Plant Stem Cells

Published data have highlighted that during plant embryogenesis the apical-basal axis is established and both the shoot apical meristem (SAM) and the root apical meristem (RAM) are formed, at the conventional site where plant stem cells were believed to exist or reside.

However, later studies have disclosed that even procambial cells and Callus also depict the criteria for being stem cells. Additionally, comparison has also revealed that there is only one gene that is conserved between plants and animals that plays a crucial role in deciding whether the cell continues to differentiate and encodes the activation of Retinoblastoma protein.

Lilac stem cells have proven significantly beneficial in treating acne, while Edelweiss, Coneflower and Pennywort plant stem cells have shown to be beneficial for reversing aging.

Tea, Camellia sinensis is a perennial plant and its polyphenolic fractions as well as the chemistry of –EGCg (epigallocatechin gallate) molecules exhibit a variety of superior antioxidants. They can regulate cell division, proliferation, platelet aggregation, inhibition of SNARE complex and catecholamine’s imparting a response that is clinically beneficial in enhancing telomeres capping and replication or reversing the aging process.

As mentioned earlier that Ginkgo-flavonol glycosides enhance β-cell self-replication or neogenesis from ductal progenitors to treat diabetes.

Eurycome longifolia and Trigonella Foenum-graecum plant stem cells have shown notably promising results to treat ED.

Experts funded by us working at approved laboratories are still conducting additional clinical studies. After phase I to III clinical studies and submission for patents the results will be published in reputable prestigious medical journals.