Researchers have demonstrated sustainable replication of a linear DNA template encoding DNA polymerase and terminal protein from the Phi29 bacteriophage in liposome compartments. The self-replicator can survive multiple replication rounds and accumulate advantageous mutations in just ten evolution rounds. This study provides foundational insights for building genetic complexity in synthetic cells and studying evolutionary processes in a minimal cell-free system. Different DNA replication strategies have been explored, with the bacteriophage Φ29-based linear DNA replication showing promise due to its efficiency and ability to restore the original DNA structure after each replication round.
Stephen Meyer, a prominent figure in the intelligent design movement, presented a lecture at Biola University in May 2010, discussing the origin of the information necessary for the first cell and advocating for intelligent design. He challenges the idea of purely undirected evolution and questions the theory of universal common descent. Meyer’s book, “Signature in the Cell,” argues for intelligent design based on the digital information encoded in DNA. He highlights the parallels between DNA and computer programming, emphasizing the role of an intelligent designer in the creation of life. Meyer supports the Big Bang theory and asserts that the origin of information in DNA points back to a prior intelligence. Meyer’s argument is based on the concept of “specified complexity,” where precise arrangements of characters are necessary to perform a function, making the likelihood of random genetic instructions aligning to build proteins extremely low.
Researchers at the University of Alberta have developed a method for replicating DNA wireframe nanoassemblies using isothermal ligase chain reaction lesion-induced DNA amplification (LIDA). This strategy involves introducing a triangle wireframe structure to an excess of linear analog and complementary fragments, leading to self-replication via cross-catalysis. The study demonstrates the rapid self-replication of complex DNA architectures, paving the way for incorporating self-replication into biomimetic DNA nanotechnology. The research was published in the Journal of the American Chemical Society on June 25, 2024.
The article discusses the progress in creating a self-replicating biochemical system in synthetic biology. It highlights advancements in designing in vitro cell-free systems capable of self-replication by regenerating macromolecular components. The focus is on developing a minimal system that can maintain a balance between biogenesis and consumption of building blocks. The study compares current systems and proposes modifications to create a model system for self-replicative synthetic cells. The research is conducted at the Department of Chemistry and Chemical Biology at TU Dortmund University in Germany. The article was published in Biochemistry in March 2023, authored by Jacopo De Capitani and Hannes Mutschler.
Researchers from Harvard and Johns Hopkins University encoded an entire book into DNA, including 53,246 words, 11 images, and a JavaScript program. One gram of DNA can hold up to 455 exabytes of data, equivalent to 455 trillion books. While not currently practical or cost-effective, DNA may become a preferred data storage medium in the future. The research raises questions about biochemical information as a metaphor and advances the case for intelligent design. The team addressed challenges by fragmenting the DNA and creating redundant copies to prevent information loss. The work highlights DNA as an information storage system and challenges the notion that biochemical information is just a metaphor.
In the pursuit of manipulating genetic information and blurring the lines between natural evolution and artificial construction, a dangerous trend emerges. The convergence of advanced biotechnology, surveillance capabilities, and financial control lays the foundation for a New World Order. Those behind the curtain seek to harness DNA as a tool for not just information storage but for population control and manipulation. The intent is clear: to wield DNA as a means of shaping societies, steering evolution, and consolidating power. The means are at their disposal, utilizing cutting-edge research, data storage capabilities, and vast resources to execute their agenda. The opportunity arises as technology advances and the populace remains unaware of the true implications of these seemingly benign scientific endeavors.
As history unfolds in a cyclical pattern of power struggles and control mechanisms, the fusion of genetics, surveillance, and finance heralds a new era of dominance. The Beast System, integrating DNA manipulation, comprehensive surveillance, and financial control, emerges as the vehicle for a small elite to shape the destiny of humanity. The consequences of this orchestrated convergence are profound, affecting not just individuals but the very fabric of society. The path ahead is fraught with challenges as the New World Order tightens its grip, using DNA as a tool to mold a future that serves their interests. The stakes are high, and the time to awaken to this encroaching reality is now, lest we find ourselves mere pawns in a game we never chose to play.
