Friday, January 24, 2014


Each cell in your body is a whole world in itself,
passing on genetic memories to the next generation of cells.
Yet in its deepest essence, at the crossroads
where the scientist and the mystic
gaze at each other in absolute surprise,
we find nothing but emptiness.

If only you took the time to really listen to your body,
you would find that it has a lot to tell you
about the mystery of life.
In fact, you don't have to travel any farther
than into your body to collide with the divine.

- Chameli Ardagh

www.awakeningwomen.com

Photo by Caras Ionut

Tuesday, January 21, 2014

music

“Music is the door, the bridge between us and our soul. It is like a ray of light which illuminates the darkness of our fears and disintegrates all inhibitions. When we completely lose ourselves in an honest musical experience, we are our true selves: open, vulnerable...real.”

http://unfoldingsecrets.com/unfolding-secrets-a-symphony-of-the-heart/


Monday, January 20, 2014

cymatics -tesla free energy


Cymatics is the study of visible sound and vibration. By sending sound waves through matter such as sand on a plate a cornstarch and water mixture, various geometric patterns emerge depending on the frequency and amplitude of the sound being played.

Matter itself is made of atoms which are all tiny oscillators vibrating in the structure of the vacuum and are each made of 99.999999% space. Nikola Tesla was correct when he said "Our entire biological system, the brain and the Earth itself, work on the same frequencies." It's time to tune our biology and our consciousness to resonate with the fundamental harmonics of the universe. Perhaps we will know when it is happening by looking for patterns in the structure of space: sacred geometry & the flower of life.

Check out what happens to this cornstarch mixture when vibrated with sound!
http://www.youtube.com/watch?v=3zoTKXXNQIU

images: http://cymatics.org/

The Resonance Project ~ The Resonance Project - Página Oficial Hispana ~ Nassim Haramein ~ Nikola Tesla ~Nikola Tesla ~ Science Is Awesome ~ Physics is AwesomePhys.org ~ ScienceAlert ~ The Universe ~ I Love Physics

Saturday, December 7, 2013

supernova and mutation

Supernovae may Drive Evolution on Earth

On Earth, we have an almost incomprehensible array of life. It comes in millions of different forms (the best estimate puts the figure at 8.7 million species, not counting bacteria). What's more, these organisms are only an addition to the species that have long been extinct. What causes such diversity?

The answer seems rather simple -- seemingly random genetic mutations drive evolution. These mutations are the raw materials of genetic variation; without them, evolution could not occur. But what actually drives these random mutations? Well, this is where things get a little complicated; however, new light has been shed on one possible factor – supernovae.

Learn more at:
http://www.fromquarkstoquasars.com/supernovae-may-drive-evolution-on-earth/

Thursday, November 28, 2013

ISON

Happy Perihelion Day! Comet ISON and its brush with death.

Today, at 1:24:57pm Eastern time (18:24:57 UT) Comet ISON will be at its perihelion with the sun, meaning it’ll be at its closest with the sun for this orbit. ISON will be passing within 1.2-million kilometers (730,000 miles) of the Sun – close enough that ISON will actually enter the Sun’s corona, forcing it to endure temperatures of a million or so degrees (Celsius) for a few seconds. The comet will either survive it’s fiery pass or it’ll break up and be destroyed. Right now, ISON is estimated to have a visual magnitude of about -5, and it could get brighter during (and after) the perihelion. For reference, Venus has an apparent magnitude of –4.9 at its brightest. So, right now, ISON is brighter than Venus.

In case you are interested, you can actually watch ISON today as it makes a grazing pass with the Sun, but you have to be VERY careful because you don’t want go blind in the process. FQTQ has your back with our guide to viewing ISON throughout the day. For those of you interested, we'll also be hosting a Hangout where you can watch the comet pass perihelion (and, maybe disintegrate in the process).

You can see an awesome GIF of ISON and learn how to safely view the comet here: http://www.fromquarkstoquasars.com/happy-perihelion-day-comet-ison-and-its-brush-with-death/

You can also join the hangout and learn more about it here: https://plus.google.com/events/cat3gj2bfq1okj0345tf3sdcanc

Thursday, November 14, 2013

RSS MIBELLE,GERMANY.

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Tuesday, November 12, 2013

Cell regenaration -Wolverine

The gene, Lin28a, is being dubbed the "Wolverine" or "Fountain of Youth" gene. It's usually only produced in developing embryos, but when switched on in adult mice it causes them to grow hair faster and repair bone, cartilage, skin and other soft tissues almost completely. Lin28a works by boosting metabolism in mitochondria, a discovery that could lead to regenerative treatments in humans.

Mice that had been genetically engineered to develop tumours failed to do so. Instead, the animals grew up to be huge and very hairy. And when the tips of the pups’ toes were clipped off in a routine tagging procedure, they often grew back.
What was different about these mice was that they carried a protein, Lin28a, which is generally produced only in developing embryos. Lin28a has already garnered attention for its involvement in the functioning of stem cells and in cancer. A study published today in Cell1 now shows that this protein can improve tissue repair — even in adults. In mice genetically modified to produce the protein throughout their lives, the animals’ hair grew faster than normal and puncture wounds in their ears healed almost completely.
“We were just so shocked that such a small change in this gene could have profound effects on a complex regenerating tissue,” says Hao Zhu, a cell biologist at the University of Texas Southwestern Medical Center in Dallas and an author on the study.
Resetting cells using embryonic genes has been seen before, most prominently in the creation of cells known as induced pluripotent stem cells, which acquire an embryonic-like state after a suite of genes is activated. But the latest study reveals that such de-ageing changes can be made not just in cultured cells, but in developed tissues within an organism. It suggests that it might be possible to make older tissues behave more like young ones, which are much better at repairing damage. In mammalian fetuses, for example, even deep wounds can heal without scarring.
“Your body knows what age it is, and genes regulate that knowledge,” says Zhu. “There are genetic regulators that dictate that. We don't know what all of them are, but I think Lin28a is one of them.”

Selective action

Not everything that the researchers tested gained extra healing power with Lin28a, however. Heart regeneration, for example, was not boosted . And the tips of clipped toes did not grow back once the mice had reached young adulthood. But accelerated regrowth of hair and of the cartilage and connective tissue in the ear continued.
“The fact that it doesn't work sometimes is even more interesting because it raises the question why,” says Daniel Goldman at the University of Michigan in Ann Arbor, who has studied the role of Lin28 in regenerating retinas in zebrafish. He suspects that some tissues, like the heart, may have mechanisms that resist resetting.
What is particularly intriguing is how Lin28a resets the biological age of a cell. The protein is most studied for its effects on an RNA molecule called let-7, which restricts cell proliferation and boosts maturation. But Zhu and his colleagues found that Lin28a also affects cellular metabolism by boosting the levels of several enzymes involved in the functioning of mitochondria, the energy-producing organelles in cells.
The fact that metabolism was involved in the healing effect was the most surprising result, says Shyh-Chang Ng, a cell biologist at Boston Children’s Hospital in Massachusetts and one of the study's authors. “Most biologists would think that you need a special factor to generate the healing pathway, but this is a thing that every cell has,” he says.
This idea is still a long way from having medical applications, however, says Ng. Most drugs target either enzymes or receptors on a cell's surface. Lin28a is neither; it is an RNA-binding protein located in the nucleus, and is therefore hard to target with conventional drugs. Furthermore, it has many effects on a cell, so knowing which to focus on is unclear.