2016

Iodine and Thyroid with Jeffrey Dach MD and James Andriella on Back to Human Podcast.

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Bay Area Wellness - Functional Medicine Psychiatry focuses on discovering and removing the underlying sources of inflammation in the body that affect the brain, causing Psychiatric Illness and Cognitive Problems, and helps support the immune system to get it back in balance.

(NaturalHealth365) Big Pharma is often credited with "breakthrough" cancer treatments. In reality, cancer patients are not told the truth.

Beloved Homeopathic Veterinarian, Michael Dym, VMD, returns to The HighWire to share his serious concerns about the poor health of pets due to over vaccinating, over processed food, and harmful treatments. Dr. Dym also answers some of the most common questions when it comes to raising and treating their furry friends with the same holistic […]

Perhaps the number one indicator of the safety and efficacy of the COVID shots are the runaway excess deaths being experienced in countries around the world. Parliaments are now having open discussions about this major red light signal. POSTED: October 27, 2023

SHOW NOTES: https://www.corbettreport.com/?p=36920A listener writes in to lament that The Corbett Report is spreading false facts about Bill Gates in the Who...

Leading exosome biotechnology laboratory. Specializes in the production of perinatal MSC-derived exosome products for cosmetic treatment. Request a lab tour.

Leading exosome biotechnology laboratory. Specializes in the production of perinatal MSC-derived exosome products for cosmetic treatment. Request a lab tour.

Leading exosome biotechnology laboratory. Specializes in the production of perinatal MSC-derived exosome products for cosmetic treatment. Request a lab tour.

Leading exosome biotechnology laboratory. Specializes in the production of perinatal MSC-derived exosome products for cosmetic treatment. Request a lab tour.

Leading exosome biotechnology laboratory. Specializes in the production of perinatal MSC-derived exosome products for cosmetic treatment. Request a lab tour.

Leading exosome biotechnology laboratory. Specializes in the production of perinatal MSC-derived exosome products for cosmetic treatment. Request a lab tour.

Leading exosome biotechnology laboratory. Specializes in the production of perinatal MSC-derived exosome products for cosmetic treatment. Request a lab tour.

Leading exosome biotechnology laboratory. Specializes in the production of perinatal MSC-derived exosome products for cosmetic treatment. Request a lab tour.

Leading exosome biotechnology laboratory. Specializes in the production of perinatal MSC-derived exosome products for cosmetic treatment. Request a lab tour.

Leading exosome biotechnology laboratory. Specializes in the production of perinatal MSC-derived exosome products for cosmetic treatment. Request a lab tour.

Leading exosome biotechnology laboratory. Specializes in the production of perinatal MSC-derived exosome products for cosmetic treatment. Request a lab tour.

Leading exosome biotechnology laboratory. Specializes in the production of perinatal MSC-derived exosome products for cosmetic treatment. Request a lab tour.

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Ralstonia solanacearum causes bacterial wilt disease, leading to severe crop losses. Xylem sap from R. solanacearum-infected tomato is enriched in the disaccharide trehalose. Water-stressed plants also accumulate trehalose, which increases drought tolerance via abscisic acid (ABA) signaling. Because R. solanacearum-infected plants suffer reduced water flow, we hypothesized that bacterial wilt physiologically mimics drought stress, which trehalose could mitigate. We found that R. solanacearum-infected plants differentially expressed drought-associated genes, including those involved in ABA and trehalose metabolism, and had more ABA in xylem sap. Consistent with this, treating tomato roots with ABA reduced both stomatal conductance and stem colonization by R. solanacearum. Treating roots with trehalose increased xylem sap ABA and reduced plant water use by lowering stomatal conductance and temporarily improving water use efficiency. Trehalose treatment also upregulated expression of salicylic acid (SA)-dependent tomato defense genes; increased xylem sap levels of SA and other antimicrobial compounds; and increased bacterial wilt resistance of SA-insensitive NahG tomato plants. Additionally, trehalose treatment increased xylem concentrations of jasmonic acid and related oxylipins. Finally, trehalose-treated plants were substantially more resistant to bacterial wilt disease. Together, these data show that exogenous trehalose reduced both water stress and bacterial wilt disease and triggered systemic disease resistance, possibly through a Damage Associated Molecular Pattern (DAMP) response pathway. This suite of responses revealed unexpected linkages between plant responses to biotic and abiotic stress and suggested that R. solanacearum-infected plants increase trehalose to improve water use efficiency and increase wilt disease resistance. The pathogen may degrade trehalose to counter these efforts. Together, these results suggest that treating tomatoes with exogenous trehalose could be a practical strategy for bacterial wilt management.