MADAGASKER PERIWINKLE PLANT TO GIVE SMILE AND CHARM WHO ACTUALLY DESERVED 🪇✨🤏🌟💫⚡⭐🔱💖🤸🏹🪘🎺🥁🎺f🌹🌹L💖in🫣

Ayurveda utilizes herbs as a central component of its holistic healing system to promote wellness, balance the body's energies (doshas), and treat the root cause of ailments. These plants are valued for their specific properties and are often used in carefully crafted polyherbal formulations rather than as single ingredients. 

Principles of Ayurvedic Herbology

In Ayurveda, herbs are understood by their unique energetic properties, not just their chemical makeup: 

• Rasa (Taste): There are six tastes (sweet, sour, salty, pungent, bitter, astringent), which indicate an herb's actions.
• Virya (Potency): This refers to whether an herb is heating (ushna) or cooling (shita) to the body.
• Vipaka (Post-Digestive Effect): The effect the herb has on the body after digestion is complete.
• Gunas (Qualities): Physical attributes like heavy/light, dry/oily, etc.
• Prabhava (Special Action): A unique, otherwise unexplainable effect of an herb. 

Herbs are selected based on an individual's unique constitution (prakriti), current imbalances (vikruti), digestive strength (agni), and the season or climate. 

Common Ayurvedic Herbs and Their Uses

Many familiar kitchen spices are potent Ayurvedic herbs used for daily wellness.

           

• Ashwagandha (Withania somnifera): An adaptogen used to reduce stress, anxiety, and fatigue; it supports sleep and boosts vitality. It is warming and often used for Vata imbalances.

• SADABAHAR, VINCA ROSEASE : GLUCOSE IN- TOLERENCE (MADHUMEH) & CELL PROLIFERATION  STABILIZER CHECK BARRIERS
• Turmeric (Curcuma longa): Known as the "golden spice," it is a powerful anti-inflammatory and antioxidant used for purifying the blood, supporting digestion, and promoting skin health.
• Tulsi (Holy Basil, Ocimum sanctum): Revered as the "Queen of Herbs," tulsi is used to support the immune and respiratory systems, manage stress, and promote mental clarity.
• Ginger (Zingiber officinale): A universal medicine (Vishwabheshaja), it is a kitchen staple for digestion, relieving nausea, and reducing pain and inflammation.
• Amla (Indian Gooseberry, Phyllanthus emblica): High in Vitamin C, it's a potent rejuvenator (rasayana) that supports the immune system, digestion, and has anti-aging properties.
• Brahmi (Bacopa monnieri): A tonic for the nervous system, used to enhance memory, focus, and mental clarity while calming the mind.
• Neem (Azadirachta indica): A powerful detoxifier and blood purifier with strong antibacterial and antifungal properties, primarily used for skin and oral hygiene.
• Triphala: A classic polyherbal formula made from three fruits (Amalaki, Bibhitaki, and Haritaki) that gently cleanses the digestive tract, supports bowel regularity, and balances all three doshas.         
• Important Safety Note. 

While herbs are natural, they are potent and can have significant effects on the body. Self-medication is not recommended. For safe and effective use, it is best to consult a qualified Ayurvedic practitioner who can provide a personalized plan based on your individual needs and health condition. Certain herbs can interact with conventional medications, so discussion with a healthcare provider is essential if you are taking prescription medicines or have existing health conditions. 

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ARTIFICIAL SOUL-MAN MADE SUPER NATURAL LIVING BODY MIMICS NATURAL HUMAN BEINGS AND ALL FORM LIVING ORGANISMS PROTOCOL TRAIL 001

ARTIFICIAL SOUL-MAN MADE SUPER NATURAL LIVING BODY MIMICS NATURAL HUMAN BEINGS AND ALL FORM LIVING ORGANISMS PROTOCOL TRAIL 001

🫀🫁💖🪐🪾🍂📿

ARTIFICIAL SOUL-MAN MADE SUPER NATURAL LIVING BODY MIMICS NATURAL HUMAN BEINGS AND ALL FORM LIVING ORGANISMS PROTOCOL TRAIL 001

The life of the most powerful bodies or organs are upto 150-200 years by following yoga, meditation and diets 

What happened when the body dead we conclude by breathing and pulse stoped

Before this the body alived 

This was mentioned in skandh puran and garun pooran

The soul released and within 13 days after agni sanskar the last karma of human beings and trasfered to another body and take another birth the ponarjanma

If we capture the soul while it has been released from human body before death it is hopefully transformation to another human body  or any artificial body mimics orignal with 100-200 years self life

CONCEPT 

EDITION 1

The man made body transformation done by sifting heart and lungs at the time of death to man made bodies completely made of all Organs, tissues, blood vessels, cappilerys, brain, kidney, various system, BRAIN AND SPINAL CORD, AUTO IMMUNE SYSTEM, BATTERY POWER SUPLY with pump

Buffer Solution isotonic solution acid base Nacl glucose D-MANNITOL and sulfur colloid solution 

EDITION 2

TRANSFORMATION OF ONLY HEART AND LUNGS TO ANOTHER BODY BEFORE LAST STAGE OF DIED TO GET REBIRTH

Scaned with cold kits labelled tc99m tin chloride mdp, Dtpa, DMSA, EC, sulphur colloid withpyp,  maa and mibi-cu under spect and pet scanning

CONCLUSION 

THE SOUL IS IN THE HEART FOLLED IN LUNGS

REST ALL ORGANS ARE WORK ON SYMPHATATICS AND PARASYMPATHETIC GLANDS AND GIT EXCRETORY LIQUIDS GAS HEAT PROTINE CARBOHYDRATES FATS

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#MARS🥳🌾

#JAGANNATH_PURI💖💗💞💕💓🫀🫁

Design of electromagnetvacuum bullet train trail -1 DESIGN AND SYNOPTIC Illustration

12000 HP MOTOR CONNECTED WITH VACCUM PUMP capacity 100000 L/s

• Ultra-High Vacuum (UHV): UHV pumps, like cryopumps, can reach ultimate vacuum levels of 10^-9 Torr. 

• Condenser -250°c

• Magnetic semi conductor wheels with silicon coated and hydraulic pressure adjustment valve

• 2 to 3 stop max

• Control with PLC ETHERNATE MONITOR

• SOFTWARE RUN

• ELECTRICITY REQUIRED

• Vacuum - piplani, capacitence monomerer

• Front engine, back engine and end engine (tripplet vacuum engine loaded)

• Break is by released vacuum break

• Software control

• 12 coach and 3 engine

• Design must be similar to pericardium ball pen

• Color ivory

• Track magnetic SS SPIKED WITH IRON AND SILICON ZIP LOCKED PATTERNelectromagnetic 

• GPS

• Al

        

rHA PREPARATION METHOD

Recombinant Human Albumin (rHA) is typically produced through yeast fermentation, not extraction. The process involves genetically modifying yeast cells to express the human albumin gene, then growing these cells in a controlled environment to produce and secrete rHA. The rHA is then separated

Here's a more detailed explanation:

1. Yeast Fermentation for rHA Production:

• Genetic Modification:Yeast cells, often Saccharomyces cerevisiae (baker's yeast), are genetically modified to carry the human albumin gene. This gene directs the yeast cells to produce human albumin.

• Fermentation:The genetically modified yeast cells are then grown in a large-scale fermentation process. This involves providing the yeast with a suitable growth medium and controlling parameters like temperature, pH, and oxygen levels.

• rHA Secretion:The yeast cells, while growing, secrete the produced rHA into the surrounding culture medium. This secreted rHA can then be separated from the yeast cells and the culture medium. 

Genetically modified yeast cells can be engineered to express the human albumin gene, allowing for the production of human serum albumin (HSA), a valuable therapeutic protein. This involves introducing the human albumin gene into yeast cells, often under the control of strong yeast promoters, and ensuring proper secretion of the protein. 

Here's a more detailed explanation:

1. Gene Introduction:

• The human albumin gene (HSA) is inserted into a yeast cell, typically using a plasmid vector. 

• The vector also includes regulatory elements like promoters and terminators that control gene expression. 

• Commonly used yeast promoters include the GAL1 promoter and the glyceraldehyde-3-phosphate dehydrogenase (GAP) promoter. 

• A leader sequence is often added to the HSA gene to direct the protein to the secretory pathway for secretion from the yeast cell. 

2. Yeast Strain Selection:

• Saccharomyces cerevisiae (baker's yeast) is a common host for expressing heterologous proteins like HSA. 

• Other yeast species like Pichia pastoris are also used, often chosen for their high protein expression capabilities. 

3. Optimizing Expression and Secretion:

• Genetic modifications can be introduced to reduce protein degradation by yeast proteases. For example, deleting genes encoding proteases like Yap3p or Kex2p can improve HSA yields. 

• Different leader sequences can be tested to find the most efficient for secretion. 

• The stability of the plasmid carrying the HSA gene can be improved by integrating it into the yeast genome. 

• The medium composition and culture conditions can be optimized to enhance HSA production. 

4. Applications:

• HSA is used as a therapeutic protein, particularly for treating liver cirrhosis, burns, and other conditions. 

• Genetically engineered yeast strains can produce large quantities of HSA, offering a more cost-effective and reliable source compared to isolating it from human blood. 

• HSA can also be modified to create fusion proteins with other therapeutic peptides or proteins, potentially improving their efficacy and pharmacokinetic properties. 

By combining genetic engineering techniques with a suitable yeast host, researchers can create efficient systems for producing human albumin and its derivatives for therapeutic and other applications. 

Genetically modified yeast cells can be created to express the human albumin gene by introducing a plasmid containing the gene into the yeast cells. This process involves inserting the human albumin gene, along with necessary regulatory elements like promoters and terminators, into a plasmid vector, which is then introduced into the yeast cells. The yeast cells, upon successful transformation, will then transcribe and translate the human albumin gene, producing human albumin. 

Here's a more detailed breakdown:

• Plasmid Construction:The human albumin gene is cloned into a yeast expression plasmid. This plasmid typically includes: A yeast-derived promoter to drive transcription of the albumin gene. The human albumin gene sequence. A transcription terminator to signal the end of gene expression. Often, a selectable marker gene (like antibiotic resistance) to allow for selection of transformed yeast cells. Sequences for integration into the yeast genome or for autonomous replication (depending on the type of plasmid). 

• Yeast Transformation:The plasmid is introduced into yeast cells using various methods, such as electroporation or spheroplast transformation. 

• Expression and Secretion:Once inside the yeast cell, the plasmid can integrate into the yeast chromosome or replicate autonomously, depending on the plasmid design. The yeast cell will then transcribe and translate the human albumin gene, producing human albumin protein. The albumin protein can be secreted into the surrounding medium or retained within the cell, depending on the presence of a signal sequence in the albumin gene and the yeast strain's capabilities. 

• Optimization:Further optimization of the process may involve:Modifying the yeast strain to enhance protein production. Optimizing the culture conditions, such as pH, temperature, and nutrient availability. Utilizing chaperone proteins to assist in proper folding and secretion of the albumin protein. 

• Applications:This technology has applications in producing recombinant human albumin (rHSA) for therapeutic purposes, such as treating albumin deficiency. 

By carefully selecting the yeast strain, optimizing expression conditions, and choosing the appropriate plasmid design, researchers can achieve high-level expression and secretion of human albumin in yeast. 

MARS- MAHATMA RAKESH SINGH