SV40 Cancer Causing DNA Found In COVID19 Vaccines: Uses Of SV40 In Nanobiotechnology: Self Assembly Nanoarchitectures, Nanophotonics & Quantum Dots For Bio-Digital Convergence
Gao D, Zhang ZP, Li F, Men D, Deng JY, Wei HP, Zhang XE, Cui ZQ. Quantum dot-induced viral capsid assembling in dissociation buffer. Int J Nanomedicine. 2013;8:2119-28.
SV40 promoter genes have been found in COVID19 injections. This has drawn worldwide attention as a potential cancer causing mechanism and contributor to the turbo cancer epidemic- aka global depopulation.
SV40 Virus Linked to Multiple Cancers Found in mRNA Vaccines, Microbiologist Says
Additionally spinoidrin genes have been found - encoding Dragline Silk, the strongest form of spidersilk. I have reviewed the use of spidersilk in nanobiotechnology and brain computer interface here:
SV40 in vaccines is not a novelty but have been used in vaccines to create cancers for decades. Merck, Sharp and Dome isolated LS-c, 2ab/KP2 passed strain of rhesus monkey kidney cell culture with SV40 contaminant for the Polio Vaccines.
None of the many nano toxic metal “contamination’s” found in every childhood vaccine are a coincidence and have been for decades. Spraying of smart dust via geoengineering is all part of this long term biodigital convergence - we are in the final stages of it now. Creating chronic illness in the population through vaccination creates lifelong customers for Big Pharma - while the allopathic medical field and FDA has been ignoring cumulative metal toxicity and attacking the solution of chelating such toxins from the body. The metals themselves are carcinogenic as well, plus they accelerate the aging process and chronic illness significantly.
New Quality-Control Investigations on Vaccines: Micro- and Nanocontamination
Humans have been poisoned by the military intelligence industrial pharma complex for so long, that we do not really know what the human body is really capable of in the field of longevity and health.
We have not had a chance to find out, since we have been subjected to constant toxic assaults intentionally. This warfare has come to a pitch battle with the COVID19 biological and technological weapons of mass destruction.
SV40 nano delivery system was identified via aerial spraying of Polio Vaccine in 2009. The use of SV40 was funded in 1998 by DARPA - same people who funded Moderna in 2013 to develop the mRNA platform - and developed by Nanotechnology Institute for Medicine and Biological Sciences in Michigan. You can read more about this here:
In this post I review the nanotechnology literature of the use of SV40 for a nanogene delivery system, self assembly nanoparticles, Quantum Dots for biosensing applications. The world all of a sudden was concerned about Replicon Vaccines, but the SV40 nanomachine is a most potent Replicon and has already been deployed.
I have shown that Replicon fact in embalmed blood from a COVID19 vaccinated deceased individual:
SV40 DNA replication: From the A gene to a nanomachine
The Tag structures available so far suggest a modular molecule that likely operates dynamically to coordinate origin DNA binding and local distortion by the double hexamer, and re-organization of the double hexamer into a bidirectional unwinding machine.
The self assembly mechanism was studied in detail:
Revealing in real-time a multistep assembly mechanism for SV40 virus-like particles
SV40 is studied as drug delivery system. Our insights can help optimize packaging of therapeutic agents in these particles.
Then fusion with Inorganic metallic particles, as found in the COVID19 injections, were used to create plasmonic nanoparticles, in other words biosensors and nanoelectronic devices:
Controlled Co-assembly of Viral Nanoparticles of Simian Virus 40 with Inorganic Nanoparticles
Simian virus 40 (SV40) has been one of the viruses exploited as VNPs for nanobiotechnology development. SV40 VNPs are assembled as cage-like structures from the major capsid protein VP1. Assembly is the principal way to integrate VNPs with chemically synthesized nanomaterials. A variety of inorganic nanoparticles (NPs) of different components, surface coatings, shapes, and sizes have been encapsulated into SV40 VNPs through controllable assembly. NPs can also be loaded onto the outer surface by rationally tuning the interfacial interactions between SV40 VNPs and NPs. Biomineralization is another route for combining VNPs with inorganic NPs, by which noble metal plasmonic NPs with tunable sizes and components have been produced in SV40 VNPs. By controllably assembling these bio-nanohybrid structures, different functionalities have been integrated for nanophotonic studies and bioimaging. These studies have laid a foundation for the development of multifunctional bio-nanomaterials and devices based on the SV40 VNP platform.
SV40 platform also has been used to create Quantum Dots, which are tiny semiconductor particles with unique optical and electronic properties.
Quantum dot-induced viral capsid assembling in dissociation buffer
Viruses encapsulating inorganic nanoparticles are a novel type of nanostructure with applications in biomedicine and biosensors. However, the encapsulation and assembly mechanisms of these hybridized virus-based nanoparticles (VNPs) are still unknown. In this article, it was found that quantum dots (QDs) can induce simian virus 40 (SV40) capsid assembly in dissociation buffer, where viral capsids should be disassembled. The analysis of the transmission electron microscope, dynamic light scattering, sucrose density gradient centrifugation, and cryo-electron microscopy single particle reconstruction experimental results showed that the SV40 major capsid protein 1 (VP1) can be assembled into ≈25 nm capsids in the dissociation buffer when QDs are present and that the QDs are encapsulated in the SV40 capsids. Moreover, it was determined that there is a strong affinity between QDs and the SV40 VP1 proteins (KD = 2.19E-10 M), which should play an important role in QD encapsulation in the SV40 viral capsids. This study provides a new understanding of the assembly mechanism of SV40 virus-based nanoparticles with QDs, which may help in the design and construction of other similar virus-based nanoparticles.
Gold Particles were also found in the COVID19 injections by Drs Marcela Sangorrin and Lorena Diblasi:
Encapsulation of gold nanoparticles by simian virus 40 capsids
Viral capsid-nanoparticle hybrid structures constitute a new type of nanoarchitecture that can be used for various applications. We previously constructed a hybrid structure comprising quantum dots encapsulated by simian virus 40 (SV40) capsids for imaging viral infection pathways. Here, gold nanoparticles (AuNPs) are encapsulated into SV40 capsids and the effect of particle size and surface ligands (i.e. mPEG and DNA) on AuNP encapsulation is studied. Particle size and surface decoration play complex roles in AuNP encapsulation by SV40 capsids. AuNPs ≥15 nm (when coated with mPEG750 rather than mPEG2000), or ≥10 nm (when coated with 10T or 50T DNA) can be encapsulated. Encapsulation efficiency increased as the size of the AuNPs increased from 10 to 30 nm. In addition, the electrostatic interactions derived from negatively charged DNA ligands on the AuNP surfaces promote encapsulation when the AuNPs have a small diameter (i.e. 10 nm and 15 nm). Moreover, the SV40 capsid is able to carry mPEG750-modified 15-nm AuNPs into living Vero cells, whereas the mPEG750-modified 15-nm AuNPs alone cannot enter cells. These results will improve our understanding of the mechanisms underlying nanoparticle encapsulation in SV40 capsids and enable the construction of new functional hybrid nanostructures for cargo delivery.
We know that Lanthanides have been found in COVID19 injections, which have revolutionized nanophotonics and biosensor capacity. I recently posted about the persecution of the PhD biotechnologists who published their findings:
Here you can see that Lanthanides have been used in ultrasensitive biosensing.
Emerging Advances in Lanthanide Photon Avalanche Nanophotonics
Photon avalanche (PA) upconversion in lanthanide nanosystems represents a groundbreaking discovery, demonstrating an optical nonlinearity exceeding 50. This remarkable sensitivity to even the slightest light perturbations unlocks new possibilities for ultrasensitive biosensing, super-resolution imaging, and a range of other applications. This review delves into the fundamental mechanisms underlying PA and the approaches for controlling energy flow within these nanomaterials. We present innovative design strategies for optimizing optical dynamics tailored to specific applications. Furthermore, we critically assess the advantages and limitations of PA technology across diverse applications. In addition, we explore future directions, highlighting the key challenges and proposing pathways for further research. By enhancing the understanding of PA phenomena and encouraging interdisciplinary collaboration, this review seeks to foster ongoing innovation at the convergence of nanophotonics and materials science, pushing the boundaries of current capabilities in photonics research.
Lanthanide nanoparticles (LNPs) are promising sensors of chemical, mechanical, and temperature changes; they combine the narrow-spectral emission and long-lived excited states of individual lanthanide ions with the high spatial resolution and controlled energy transfer of nanocrystalline architectures.
People are wondering about all the DNA “contamination” in the COVID19 injections, but if you look at the presence of DNA and lanthanides together it makes sense - excellent biosensors have been self assembled from these components in addition to polymers. What can they produce? Nanoparticles, fibers and hydrogels - the very thing we saw self assemble from the vials and in the human blood.
Nucleotide and DNA coordinated lanthanides: From fundamentals to applications
Lanthanides are very important for their unique catalytic, optical and magnetic properties. Various ligands have been synthesized to coordinate with lanthanides so that their properties can be better controlled enabling various analytical, materials and biomedical applications. DNA is an anionic polymer made of four types of nucleotides. With high stability, low cost, programmability, and molecular recognition and catalytic functions, DNA has become a very popular material in the past few decades. In recent years, both nucleotides and DNA have been explored as ligands for lanthanides. In this article, fundamental interactions between nucleotides and DNA with lanthanides are reviewed in terms of binding sites and thermodynamics. Further, coordination polymers formed by mixing nucleotides and lanthanides are discussed, which can form nanoparticles, fibers and hydrogels with applications for enzyme encapsulation, imaging and biosensors.
Encapsulation of Inorganic Nanomaterials inside Virus-Based Nanoparticles for Bioimaging
Virus-based nanoparticles (VNPs) can serve as containers for inorganic nanomaterials with excellent physical and chemical properties. Incorporation of nanomaterials inside the inner cavity of VNPs has opened up lots of possibilities for imaging applications in the field of biology and medicine. Encapsulation of inorganic nanoparticles (NPs) in VNPs can achieve the labeling of VNPs with nanoprobes and maintain the original outer surface features of VNPs at the same time. In return, VNPs enhance the stability and biocompatibility of the inorganic cargoes. This review briefly summarizes the current typical strategies to encapsulate inorganic nanomaterials in VNPs, i.e. mineralization and self-assembly, as well as the applications of these hybrid nanostructures in the field of bioimaging, including in vitro and in vivo fluorescence imaging, magnetic resonance imaging, and theranostics. Nanophotonic studies based on the VNP platform are also discussed. We anticipate that this field will continue to flourish, with new exciting opportunities stemming from advancements in the rational design of VNPs, the development of excellent inorganic nanomaterials, the integration of multiple functionalities, and the regulation of nano-bio interfacial interactions.
RNA encapsidation by SV40-derived nanoparticles follows a rapid two-state mechanism
Viruses are evolved examples of self-assembled structures that are remarkably sophisticated biological machines. This ability to self-assemble can be harnessed for nano- and bio-technology.
SV40 are widely used as a gene delivery system:
Replication-defective (RD) recombinant simian virus 40 (SV40)-based gene delivery vectors hold a great potential for clinical applications because of their presumed non-immunogenicity and capacity to induce immune tolerance to the transgene products in humans. However, the clinical use of SV40 vectors has been hampered by the lack of a packaging cell line that produces replication-competent (RC) free SV40 particles in the vector production process. To solve this problem, we have adapted the current SV40 vector genome used for the production of vector particles and generated a novel Vero-based packaging cell line named SuperVero that exclusively expresses the SV40 large T antigen. SuperVero cells produce similar numbers of SV40 vector particles compared to the currently used packaging cell lines, albeit in the absence of contaminating RC SV40 particles. Our unique SV40 vector platform named SVac paves the way to clinically test a whole new generation of SV40-based therapeutics for a broad range of important diseases.
Discussion:
Everything that researchers found within the COVID19 vaccines, including SV40 DNA contamination, toxic metals used in semiconductor nanotechnology and microchip assembly for nano optical biosensing applications are building blocks for the intrabody area network that has transformed two thirds of the world population into Transhuman Cyborgs. DNA is used to create nanoelectronics. Despite this evidence, most of the scientific community denies the presence of self assembly nanotechnology in the COVID19 injections, now affecting the blood of every human being on this planet - via the injections itself, shedding, geoengineering and intentional “contamination” of injectable medications worldwide. This global assault on the human species follows the plan and outline of the International Energy Commission Bio-digital convergence standardization opportunities.
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