Quantum computing quantum entanglement a biological computer interface nanotech injection merging machine with humanity a vaccine patent study

Buckle up buttercup TOTAL EXPOSURE! IT'S GOING TO BE A LONG NIGHT

operation save humanity

Feb 08, 2024

May I suggest putting on some shuffled music by Stick figure for this adventure

2 Corinthians 6:14-1814Do not be unequally yoked with unbelievers. For what partnership can righteousness have with wickedness? Or what fellowship does light have with darkness? 15What harmony is there between Christ and Belial? Or what does a believer have in common with an unbeliever? 16What agreement can exist between the temple of God and idols? For we are the temple of the living God. As God has said: A network analysis of COVID-19 mRNA vaccine patents

The mRNA vaccine platform for COVID-19 relies on the production of the coronavirus spike protein to elicit an immune response. Moderna, CureVac, Pfizer and BioNTech have all disclosed that the mRNA used in their vaccine candidates encodes a stabilized version of the spike protein that was developed by the NIH

https://patents.google.com/?assignee=national+institute+of+health&oq=national+institute+of+health https://patents.google.com/?q=(Of+%E2%80%A6)&assignee=The+United+States+Of+America%2c+As+Represented+By+The+Secretary%2c+Department&oq=+The+United+States+Of+America%2c+As+Represented+By+The+Secretary%2c+Department+Of+%E2%80%A6

https://patents.google.com/?q=C12Q1%2f689

https://patents.google.com/?q=C07K14%2f005 https://patents.google.com/?q=C12N15%2f113

https://patents.google.com/?q=C12N15%2f8285

Only 131 U.S. patents disclosed that their applicants or assignees were a major federal funding, including the National Institute of Allergy and Infectious Diseases (NIAID), Defense Advanced Research Projects Agency (DARPA), Operation Warp Speed (OWS), National Institutes of Health (NIH), Centers for Disease Control and the U.S. Government. This accounted for only 6.16% of the total number of U.S. mRNA vaccine patents.Moderna (US20200282046, US10702600) was awarded a $1.525 billion contract by the Department of Defense and the Department of Health and Human ServicesModerna only listed its own scientists on several of its patent applications (US2021228707, WO2021154763, WO2021159130, WO2021159040)Of the 9 types of COVID-19 vaccines issued by WHO EUL, two are mRNA vaccines, both of which are held by American companies of BioNTech and Moderna.⁴⁴ This may be because most of mRNA vaccine patents belong to developed countries. In context, among the valid mRNA vaccines 73.87% were held by developed countries while 26.13% were held by developing countries Patent buyouts picked by the COVID-19 Vaccines Global Access initiative have the potential to facilitate the global production of vaccines the United States is the global leader in mRNA vaccine patents, the top three research centers based on the number of collaborations were found to be the French National Institute for Health and Medical Research (10 times), BioNTech AG (10 times) and GlaxoSmithKline PLC (9 times). Evidently, the intensity of cooperation between BioNTech AG and TRON Translational Oncology Mainz was shown to be the highest among all survey centers.

Ranking of top 20 patent assignees.

RankAssigneeFilesFamilies1Sanofi SA (France)10791162CureVac AG (Germany)523673Moderna Therapeutics, Inc (US)323624BioNTech AG (Germany)245465Enanta Pharmaceuticals (US)144386United States Department of Health and Human Services (US)187337Evelo Biosciences, Inc (US)106298Chinese Academy of Agricultural Sciences (China)35289Johnson & Johnson (US)1532310Mount Sinai Health System (US)792211TRON Translational Oncology Mainz (Germany)1532212National Center for Gene Research (China)212113Pfizer Inc (US)1611914University of California (US)881915Chinese Academy of Sciences (China)221816Roche Holding AG (Switzerland)1021717Academy of Military Medical Sciences (China)201518C.H. Boehringer Sohn AG & Co. KG (Germany)981519GlaxoSmithKline PLC (United Kingdom)1441520Merck & Co., Inc (US)16315

https://patents.google.com/?q=(A61K48%2f0066)

described in most cited patents, such as influenza (US20160317647, US5166057), viral, bacterial, or protozoological infectious diseases (WO1997006270, EP839912), allergy diseases (US20130142818, WO2012116811), genetic defects (EP1083232); autoimmune diseases (WO2011026641, US20130142818, US20080025944, WO2012116714, WO2012116715, US20130336998), and cancer or tumor diseases (US20050250723, US20050059624, US20080171711, EP1905844, US8217016, WO2017020026, WO2012019780). The global mRNA vaccine patent landscape

Mengyao Li,^{a , b , *}Jianxiong Ren,^{a , b , *}Xingyong Si,^{a , b}Zhaocai Sun,^{a , b}Pingping Wang,^{a , b}Xiaoming Zhang,^cKunmeng Liu,^{a , b}and Benzheng Wei^{a ,}BioNTech and Pfizer’s BNT162 Vaccine Patent Landscape Patent/Published Application Applicant/Assignee Filing Date Status Invention Type US 10,576,146 BioNTech March 15, 2018 Active Lipids/NP + mRNA US 10,485,884 BioNTech March 5, 2013 Active Lipids/NP + mRNA US 9,950,065 BioNTech September 26, 2013 Active Lipids/NP + mRNA US2020/0155671 BioNTech January 22, 2020 Pending Lipids/NP + mRNA US2020/0197508 BioNTech March 21, 2018 Pending RNA immune response US2019/0153428 BioNTech August 24, 2016 Pending RNA immunogenicity US2019/0321458 BioNTech July 14, 2017 Pending PC: Lipids/NP + mRNA US2018/0263907 BioNTech March 30,2016 Pending Lipids/NP + mRNA US2017/0273907 BioNTech September 17, 2015 Pending Lipids/NP + mRNA US2014/0030808 BioNTech December 2, 2011 Pending RNA expression WO2016/156398 BioNTech March 30,2016 Published Lipids/NP + mRNA WO2015/043613 BioNTech September 26, 2013 Published Lipids/NP + mRNA WO2013/087083 BioNTech Decemb Moderna also says that “despite having many different options” that Pfizer and BioNTech “copied Moderna’s approach to encode for the full-length spike protein in a lipid nanoparticle formulation”Patent/Published Application Applicant/Assignee Filing Date Status Invention Type US 10,703,789 Moderna June 12, 2019 Active PC: Lipids/NP + mRNA US 10,702,600 Moderna February 28, 2020 Active Betacoronavirus mRNA Vaccine US 10,577,403 Moderna June 12, 2019 Active PC: Lipids/NP + mRNA US 10,442,756 Moderna December 18, 2017 Active Lipids/NP + mRNA US 10,266,485 Moderna June 11, 2018 Active Lipids/NP + mRNA US 10,064,959 Moderna April 21, 2017 Active mRNA synthesis US 9,868,692 Moderna March 31, 2017 Active Lipids/NP + mRNA US2020/0206362 Moderna October 11, 2019 Pending PC: Lipids/NP + mRNA US2020/0164038 Moderna July 29, 2019 Pending PC: Lipids/NP + mRNA US2019/0015501 Moderna September 27, 2018 Pending Nucleic acid vaccine WO2016/118724 Moderna January 21, 2016 Published Lipids/NP + mRNA WO2016/118725 Moderna January 21, 2016 The first two IPRs resulted in wins for Moderna However, on 23 July the US Patent and Trademark Office’s Patent Trial and Appeal Board (PTAB) delivered a decisive win for Arbutus in the third IPR, rejecting Moderna’s argument that the Arbutus patent known as the ’069 patent Lipid formulations for nucleic acid delivery

US8058069B2 should be revoked because it describes obvious concepts. “To the extent it is believed the PTAB erred in their decisions, Moderna may further pursue these matters May 26 2023 (Reuters) - Biotech company Case 199-mc-09999 Document 260 Fled 03/16/22 Page 1 of 14 PageID # 32989

THE STATES DISTRICT COURT FOR THE DISTRICT OF DELAWARE Alnylam Pharmaceuticals Inc

https://patents.google.com/?assignee=Alnylam+Pharmaceuticals%2c+Inc.&oq=Alnylam+Pharmaceuticals%2c+Inc

(ALNY.O), opens new tab filed new lawsuits on Friday against Pfizer Inc

https://patents.google.com/?assignee=Pfizer+Inc.&oq=Pfizer+Inc

(PFE.N), opens new tab and Moderna Inc (MRNA.O)

https://patents.google.com/?assignee=Moderna%2c+Inc.&oq=Moderna%2c+Inc

, opens new tab in Delaware federal court, again claiming that the companies' COVID-19 vaccines infringe its patents.

The new

, opens new tab lawsuits, opens new tab mark the third time Alnylam has sued Pfizer and Moderna in Delaware for allegedly violating its patent rights in lipid nanoparticle (LNP) technology, which the vaccines use to deliver genetic material into the body. Thanks only to none other than 5G Ai’s blood allowing these technologies to get into the cells kind of technology Another is spin chemistry (spintronics) vs(trapped ion) employing radical-pair electrons. Because radical-pairs can be quantum entangled, even as separate molecules, these electrons can be linked to the electrons of quantum computers. These are electrons of inherent spin angular momentum, each with a separate radical magnetic moment able to be altered by electromagnetic fields transmitted via 5G and 6G Wifi systems blue tooth mesh networks Quantum Biology: An Update and Perspective https://www.mdpi.com/2624-960X/3/1/6 Within these experimental injections, quantum dots function as sending and receiving antennae of digital signals emanating from internal biocomputers and biosensors (Entangled, March 2021). Additionally, relaying bidirectional digital information via Wifi. Quantum dots, referred to as artificial atoms fall within the closely associated category of spintronics.

D. Loss and D. P. DiVincenzo, "Quantum computation with quantum dots".

Phys. Rev. 457, p120 (1998); on arxiv.org in jan. 1997 Biosensing with Quantum Dots: A Microfluidic Approach https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3231262/ Quantum entanglement involves the sharing or communication of spin states between paired primary particles, in this case, the electrons simultaneously flowing in opposite directions within a qubit chipset. Due to their connection, as the spin state of one electron is electromagnetically altered, simultaneously, with no time delay, so too is the state of its paired partner electron. Given distance is not a consideration with respect to quantum entangled primary particles, here again electrons, humans and their brains can interface with quantum computers anywhere around the globe. Employing quantum dots injected into them in the form of 'vaccines', these 'artificial atoms' containing entangled electrons function both as simplified qubit chipsets, thus biocomputers, and chemically as radical-pairs within the human body and brain. Intracellular Delivery by Membrane Disruption: Mechanisms, Strategies, and Concepts https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6763210/ The chemical actions of radical-pairs (spin chemistry) results in changes in blood chemistry, genes, cellular activities and protein production. As with electromagnetic spin state alteration of entangled electrons within qubit chipsets, the same force in the form of 5G and 6G EMF (Electromagnetic Frequencies) radiation directed at the human body results in the altered spin states of primary particles. This signifies the present ability remotely to change the human body. Its structure, systems, movements and brain activity. This a result of combining radical-pair spin chemistry with quantum computing. The latter representing the most current advancement of spintronics. Quantum Biology and the Potential Role of Entanglement and Tunneling in Non-Targeted Effects of Ionizing Radiation: A Review and Proposed Model https://www.mdpi.com/1422-0067/24/22/16464 MICROSOFT, 2016: "WE CAN PROGRAM COMPLEX BEHAVIORS USING DNA". 3-STRAND DNA CONFIRMED

by Silviu "Silview" Costinescu March 1, 2021 confirmation that they are after the three-stranded DNA technology

"Imagine a biological computer that operates inside a living cell"

- Dr.Andrew Phillips, head of bio-computation at Microsoft Research.

"The problem we're trying to solve is really trying to have a more sophisticated diagnosis that can happen automatically inside cells... In this project, we're trying to use DNA as a programmable material" according to Dr.Neil Dalchau, a scientist at Microsoft Research.

"[Microsoft] are essentially trying to sense, analyze andcontrol molecular information" Natural cellular computing operates at vast scales, in a distributed manner, and in the presence of considerable noise 1 (stochastic). Consequently, biological metaphors have served as inspirations for models of amorphous computation Today, engineered cells operating as biosensors are delivered by inoculation to the human body. Using messenger RNA (mRNA) levels as inputs, biosensors combined with a computational module, are able to evaluate logic expressions. The relationship between computer science and natural, biological computing is often synergistic A biosensor is a small circuit that transduces a specific input signal into a prescribed output according to a pre-programmed input/output relation. When combined with an electronic nanoscale computation module running Boolean switching functions, a variety of computational models emerge leading to types of cellular features exceeding transistor-based logic circuits. Deployed on a global scale, DNA and mRNA-based vaccines are acting as micro-scale drug precursor production plants and miniturized biosensors .Biosensors with Built-In Biomolecular Logic Gates for Practical Applications https://www.mdpi.com/2079-6374/4/3/273

Robotics has also drawn inspiration from biological computation, particularly in relation to morphological computing, which takes advantage of the physical properties of computing agents in order to achieve more efficient computations

In the context of embodied artificial intelligence, morphological computation refers to processes, which are conducted by the body (and environment) that otherwise would have to be performed by the brain.

circuit

computation

morphology

By using intrinsic physical properties of the computational substrate to "outsource" parts of the computation, increasingly complex computations can be carried out while maintaining relatively simplistic control structures https://apps.dtic.mil/sti/tr/pdf/ADA408046.pdf Pathways to cellular supremacy in biocomputing https://www.nature.com/articles/s41467-019-13232-z A variety of computational processes exist within cellular systems exceeding that of the Turing Machine. Biosensors represent only part of the picture of cellular activity. Individual cells or self-organized groups of cells perform extremely complex fuctions that include sensing, communication, navigation, cooperation and even fabrication of synthetic nanoscale materials. In natural systems, these capabilities are controlled by complex genetic regulatory circuits. Research efforts mimic the functionality of man-made information-processing systems within whole cells Pathways to cellular supremacy in biocomputing https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6868219/ The cell as a "physical" computer. A model of computation formally defines inputs and outputs, as well as how an algorithm processes inputs into outputs. Though the same theoretical model of computation can be physically implemented in many different ways, the nature of computation remains the same.Within synthetic biology, research has focused upon the construction of circuits of biological components such as genes and the proteins they express. Circuits receive input signals from inside or outside the body. Encoded within circuits are so-called "rules", mimicking those found in conventional, classical computing based upon electronic logic circuits. In synthetic biology, logic circuits are derived from genes and the control of their activities, or the silencing of them.

These are both digital and analog circuits responding to a variety of inputs. Genetic circuits process digital-to-analog, analog-to-digital conversions, while counting, comparing and processing quantities of inputs.The naturally-derived biosensors within our bodies employ elements such as nucleic acids (DNA, RNA), proteins, enzymes, and antibodies from our innate and adaptive immune systems, as recognition layers. These layers then produce an output signal as found in standard electronic logic circuits. DNA-Based Nanobiosensors as an Emerging Platform for Detection of Disease https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4507582/ Within the present context of developing vaccines based upon DNA/RNA, RNA is now encoded with synthetic gene circuits. The RNA is regulated using programmable antigen/adjuvant circuits. These are designed so as not to stimulate the innate or adaptive immune system responses in such a manner that works against the regulatory components of these circuits. At least that is the stated and published goal of the vaccine developers. Synthetic biology devices and circuits for RNA-based 'smart vaccines': A propositional review https://www.researchgate.net/publication/270661402_Synthetic_biology_devices_and_circuits_for_RNA-based_'smart_vaccines'_A_propositional_review Genetic circuits work in a complementary fashion with small molecule drugs. These are oscillators, toggle switches and cascades designed in software, in silico, modeling logic-based networks. Working top-down from an examination of a gentic circuit, its high-level behavior of sensing-processing-actuation is used in the design process of constructing genetic circuits. While the physical action of these circuits is facilitated by the bottom-up assembly of the constituent biological parts. These logic circuits function as transcriptional, translational or posttranslational devices. Over the past year, SARS-CoV-2 RNA-based synthetic vaccines have been developed and administered. These are vaccines with programmable adjuvant expression and prime-boost immunogen behavior. Meaning, these vaccines are designed and meant to be administered as one-shot injections, either by syringe and hypodermic needle, or microneedle array patches.Cellular Biosensors with Engineered Genetic Circuits https://pubs.acs.org/doi/10.1021/acssensors.7b00728

Electronic implementations receive electronic data for inputs/outputs, while cells are able to sense/deliver a wide range of physical, chemical and biological inputs/outputs. The encoding of information into inputs can be done in different ways. Temperature, for instance, can be encoded as the height of mercury in a tube, the voltage of an electronic thermometer or the state of a DNA thermosensor https://www.researchgate.net/figure/The-cell-as-a-physical-computer-A-model-of-computation-formally-defines-inputs-and_fig1_337394921. Cellular information-processing fundamentals that go beyond combinatorial logic circuits.

a Whole-cell computations, merging genetic and metabolic circuits, could achieve more ambitious goals than genetic circuits alone. Cells have evolved intricate networks that make simultaneous use of the varied features of both genetic and metabolic processes. In terms of information storage, metabolism presents a volatile memory, while DNA sequences are able to store information in a more stable fashion. Coordinating the use of different types of memory is a fundamental aspect of complex computer architectures. The dynamic difference is also a potential source of complexity if coupled; metabolic reactions operate on a faster timescale relative to genetic regulatory networks In addition to drug production, nanoscale computational units utilizing both genetic materials and metabolic processes operate in tandem with arrays of biological sensors. Next-generation probes, particles, and proteins for neural interfacing https://www.science.org/doi/10.1126/sciadv.1601649 Bioretrosynthesis, a technique for synthesizing organic chemicals from inexpensive precursors and so-called 'evolved' enzymes, is an approach based on generic represenatations of reactions, known as reaction. rules. These expand the design space of metabolic circuits by predicting new syntheic pathways connecting metabolism and gene expression. Artificial intelligence, known as machine-learning, is applied by such retrosynthesis algorithms to select the best candidate reactions As in most computer architectures, the working relationship between gene expression and metabolism is akin to memory systems. For example, DNA is relatively stable, thus operating as long-term static memory. While metabolism is a short-term volatile memory system. A Review on Biosensors and Recent Development of Nanostructured Materials-Enabled Biosensors https://www.mdpi.com/1424-8220/21/4/1109

Humans are targeted for enslavemennguishment fromearth. I near term, reduced to a seass of existence. Taking orders via quantum entanglement of their brains with quantum computers operating the blockchain infrastructure of the beast system. Those having submitted to and in the near future allowing themselves to be injected with any of these experimental drugs, whether DNA, mRNA, adenovirus, or protein-based will find themselves altered, thus permanenly entangled within the blockchain system. Not since the days of Noah has humanity delved to the present depths of depravity, especially with regard to their own kind, even to their own DNA-derived names.

Only those refusing alteration to their DNA via these false vaccines retain their names and places within the Lamb's Book of Life. All others, including those researching, developing and deploying. thereby worshiping within the one world religion of science, will find themselves for all eternity in perdition. That probably means some kind of AI simulation feedback reality loop stuck in some kind of a transistor in a laptop in a landfill buried below 400 ft of dirt .. What if souls are electrons

The reality is starkly manifest. Their speaking of peace and safety to be gained through experimental drugs results only in sudden destruction. They are proclaiming a return to 'normal' as their peace. Through drugs; safety. Not a thought is given to their creator, God Almighty. Not a word is spoken about His Word, only by those who through the gift of Grace, refusing to be injected. Thanks for all that you do to stop this biohack on all that is natural and made in the image of GOD and may Romans 8:31 be our guiding light. References https://www.nature.com/articles/s41467-019-13232-z

7 Lambert, N. et al. Quantum biology. Nat. Phys. 9, 10-18 (2013).

8 Adriana, M. et al. The future of quantum biology.J. R. Soc. Interface 15, 20180640 (2018)

Engel, G. S. et al. Evidence for wavelike energy transfer through quantum coherence in photosynthetic systems. Nature446, 782-786 (2007)

10 R. K. Allemann & Scrutton, N.S.Quantum Tunnelling in Enzyme-Catalysed Reactions (Royal Society of Chemistry, 2009),

11 David, D. & Roger, P. Quantum theory, the Church-Turing principle and the universal quantum computer. Proc. R. Soc. Lond. A. Math, Phys. Sci. 400.97-117 (1985).

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13. Scialdone, A. et al. Arabidopsisplants perform arithmetic division to prevent starvation at night.elife2, e00669 (2013).

14 Sarpeshkar, R. Analog synthetic biology Philosophical transactions. Series A, Mathematical physical, and Engineering sciences, 372, 2014

15 Woo, S S. Kim J. & Sarpeshkar, RA A digitally programmable cytomorphic chip for simulation of arbitrary biochemical reaction networks JEEE Trans. Biomed. Circuits Syst. 12, 360-378 (2018).

https://www.nature.com/articles/s41467-019-13232-2

16 Gordana D.-C. The info-computational nature of morphological computing (ed. Müller, V C) Philosophy and Theory of Artificial Intelligence. Studies in Applied Philosophy, Epistemology and Rational Ethics, 59-68 (Springer Berlin Heidelberg, Berlin, Heidelberg, 2013).

17 Umedachi, T. Takeda, K, Nakagaki, T, Kobayashi, R. & Ishiguro, A. Fully decentralized control of a soft-bodied robot inspired by true slime mold.Biol. Cybern. 102, 261-269 (2010).

18 Solé, R. Bioengineering the biosphere?Ecol. Complex 22 40-49 (2015).

19 Armstrong, R. Systems architecture: A new model for sustainability and the built environment using nanotechnology, biotechnology, information technology, and cognitive science with living technology Artif Life16, 73-87 (2010).

20 https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6462112/

21 Mammalian designer cells: Engineering principles and biomedical applications