Of course, some would question the idea of seeing these two geniuses and current giants of science as ancient biohackers. However, when it comes to studying the techniques, methods, concepts, logic and methodology of modern biohacking, it is not much different from the initial actions of these scientific giants. So we can at least say that these are concrete models of the biohacking movement. DIY and crafting techniques are common in many fields, including biology, and are discovered randomly by many researchers and hobbyists through logical research methods.
The biohacking movement is the practice of combining conceptual biology with the hacking movement. Although it is considered an amateur sport, like computing, it is moving towards professionalization, even commercial use and standardization of methods, such as the creation of Hello World and the biohacking movement for biological sciences, as methods for beginners. When one considers the biohacking movement Being an amateur, we have to remember that great computer hackers don’t even have a college degree in most cases, and many of them have nearly brought down big companies with their professionalism. Changes in the world and concepts have to rethink what specialization is. In World War II, the elite unit known as the SS was seen as an amateur group by allies, including historians specializing in tactics and war operations. When we look at why, we realize that they are right to think they are hobbyists and don’t have the same rigorous training, heavy weapons logistics, strategic tactics of mass annihilation as the military. From this comparison we can realize that this does not equate to calling it an amateur biohacking movement, although in some cases it does, compared to computer hackers, although they are classified as hobbyists, they bring The damage and technological advancements are enormous, and in this case, we can consider the biohacking movement in this environment.
“We are in a time of greater awareness of fearlessness.” Marie Curie.
The reality is that the biohacking movement is expanding its reach and possibilities. Starting with Mendel and the pea, gene discovery, gene sequencing, has made great strides so far, but remains incompatible with demands such as the complexity of biological sciences. The biohacking movement emerged as a third way, well beyond world-wide brainstorming.
However, it’s important to understand that in the beginning, it’s important to consider alternative and low-cost tools for biohacking, while understanding that this is not the focus of the biohacking movement. Think carefully about this detail. Edsger Dijkstra exposes Conform: “Computer science is not about computers any more than astronomy is about telescopes”.
There is a movement underway to produce scientific advances, new tools, new means and new methods of science and technology at lower cost. Who could imagine someone doing genetic sequencing on their desk at home, or even using analysis software to study the results? This kind of non-institutional movement, as a third way, also occurs in computing advances brought about by hackers! The biohacking movement is an integral part of the concept of transhumanism. The purpose of this article is not to list the possibilities of biohacking. We discuss new technologies, tools and access to advanced information in an open mode for more access. In short, more people and more brains are working and thinking in pursuit of the same innovative goals and discoveries.
The popularity of complex science and new alternative methods is the strength of the biohacking movement. It will be through the dissemination of technology, cost reduction of alternative equipment, materials and inputs, and simple and modest methods of application. These include methods such as CRISPR, the production of artificial bioreactors, the popularity of PCR, the use of tools such as centrifuges to separate components from blood or DNA material, the use of PDMS and working with tissues, cells, stem cells, serum, and chemicals. In addition, the biohacking movement will develop a variety of other methods and techniques.
Parallel to the biohacking movement are several advancements and new concepts paralleling the biohacking movement. We can argue that there are already optical versions of high-definition, high-cost electron and atomic microscopes, leading to Nobel Prizes. Unsurprisingly, the device will soon be available and popular across the country. What would Robert Koch look like without a microscope?
A microscope, or rather, a nanomirror capable of bringing the micro/nano world to anyone. By linking this capability to computing, we will have widespread access on Earth to what has previously been limited to large laboratories. The biohacking movement is no amateur! Make sure of this, things are getting messy and old concepts will soon be censored.
Beyond nanotechnology and various other terms, transhumanism refers to the use of science and technology to force human evolution, using biohacking, nanotechnology for better processing, material control, and matter organization. Through forced evolution, understanding allows people to see in the dark, feel the earth’s magnetism, sharpen their noses to incredible levels, and more. Some people think that transhumanism is post-humanism, the human body after biology, an artificial creature with high-tech progress. As you can see, progress is exponential, which is where we are now. For example, there is a growing movement to generate the first global version of the method for biohacking. Not so popular these days, biohacking techniques and methods have been successful and there are two giants of science who started their work as real biohackers: Gregor Johann Mendel and Robert Koch.
Gregor Johann Mendel: His work and curiosity about gardens made it inevitable for him to use biohacking to understand the biological functions of plants. Many experts say their work is critical to the advancement of genetics today.
Robert Koch – known today as the world’s largest bacteriologist. Mr. Petri is a pioneer in in vitro research. He was a time-bound farmer and doctor, however, his peak was achieved through his biohacking-like performances, experimenting in his possessions. About to become the first expert on anthrax spores. However, due to its persistence and specialization in the field, its name today belongs to the greats of science.
The purest science is based on observation, deduction and analysis. Around 1844, the Austrian monk Gregor Johann Mendel was awarded the Order of St. Augustine for frequently observing plants in his free time at the monastery. His position was to oversee the gardens of monasteries in the Czech Republic. As a professor of natural sciences, specializing in the hybridization of plant and animal species, his great achievement came from his analytical observations of peas. Mathematically analyze the results. Currently, he is considered the father of genetics, and through his precise observations of flower color change, variation, mechanism, he soon discovered the genetic mechanism, just like the gene as we know it today. His masterpiece handling; hybrid plant experimentation and artificial insemination. It was actually a precursor to the thesis on the laws of inheritance, now known as Mendel’s laws, which govern the transmission of hereditary traits, and thus genes.
In short, what the great men of science did in the past, it is possible to do it in a deeper way and at a lower cost in the disciplinary field. The biohacking movement and other advanced science and technology disciplines are on this path.