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«    April 2019    »










DateDate: 30-04-2019, 06:38


                                                                                                             INNOVATOR RECOMMENDS !!!

  Personal non-property and property rights to the invention belong to the author, and are protected according to the norms of the current legislation.
  The work of the photo editor "Photopoint" is directly related to the GPS data of the place where the photo was taken.
  The innovative photo editor "Photopoint" will be a separate mobile application that can be downloaded and any user can apply it at will. In the description, for example, we will try to disclose the meaning of the work of this startup.
  The user, having chosen the mobile application of the photo editor "Photopoint", has the ability to make photos with this mobile application and make videos. It is no longer the news that the photos taken in any operating system are immediately attached to the place of their removal on the principle of GPS-coordinates. Photo editor "Photopoint" initially does the same.
   Innovative component follows further - the photo or video virtually remains in place of their photographing on the map, which will be part of the functionality of this startup. Users can open their account for free viewing of all their captured photos and video materials with a map using the special function of this photo editor. All these open photo sessions remain on the interactive map "Photopoint". And with a new photo shoot, any other user by sending the lens of his gadget to a place where there were already virtual photo session locations can view all open photo sessions of other users of the innovative photo editor and take advantage of the view of previous photographers, or by combining his new photo with a photo of another user this application. This is based on the principle of the game "Pokemon Go", only here to catch or browse is not the fairy-tale characters, but the real open places where photos or videos were made. Also, those places where there will be open photo sessions of other users will be accompanied by a sound signal. That is, in the active mode this application will notify its user about those places where there were photo sessions of other users and they are open. And if it is easier to describe, now it is possible or it will be necessary to "catch" photos and video materials of other users with the help of binding to the terrain.
  This is a small description of the functionality of the innovative photo editor "Photopoint". All other comments and a more accurate description of the structure of the startup and its content can be found directly with its developer, using the contact information that is placed on the platform "Innovator".
  This idea is open for both investment and full redemption.

DateDate: 30-04-2019, 06:34

The CRISPR genome editing technology was developed initially with the aim of providing treatment and prevention of genetic diseases, but later this technology, which turned into a powerful tool, found application in several other areas, including synthetic biology. Recently, researchers from the Swiss Federal Institute of Technology in Zurich (Swiss Federal Institute of Technology, ETH Zurich) used CRISPR technology to create functional biocomputers embedded directly into human tissue cells.
Note that living organisms can already be considered a kind of biocomputers, the cells of which play the role of logical elements, drawing input data from the outside, processing this data and reacting to them by certain metabolic processes. "The human body itself is a big bio-computer," says Martin Fusseenegger (Martin Fussenegger), lead researcher, food".
The use of natural processes occurring inside living cells to build logical circuits is one of the main goals of synthetic biology. In this case, researchers from ETH Zurich found a way to introduce a dual-core bioprocessor into human cells, and a specially developed version of the Cas9 enzyme used in CRISPR technology was used as such a bioprocessor.
The Cas9 enzyme reads the initial data from the RNA molecule and on the basis of these data activates or deactivates certain genes, which, in turn, leads to the production of specific proteins by the cell. A feature of the Cas9 enzyme is that it has two “digital inputs”; it can simultaneously read two numbers, process them, and produce two independent results. In other words, this enzyme, introduced into the cell nucleus, is a simple dual core bioprocessor capable of performing two independent tasks.
Billions of such cells equipped with bioprocessors can be combined in the future into powerful bio-computers capable of diagnosing and independently curing various diseases. These computers will search for specific biomarkers corresponding to various diseases, and produce drug molecules. Depending on the number of detected biomarkers, the biocomputer will produce medicinal molecules of different types that will act as efficiently as possible in each particular case.
DNA-based artificial material behaves almost like a living organism.
“Imagine an implant consisting of human-patient tissues whose millions or billions of cells contain binuclear bioprocessors,” says Martin Fassenegger, “Such“ computational ”bodies can theoretically have a computing power far surpassing that of digital supercomputers. a biological supercomputer will require a very small amount of energy, which cannot be compared even with the amount of energy consumed by an ordinary desktop computer. m "