby
    Boston Lad
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    02 Aug '14 20:501 edit
    Science's Top 10 Breakthroughs of 2013 By Robert Coontz (19 December 2013 2:00 pm)

    "Every year, the editors of Science huddle together and pick an outstanding scientific achievement as the Breakthrough of the Year. This year’s winner is CANCER IMMUNOTHERAPY: harnessing the immune system to battle tumors. Scientists have thought for decades that such an approach to cancer therapy should be possible, but it has been incredibly difficult to make it work. Now, many oncologists say we have turned a corner, because two different techniques are helping a subset of patients. One involves antibodies that release a brake on T cells, giving them the power to tackle tumors. Another involves genetically modifying an individual’s T cells outside the body so that they are better able to target cancer, and then reinfusing them so they can do just that.

    We are still at the beginning of this story and have a long way to go. Only a very small proportion of cancer patients have received these therapies, and many are not helped by them. Doctors and scientists still have a lot to learn about why the treatments do and do not work. But the results have been repeated at different centers and in different tumor types, giving doctors hope that immunotherapy for cancer may benefit more and more people in the future.

    The editors also singled out nine “runners-up” for special praise:

    GENETIC MICROSURGERY FOR THE MASSES

    A year-old gene-editing technique called CRISPR touched off an explosion of research in 2013. It’s short for “clustered regularly interspaced short palindromic repeats”: repetitive stretches of DNA that bacteria have evolved to combat predatory viruses by slicing up the viral genomes. The “knife” is a protein called Cas9; in 2012, researchers showed they could use it as a scalpel to perform microsurgery on genes. This year, the new technology became red hot, as more than a dozen teams wielded it to manipulate specific genes in mice, rats, bacteria, yeast, zebrafish, nematodes, fruit flies, plants, and human cells, paving the way for understanding how these genes function and possibly harnessing them to improve health.

    CLARITY MAKES IT PERFECTLY CLEAR

    This year, researchers invented a new way of imaging the brain that many say will fundamentally change the way labs study the intricate organ. CLARITY, a method of rendering brain tissue transparent, removes the biggest obstacle to traditional brain imaging: the fatty, light-scattering molecules, called lipids, which form cellular membranes. By replacing lipids with single molecules of a clear gel, the technique renders brain tissue transparent while leaving all neurons, other brain cells and their organelles intact. This allows researchers to infiltrate the brain with labels for specific cell types, neurotransmitters, or proteins, wash them out, and image the brain again with different labels—a process they say could speed up by a hundredfold tasks such as counting all the neurons in a given brain region.

    HUMAN CLONING AT LAST

    After more than a decade of failures, researchers announced they had derived stem cells from cloned human embryos. Such cells can develop into any of the body’s cell types, and researchers hope to use them to study and treat diseases. Mice, pigs, dogs, and other animals have been cloned by the same technique used on Dolly the sheep, but human cells have proved much trickier to work with. This year a new recipe—including a dash of caffeine, which appears to stabilize key molecules in delicate human egg cells—solved the problem. Now, researchers must determine how embryonic stem (ES) cells from the cloned embryos stack up against induced pluripotent stem cells, which behave much like ES cells but are not derived from human oocytes or embryos.

    DISHING UP MINI-ORGANS

    In theory, pluripotent stem cells have the ability to become any type of cells in the body, but coaxing the cells to grow into specific tissues is still a challenge. This year, researchers made remarkable progress by growing “organoids”—liver buds, mini-kidneys, and even rudimentary human brains—in the lab. Although the brains have no blood supply and stop growing when they reach the size of an apple seed, their tissue and structure are surprisingly similar to those of developing human brains. Researchers have already used them to gain new insights into microcephaly, a condition in which the brain doesn’t grow to its full size.

    COSMIC PARTICLE ACCELERATORS IDENTIFIED

    Cosmic rays—high-energy protons and other particles from outer space—were first detected 100 years ago. Now, researchers have finally nailed down solid evidence of where they come from. Theorists had long suspected that most are accelerated in the shock waves from massive exploding stars, or supernovae. If so, they reasoned, some of the particles must collide with atoms in space to produce subatomic particles called pions, which would then decay into gamma rays. This year, the Fermi Gamma-ray Space Telescope spotted the telltale pion-decay signature in the debris from two supernovae.

    NEWCOMER JUICES UP THE RACE TO HARNESS SUNLIGHT

    A new breed of materials for solar cells burst into the limelight this year. Known as perovskites, they are cheap, easy to make, and already capable of converting 15% of the energy in sunlight to electricity. While that remains below the efficiency of commercial silicon solar cells, perovskites are improving fast. One particularly promising feature is that they can be layered on top of silicon solar-cell material to harness a range of wavelengths that neither could capture alone.

    TO SLEEP, PERCHANCE TO CLEAN

    Scientists have long speculated that one of the functions of sleep is to restore and repair the brain, but whether this is a "core" purpose of sleep remains controversial. This year, researchers found direct experimental evidence that the mouse brain cleans itself during sleep, by expanding channels between neurons that allow an influx of cerebrospinal fluid. The fluid flushes out detritus such as amyloid proteins, which accumulate as plaques in Alzheimer's disease, twice as fast when mice are sleeping as when they are awake.

    YOUR MICROBES, YOUR HEALTH

    More than 100 trillion cells bearing 3 million genes live inside the human body. This year, researchers evaluating everything from malnutrition to cancer therapies came closer to pinning down several key roles for these cells and genes in determining how the body works. The results strengthen the case that personalized medicine will need to take our microbial guests into account to be effective. Many more details of how the bacteria can fuel or fight disease—particularly by influencing the immune system and inflammation—should emerge in the coming year.

    IN VACCINE DESIGN, LOOKS DO MATTER

    Researchers have long hoped that structural biology, the study of the molecules of life, would help them design better vaccines. This year, it began to deliver. After crystallizing and analyzing an antibody that the body uses to combat respiratory syncytial virus (RSV) infections—which hospitalize millions of infants each year—scientists designed an immunogen (the main ingredient of a vaccine) that overnight became a leading candidate in the race to develop an RSV vaccine. Experts say this is the first time structural biology has clearly led to such a powerful immunogen. Other researchers are now harnessing the same tools in efforts to develop new HIV drugs."

    http://news.sciencemag.org/2013/12/sciences-top-10-breakthroughs-2013

    Note: As a newcomer, I find these scientific breakthroughs fascinating and would appreciate your comments. Thanks.
  2. Subscribersonhouse
    Fast and Curious
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    03 Aug '14 02:33
    Originally posted by Grampy Bobby
    [b]Science's Top 10 Breakthroughs of 2013 By Robert Coontz (19 December 2013 2:00 pm)

    "Every year, the editors of Science huddle together and pick an outstanding scientific achievement as the Breakthrough of the Year. This year’s winner is CANCER IMMUNOTHERAPY: harnessing the immune system to battle tumors. Scientists have thought for d ...[text shortened]... r, I find these scientific breakthroughs fascinating and would appreciate your comments. Thanks.[/b]
    Human cloning has a lot of ethical issues. Genetic manipulation of immune system is one thing but what if you create a human with no brain or something?

    One thing I see, the deliberate attempt to do just that, cloning some billionaire so that person can have new replacement parts on order that will not require immune suppressors.

    A billionaire could spend 800 million and still be super rich afterwards with new heart, lungs, kidney, liver, etc.

    That seems inevitable. We can pass all the ethics based laws we want here but in Costa Rica or Libya? Money would definitely talk. A secret lab, a few hundred million bucks on the project to keep Bill in organs.....
  3. Joined
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    03 Aug '14 09:154 edits
    Originally posted by sonhouse
    Human cloning has a lot of ethical issues. Genetic manipulation of immune system is one thing but what if you create a human with no brain or something?

    One thing I see, the deliberate attempt to do just that, cloning some billionaire so that person can have new replacement parts on order that will not require immune suppressors.

    A billionaire could ...[text shortened]... itely talk. A secret lab, a few hundred million bucks on the project to keep Bill in organs.....
    what if you create a human with no brain

    Arr at last! The perfect soldier! One that cannot think and question!

    A bit more seriously, it could be used to transfer your brain into a new brainless body when eventually your old body has had it!
    In this way, you could be partly rejuvenated although, if you get dementia, this wouldn't help you much.
    Genetic manipulation of immune system is one thing

    I had the idea of giving us complete immunity to all viruses by simultaneously changing the codon language of each cell of the body so that each DNA codon codes for a different amino acid and changing the whole genome of each cell so that it is written in this new language. The idea being that if now a virus enters such a cell, its genes would be written in the wrong language and, instead of coding for functional well shaped virus proteins, will code for a kind of 'junk' protein that would not function. The virus still could theoretically kill the first cell it infects (by making it waste too much energy making junk protein ) but, because the virus cannot replicate, the infection very rapidly stops right there and you shouldn’t get any symptoms of infection. You would in effect have complete immunity.

    A possible compromise of this idea is to do this only to the epithelial cells since the vast majority of contagious viruses with only a few rare exceptions normally first only infect an epithelial cell when first entering the body before multiplying and spreading and causing disease. Unfortunately, one of the exceptions to that is the dreaded rabies so I would say go the whole hog if you can do so safely and get all your cells modified including your brain cells.

    Merely changing the codon language would help protect you from bacterial or other non-viral infects but viral infections make up many of the worst diseases of the world so it would still be a big help. It would take many millions of years for a new virus to evolve to infect cells with a completely new codon language thus giving plenty of time to do something about that which could be to very simply and quickly change the codon language again!
  4. Joined
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    03 Aug '14 10:332 edits
    Originally posted by humy
    what if you create a human with no brain

    Arr at last! The perfect soldier! One that cannot think and question!

    A bit more seriously, it could be used to transfer your brain into a new brainless body when eventually your old body has had it!
    In this way, you could be partly rejuvenated although, if you get dementia, this wouldn't help ...[text shortened]... something about that which could be to very simply and quickly change the codon language again!
    Misprint:
    "Merely changing the codon language would help protect you from bacterial or other non-viral infects "
    should have been:
    "Merely changing the codon language would not help protect you from bacterial or other non-viral infects "
    My editing skills are poor.
  5. Cape Town
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    03 Aug '14 15:28
    Changing the codon language would probably also mean you couldn't have children with a 'normal' person - although this isn't necessarily the case.
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