Wednesday, August 23, 2017

A perfect dog-wagging storm

So many lies in the media; we are being inundated with a veritable perfect storm of force multipliers coming from all directions including rapid-succession false flag events, timed with surgical precision following a heavily-scripted narrative: wag the dog on steroids.  

Meanwhile the fallout is multifold: new calls for stricter gun controls and restrictions of civil liberties, along with absolute thug brute censorship, abrupt and with no explanation, and it's happening widespread from ISPs to Facebook and Youtube/Google.

I am certain a new form of the Phoenix program is being implemented using the trojan embedded spy software we continue to learn about via the Wikileaks dumps, and at one point down the road in typical gulag style 430am roundups will begin and those fema camps will begin filling up.   It's all a question of when.

Marching ever closer to their holy grail goal of "civil unrest" these antifa and fake "nazi" groups funded by folks like Soros are proliferating and must be stopped.   Domestic terrorism of any sort is felonious at the very least and should be met with justice.  Freedom of speech must be preserved.

And #pizzagate must continue to be investigated as well.  More and more cases are being exposed, with dozens of prosecutions happening weekly, and the ties to the Clinton Foundation have solidified.   Researchers on the imageboards are doing fantastic sleuthing and reporting, while connections continue to be drawn, leading to highlevel politicians worldwide and more.  At some point soon I hope to update the related page on this blog.

Lastly, yesterday's eclipse completely disproved heliocentrism in multiple ways.   I encourage all to do some homework, both by visiting the related page here on this blog as well as the Flat Horizon imageboard at 8chan; both serve as good starting points for those new to this field of research.  Seems True feels like bringing Edward Hendrie back on the show to discuss this, perhaps as soon as this Friday; stay tuned.

DOXXED! – List Of Every Single Antifa Member Released By 8chan

[50 U.S.C. 781 et seq.](Aug. 24, 1954, ch. 886, § 3, 68 Stat. 776.)

The Communist Party of the United States, or any successors of such party regardless of the assumed name, whose object or purpose is to overthrow the Government of the United States, or the government of any State, Territory, District, or possession thereof, or the government of any political subdivision therein by force and violence, are not entitled to any of the rights, privileges, and immunities attendant upon legal bodies created under the jurisdiction of the laws of the United States or any political subdivision thereof; and whatever rights, privileges, and immunities which have heretofore been granted to said party or any subsidiary organization by reason of the laws of the United States or any political subdivision thereof, are terminated: Provided, however, That nothing in this section shall be construed as amending the Internal Security Act of 1950, as amended

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Sunday, August 20, 2017

NASA sending up lab-created pathogenic bacteria for the eclipse? WHISKEY TANGO FOXTROT

Folks, you just cant make this stuff up.

NASA Launching Huge Bacteria-Filled Balloons During Solar Eclipse on Monday

During the much-anticipated solar eclipse on Monday, NASA in collaboration with Montana State University, is launching giant balloons filled with bacteria into the stratosphere.

And it's not because NASA is just super excited about the solar eclipse. This endeavor is part of the Eclipse Ballooning Project, which will help researchers prepare for a Mars trip.  [MEGAPUKE]

Teams across the US are sending approximately 75 balloons equipped with cameras and trackers over 80,000 feet in the air. Over 30 of the balloons will also carry a highly resilient strain of bacteria called Paenibacillus xerothermodurans attached to aluminum "coupons." Scientists are hoping to discover how the bacteria will react in the surface atmosphere on Mars. [MEGAPUKE]

"We have to be extremely careful that we don't bring bacteria or other tiny Earth organisms to other planets," project leader and Director of the Montana Space Grant Consortium Angela Des Jardins, told Gizmodo.

"While most of these tiny forms of life that exist in abundance around us won't survive the trip through space, it's understood that some resilient types could ‘go dormant' on the trip and then survive on the surface of the other planet. Therefore, in order to be prepared to keep planets we visit absolutely pristine, it's important to understand how bacteria might behave there."

The balloons will also carry cameras to capture videos of cloud formations during the solar eclipse. Some of the balloons will also have weather stations called radiosondes attached to them so that researchers can identify how earth's atmosphere changes during an eclipse.

"We anticipate having high-quality video and images back from the balloons flights within a day or two," Jardins said.

"Analysis of the bacteria experiment will be done by scientists at Cornell and it will likely be a month or two before results are ready. Analysis of the atmospheric response to the eclipse (from our special set of weather balloons) will similarly take a month or two."

So, it seems like researchers are ready to gain lots of knowledge from the solar eclipse taking place in a couple days. Wondering how you can benefit from the balloon experiment? Well, NASA will be livestreaming the eclipse on the internet using its balloon cameras. Now, that's an interesting vantage point you can brag to your friends about.

Wednesday, August 2, 2017

Genetically Engineering Nature Will Be Way More Complicated Than We Thought

Genetically Engineering Nature Will Be Way More Complicated Than We Thought

Kristen V. Brown


For more than half a century, scientists have dreamed of harnessing an odd quirk of nature — "selfish genes", which bypass the normal 50/50 laws of inheritance and force their way into offspring — to engineer entire species. A few years ago, the advent of the CRISPR-Cas9 gene editing technology turned this science fictional concept into a dazzling potential reality, called a gene drive. But after all the hype, and fear of the technology's misuse, scientists are now questioning whether gene drives will work at all.

Image: Getty Images

Gene drive is a molecular technology that forces an edited gene to be passed along into all of an organism's offspring, overriding nature's 50/50 inheritance mix. The first human-engineered gene drive was only demonstrated in fruit flies in 2015, but scientists were soon talking about using gene drives to exterminate invasive pests or kill off throngs of malarial mosquitoes.

But soon after, other researchers demonstrated that as an infertility mutation in female mosquitoes was successfully passed on to offspring over many generations, resistance emerged, allowing some mosquitoes to avoid inheriting the mutation. Just as bacteria can develop resistance to antibiotics, wild populations can develop resistance to modifications aimed at destroying them. Gene drive, dead.

Now, in a new paper out today in PLOS Genetics, scientists at Cornell show that, at least in fruit flies, many more flies than expected seemed to possess a natural genetic resistance to gene drive. The paper offers even stronger evidence that engineering large populations of wild species isn't as simple as splicing open a genome and inserting some gene drive DNA.

In New Zealand, the government is mulling using gene drives to wipe out invasive pests. On Nantucket and Martha's Vineyard, one scientist wants to use it to eradicate Lyme disease. In Guam, they want to control tree snakes. But not so fast, scientists are saying.

"These resistance rates were so high that a gene drive would not spread in a population," Phillip Messer, a co-author on the study, told Gizmodo. "Our take home is that resistance is clearly a bigger problem than we had initially thought. This technology could still work, but it's not as simple as the first papers suggested."

The Cornell paper appeared alongside an opinion piece with a headline that suggested a provocative notion: Until now, the conversation about gene drives has existed in a reality-free bubble.

"This 'resistance' outcome would easily thwart virtually any intended application of a gene drive, and it poses a serious challenge to the many hoped-for applications of this technology," its' authors wrote."Our take home is that resistance is clearly a bigger problem than we had initially thought. This technology could still work, but it's not as simple as the first papers suggested."

Resistance isn't the only hurdle to putting gene drives to practical use. For one, so far, synthetic gene drives have only been demonstrated to work in insects and yeast. Safety is a big concern. And based on the outcry such science has already seen from environmental groups, it's safe to say there will be a fair number of regulatory and political obstacles, too.

But resistance may very well be the biggest problem, and it's a problem that has been downplayed until recently.

"People are starting to dig more into the nuances of this stuff and we're getting into the nitty gritty of what needs to be addressed," Gabriel Zenter, an Indiana University biologist, told Gizmodo.

In the new research, scientists for the first time gave some hint of the mechanisms that may be responsible for resistance. Certain flies, even though they were all members of the same species, just seemed to be better equipped genetically to fight back against a drive. They also found that resistance developed both before fertilisation in the germline, and within an embryo. And resistance could crop up within a single generation. This means that were a gene drive deployed in the wild, it is hard to say how effective it would really be.

"You don't know whats lurking around in the genome that could influence a gene drive positively or negatively," said Zenter, who was not associated with the study. "People didn't anticipate things like the genetic background issue. I think we're kind of coming towards a more mature understanding of the hurdles that will need surmounted."

At least a few research groups already are working on a way around those hurdles. In another paper out this year, researchers proposed a way to redesign gene drives in order to work around potential immunity, hypothesising that a more complex architecture would make it difficult for a mutation to occur in a short period of time. Instead of just including instructions for a gene drive to cut a piece of DNA in one place, their architecture it cuts in multiple places, meaning it would require multiple mutations to overwrite the drive. They also suggested a second method that harnesses a species' survival programming, targeting areas of the genome that are essential to a species' fitness, and which are less likely to mutate in the first place.

In a pre-print paper, Messer's lab has already experimented with the first scenario. "It works, but not as well as we had hoped," he said.

In the end, he said, a working gene drive will probably be much more complex than anyone imagines, incorporating several different strategies into the architecture to override resistance.

Charleston Noble, a Harvard PhD candidate studying gene drives, is more optimistic. After all, he points out, mosquito species have shown to be naturally less likely to develop resistance than fruit flies. Not every species might be so tricky to manipulate, and in some cases you may not need to alter an entire population to bring about the desired change.

And Kevin Esvelt, a synthetic biologist at MIT, said the experiments only confirmed what scientists have long known.

"These elegant experiments conclusively show that there is no reason to build a gene drive system that only cleaves a single site," he told Gizmodo. "I'm not so sure it amounts to popping a 'bubble' in the field, or that this is any kind of new reality."

In the realm of synthetic biology, it has become a well-worn cliche that "life finds a way". In the end, though, there is something to it. Engineering nature will require more than the flip of a simple genetic switch.