
Bird Flu Mastery Course
This course will delve into how the H5N1 Influenza Bird Flu Virus works to infect its host and spread, as well as strategies to stop or mitigate its effects naturally. Through four separate prerecorded modules, participants will gain in-depth knowledge regarding targeted approaches to interfere with the virus's mechanisms at the molecular level.

Presented by Joseph Phillips,
Founder & CEO at DNA Determination Research Consulting.
Joseph has positioned himself at the cutting edge of science and innovation, dedicating over 100,000 hours to researching genes and pathways with natural health solutions. As a self-taught expert in genetics, he has gained recognition from Biochemistry PhDs, Presidents of Naturopathic Medical Schools, and various other professionals in both natural and traditional medicine. He specializes in the complex field of Glycoimmunology which stands at the forefront of health and wellness.
In This Course We Will Cover
Introduction
In a world where pathogens evolve quicker than our medical textbooks, the battle against viruses like the H5N1 Influenza requires not just knowledge, but a deep understanding of the microscopic battles that rage within. This cutting-edge course peels back the layers of not only the H5N1 Bird Flu Virus, but many other pathogens, unveiling not just how pathogens launch insidious attacks on hosts, but more importantly, how we can harness the power of nature to halt their spread and mitigate the effects.
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Through four meticulously structured prerecorded modules, this course will transport you to the front lines of immunological warfare, where you'll understand, molecule by molecule, the complex interactions between pathogens and their unwilling hosts. You will emerge not just educated but empowered, equipped with targeted strategies to disrupt the Bird Flu virus's life cycle and safeguard health in ways that align with the natural defenses of the human body.
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Embark on This Unprecedented Journey
This course is more than an educational program; it's an invitation to be part of the vanguard in the fight against one of the 21st century's significant viral threats. Whether you're a healthcare professional, a researcher, or an enthusiastic learner driven by curiosity, the insights gained here will propel you into a new era of understanding and intervention.
Join us, and redefine what's possible in our collective struggle against the Influenza Bird Flu Virus.​​​
Module One
The Art of Immune Warfare & Infuenza Infection
In Module One we delve into the intricate battle between invading pathogens and host defenses, beginning with how influenza viruses cleverly evade immune detection and establish infection. The module uncovers the mechanisms of Spike Protein Hijacking combined with the cutting capabilities of the FURIN enzyme on Hemagglutinin (H), which is critical for the virus' entry into cells. We further explore the initial encounter between the viral Neuraminidase (N) and the host cell's Sialic acid receptors—sweet spots for viral attachment. Additionally, the process of Clathrin Mediated Endocytosis demonstrates how viruses manipulate host cellular machinery to gain entry and siphon energy. The module also highlights the role of DC-SIGN in the viral recognition response, a key player in the immune system's strategy to detect and combat invaders, providing a comprehensive view of how viruses like influenza turn the host's defenses to their advantage.
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What We'll Cover
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Spike Protein Hijacking, Hemagglutinin (H), & The FURIN Force
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First Contact with Sweet Sialic Acid Receptors & Neuraminidase (N)
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Pathogenic Energy Harvesting & Siphoning
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Clathrin Mediated Endocytosis
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Module Two
Gain of Function & RNA Antiviral Immune Responses
Here we will define stratagies to protect our original DNA Blueprint. In the realm of virology and immunology, this section delves into the dynamic interplay between viral evolution and host defense mechanisms. At the forefront of the emerging threat is the Gain of Function variation seen in the H5N1 virus's Polymerase Basic 2 (PB2) protein, which empowers the virus with new capabilities to challenge the host's immune system. In response, the host leverages an arsenal of defenses, including the RNA Antiviral-Signaling Responses that activate the innate immune system. We'll explore the sophisticated pathways of how virues hijack our cellular machinery to change our genetic blueprint. The intricate process of disrupting viral RNA, a key aspect of this immune strategy, is joined by the critical role of eukaryotic translation initiation factors, the process of building proteins from genetic instructions. This section sets the stage for a comprehensive understanding of how the host's immune system interacts with, disrupts, and aims to neutralize viral intruders at the molecular level.
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What We'll Cover
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The Gain of Function PB2 (Polymerase Basic 2) Protein in H5N1
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RNA Mitochondrial Antiviral Sensing & Signaling
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RNase L & OAS Antiviral Response
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The Vault & Treasure Trove for H5N1 (#1 Target for Bird Flu)
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Slicing and Dicing Viral RNA
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Crossroads of Eukaryotic Translation Initiation Factors
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Module Three
Innate Immunity & Pattern Recognition Receptors
Your journey continues into the realm of innate immunity, where you'll discover the unsung heroes and ancient defenses that stand between health and viral devastation. From surfactant proteins providing frontline defense in our lungs to the complex network of toll-like receptors and C-type lectins, this module offers a deep dive into the mechanisms that keep pathogens at bay, offering insights into leveraging these processes for therapeutic strategies.
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What We'll Cover
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Surfactant Proteins & Respiratory Viral Defense
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Mannose-Binding Lectin & Innate Immunity
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Toll-Like Receptors & Immune Surveillance
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DC-SIGN & Viral Recognition Response
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C-Type Lectins & Pathogen Recognition
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Glycosaminoglycans (GAGs)​ & Immune Resonses
Module Four
Adaptive Immunity & Cytokine Storms
The final module brings you to the apex of immunological response, where adaptive immunity meets the ferocity of cytokine storms. Here, the intricate balance of immune signaling, the delicate toggles of immune cell modulation, and the strategies to navigate through the potentially lethal cytokine storms are unveiled. Mastery of this knowledge is key to understanding virus-host interactions and developing interventions that minimize harm while maximizing immune efficiency.
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What We'll Cover
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Getting SYK With It & Zapping Viruses
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SRC Kinase & Immune Signaling Responses
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The STOP Switches of SHP-1 and SHP-2
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Steering Through The Cytokine Storms​
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