Telomere
What is Telomere?
Telomeres are the caps at the end of each strand of DNA that protect it, like the plastic tips at the end of shoelaces. When cells divide, telomeres get shorter. Shortened telmomeres result in cell aging and death.
Why is Telomere important?
Telomeres act as the aging clock in every cell because as the chromosome end-caps, they protect our genes and allow our cells to function and reproduce properly. Age related decline, dysfunction, and a shortened lifespan are all related to telomere shortening. Bottom line, without the protection from telomeres, our cells age and die.
Telomere Research
A study followed 800 people for 10 years. People with shortest telomeres were 11 times more likely to die of cancer than people with longest telomeres. Another study showed people with shorter telomeres in their immune cells had twice the risk of death from heart failure as patients with the longest telomeres. Short telomeres are involved with almost all the diseases associated with aging.
Telomeres are the caps at the end of each strand of DNA that protect it, like the plastic tips at the end of shoelaces. When cells divide, telomeres get shorter. Shortened telmomeres result in cell aging and death.
Why is Telomere important?
Telomeres act as the aging clock in every cell because as the chromosome end-caps, they protect our genes and allow our cells to function and reproduce properly. Age related decline, dysfunction, and a shortened lifespan are all related to telomere shortening. Bottom line, without the protection from telomeres, our cells age and die.
Telomere Research
A study followed 800 people for 10 years. People with shortest telomeres were 11 times more likely to die of cancer than people with longest telomeres. Another study showed people with shorter telomeres in their immune cells had twice the risk of death from heart failure as patients with the longest telomeres. Short telomeres are involved with almost all the diseases associated with aging.
TELEMERE & TELEMERASE
What is Telomerase?
Telomerase was discovered by Carole Greider and Jack Svostak, who also received the Nobel Prize in Medicine and Physiology in 2009.
Telomerase is a natural enzyme which stablize telomere length by adding DNA onto the ends of the chromosomes. The enzyme called telomerase can slow, stop, or perhaps even reverse the telomere shortening that happens as we age. Telomerase prevents and reverses telomere shortening.
Why is Telomere important?
Telomeres act as the aging clock in every cell because as the chromosome end-caps, they protect our genes and allow our cells to function and reproduce properly. Age related decline, dysfunction, and a shortened lifespan are all related to telomere shortening. Bottom line, without the protection from telomeres, our cells age and die.
Telomere Research
A study followed 800 people for 10 years. People with shortest telomeres were 11 times more likely to die of cancer than people with longest telomeres. Another study showed people with shorter telomeres in their immune cells had twice the risk of death from heart failure as patients with the longest telomeres. Short telomeres are involved with almost all the diseases associated with aging.
Telomerase was discovered by Carole Greider and Jack Svostak, who also received the Nobel Prize in Medicine and Physiology in 2009.
Telomerase is a natural enzyme which stablize telomere length by adding DNA onto the ends of the chromosomes. The enzyme called telomerase can slow, stop, or perhaps even reverse the telomere shortening that happens as we age. Telomerase prevents and reverses telomere shortening.
Why is Telomere important?
Telomeres act as the aging clock in every cell because as the chromosome end-caps, they protect our genes and allow our cells to function and reproduce properly. Age related decline, dysfunction, and a shortened lifespan are all related to telomere shortening. Bottom line, without the protection from telomeres, our cells age and die.
Telomere Research
A study followed 800 people for 10 years. People with shortest telomeres were 11 times more likely to die of cancer than people with longest telomeres. Another study showed people with shorter telomeres in their immune cells had twice the risk of death from heart failure as patients with the longest telomeres. Short telomeres are involved with almost all the diseases associated with aging.
What is Telomerase?
Telomerase was discovered by Carole Greider and Jack Svostak, who also received the Nobel Prize in Medicine and Physiology in 2009.
Telomerase is a natural enzyme which stablize telomere length by adding DNA onto the ends of the chromosomes. The enzyme called telomerase can slow, stop, or perhaps even reverse the telomere shortening that happens as we age. Telomerase prevents and reverses telomere shortening.
Telomerase was discovered by Carole Greider and Jack Svostak, who also received the Nobel Prize in Medicine and Physiology in 2009.
Telomerase is a natural enzyme which stablize telomere length by adding DNA onto the ends of the chromosomes. The enzyme called telomerase can slow, stop, or perhaps even reverse the telomere shortening that happens as we age. Telomerase prevents and reverses telomere shortening.
How to activate telomerase?
We can activate telomerase with TA-65®, Transient Telomerase activator.
TA-65 is a rare molecule discovered in a common medicinal plant (Astragalus membranaceus), which can activates the telomerase enzyme in aging human cells.
Telomerase activation may be the key to helping our tissues live longer, by slowing cell aging and allowing them to begin to replicate again.
We can activate telomerase with TA-65®, Transient Telomerase activator.
TA-65 is a rare molecule discovered in a common medicinal plant (Astragalus membranaceus), which can activates the telomerase enzyme in aging human cells.
Telomerase activation may be the key to helping our tissues live longer, by slowing cell aging and allowing them to begin to replicate again.