Telomere Science
There are trillions of cells in our body and at any given time a great number are dividing furiously to keep us alive and well. The process is directed by genes sitting on the 23 pairs of chromosomes found in the nucleus of each and every cell. The chromosomes are long sequences of DNA that contain all our genetic material. Each pair of chromosomes consists of one from your mother and one from your father and they are twisted around each other to form a structure called the double helix.
Of particular interest to our scientists are the ends of each chromosome known as telomeres. Telomeres have no genetic function; they are simply stretches of DNA (repeats of base pairs) that protect the rest of the chromosome. These little bits of DNA are critical to healthy cell function and have been likened to the plastic tips on shoelaces because they prevent the chromosome from "fraying."
However, telomeres become progressively shorter each time the cell divides. When they get too short, cells reach replicative senescence and can no longer divide. The result can be the various conditions associated with old age.
Scientists have only recently begun to understand the critical importance of shortened telomeres. Research has shown that people over sixty who have long telomeres experience greater heart and immune system health than their age-matched counterparts with shorter telomeres. Thus, it is becoming well-understood that maintaining telomere length is preventing age-related decline.
The phenomenon of cellular aging was first noted by Professor Lenhard Hayflick in 1961. He discovered that cells cannot divide beyond a specific number of times. This is called the Hayflick Limit. Cells reaching this limit become old. Although Professor Hayflick discovered this important scientific principle, he had no idea what caused it.
It took almost thirty more years before the role telomeres play in cellular aging was finally understood. In 1990, Calvin Harley at McMaster University in Canada and Carol Greider at Cold Spring Harbor Laboratory in the USA discovered that telomere shortening goes hand-in-hand with the aging process and is the direct cause of cells reaching the Hayflick Limit.
What is a Telomere?
· Telomere (tel-uh-meer) from the Greek telos (end) and meros (part)
There are trillions of cells in our body and at any given time a great number are dividing furiously to keep us alive and well. The process is directed by genes sitting on the 23 pairs of chromosomes found in the nucleus of each and every cell. The chromosomes are long sequences of DNA that contain all our genetic material. Each pair of chromosomes consists of one from your mother and one from your father and they are twisted around each other to form a structure called the double helix.
Of particular interest to our scientists are the ends of each chromosome known as telomeres. Telomeres have no genetic function; they are simply stretches of DNA (repeats of base pairs) that protect the rest of the chromosome. These little bits of DNA are critical to healthy cell function and have been likened to the plastic tips on shoelaces because they prevent the chromosome from "fraying."
However, telomeres become progressively shorter each time the cell divides. When they get too short, cells reach replicative senescence and can no longer divide. The result can be the various conditions associated with old age.
Scientists have only recently begun to understand the critical importance of shortened telomeres. Research has shown that people over sixty who have long telomeres experience greater heart and immune system health than their age-matched counterparts with shorter telomeres. Thus, it is becoming well-understood that maintaining telomere length is preventing age-related decline.
The phenomenon of cellular aging was first noted by Professor Lenhard Hayflick in 1961. He discovered that cells cannot divide beyond a specific number of times. This is called the Hayflick Limit. Cells reaching this limit become old. Although Professor Hayflick discovered this important scientific principle, he had no idea what caused it.
It took almost thirty more years before the role telomeres play in cellular aging was finally understood. In 1990, Calvin Harley at McMaster University in Canada and Carol Greider at Cold Spring Harbor Laboratory in the USA discovered that telomere shortening goes hand-in-hand with the aging process and is the direct cause of cells reaching the Hayflick Limit.
What is a Telomere?
· Telomere (tel-uh-meer) from the Greek telos (end) and meros (part)
· Telomeres are an essential part of human cells that affect how our cells age.
· Telomeres are the caps at the end of each strand of DNA that protect our chromosomes, like the plastic tips at the end of shoelaces.
Without the coating, shoelaces become frayed until they can no longer do their job, just as without telomeres, DNA strands become damaged and our cells can’t do their job
· Telomeres are the caps at the end of each strand of DNA that protect our chromosomes, like the plastic tips at the end of shoelaces.
Without the coating, shoelaces become frayed until they can no longer do their job, just as without telomeres, DNA strands become damaged and our cells can’t do their job
Telomeres protect the vital information in our DNA
DNA makes up all of the cells in our body. It is the genetic material that makes us who we are. And every organ in our body (skin, liver, heart, etc.) is made up of cells. So, telomeres are vital to our health.
Our cells replenish by copying themselves. This happens constantly throughout our lives. Telomeres get shorter each time a cell copies itself, but the important DNA stays intact.
Eventually, telomeres get too short to do their job, causing our cells to age and stop functioning properly. Therefore, telomeres act as the aging clock in every cell.
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Telomeres are shortened as we age, but telomeres can also be shortened by stress, smoking, obesity, lack of exercise and a poor diet
DNA makes up all of the cells in our body. It is the genetic material that makes us who we are. And every organ in our body (skin, liver, heart, etc.) is made up of cells. So, telomeres are vital to our health.
Our cells replenish by copying themselves. This happens constantly throughout our lives. Telomeres get shorter each time a cell copies itself, but the important DNA stays intact.
Eventually, telomeres get too short to do their job, causing our cells to age and stop functioning properly. Therefore, telomeres act as the aging clock in every cell.
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Telomeres are shortened as we age, but telomeres can also be shortened by stress, smoking, obesity, lack of exercise and a poor diet
Scientists know a lot about telomeres, and they continue to find new evidence about the role telomeres play in the aging process on a cellular level
Background
The fact that telomeres protect our DNA was first observed in the 1930s.
Scientists made the link between telomeres and cellular aging nearly 30 years ago.
The fact that telomeres protect our DNA was first observed in the 1930s.
Scientists made the link between telomeres and cellular aging nearly 30 years ago.
Research studies
In 2009, the Nobel Prize forPhysiology/Medicine was awarded to three scientists who discovered how an enzyme called telomerase impacts telomere length.
A 2010 study from Harvard Medical School showed telomere shortening to be a root cause of cellular aging.
In 2009, the Nobel Prize forPhysiology/Medicine was awarded to three scientists who discovered how an enzyme called telomerase impacts telomere length.
A 2010 study from Harvard Medical School showed telomere shortening to be a root cause of cellular aging.
Today & tomorrow
There are more than 10,000 scientific articles published about telomeres.
An ever increasing number of scientists continue to study telomeres and the benefits of stopping or possibly reversing the telomere shortening that happens with age.
There is scientific evidence that telomeres can be lengthened
An enzyme called telomerase can slow, stop or perhaps even reverse the telomere shortening that happens as we age. The amount of telomerase in our bodies declines as we age.
Telomerase maintains and may even lengthen telomeres. Exposing human cells to telomerase slows cell aging and allows cells to begin copying again and longer telomeres cause gene expression to change to a younger phenotype which makes cells function as though they were younger.
There are other things we can do that might help restore telomere length or at least slow the loss of telomere length: reduce stress, stop smoking, lose weight, exercise more and eat a healthier diet.
Exposing human cells to telomerase slows cell aging and allows cells to begin copying again.
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TLC ULTRASORB CARDIO Coenzyme Q-10 (Co Q-10) is a naturally occurring, fat soluble antioxidant that has a big job: supporting you as you age gracefully. and,Free radicals can cause oxidative stress which may damage cells which is what makes Co Q-10 an important compound in your body. It is essential to the production of energy by almost every cell.
TLC ULTRASORB CARDIO Co Q-10 contributes to cardiovascular wellness and energy production within your heart. If youre looking to support a healthy heart and blood-pressure levels that are already within a normal range, Co Q-10 does just that. It also promotes oral and gum health which is also good for the heart.
TLC ULTRASORB CARDIO CoQ10 BenefitsCoQ10, or coenzyme Q10, is a popular supplement due to the various health conditions it can assist with. It is also known as ubiquinone, ubidecarenone, coenzyme Q. It is a natural enzyme produced by the body. It is part of the electron transport chain, used for aerobic cellular respiration. A majority of the body’s energy comes from this cellular respiration – about 95%. The organs that require the most energy such as the heart, kidney and liver therefore have the highest levels of this coenzyme.
What makes CoQ10 unique is that it can exist in an oxidized form for the functions of the electron transport chain and completely reduced in form for an antioxidant. (Oxidation is gain of oxygen, reduction is loss of oxygen from the CoQ10 molecule).
There are many reasons that a person can be deficient in this enzyme, due to metabolic or mitochondrial disorders or because of poor dietary intake. Therefore a health supplement of CoQ10 can provide a number of benefits to the body.
There are more than 10,000 scientific articles published about telomeres.
An ever increasing number of scientists continue to study telomeres and the benefits of stopping or possibly reversing the telomere shortening that happens with age.
There is scientific evidence that telomeres can be lengthened
An enzyme called telomerase can slow, stop or perhaps even reverse the telomere shortening that happens as we age. The amount of telomerase in our bodies declines as we age.
Telomerase maintains and may even lengthen telomeres. Exposing human cells to telomerase slows cell aging and allows cells to begin copying again and longer telomeres cause gene expression to change to a younger phenotype which makes cells function as though they were younger.
There are other things we can do that might help restore telomere length or at least slow the loss of telomere length: reduce stress, stop smoking, lose weight, exercise more and eat a healthier diet.
Exposing human cells to telomerase slows cell aging and allows cells to begin copying again.
TLC HEALTH PURELY ACTIVE CYCLOASTRAGENOL - Will Help You Feel Younger Now.
TLC ULTRASORB CARDIO CO Q 10
TLC ULTRASORB CARDIO Coenzyme Q-10 (Co Q-10) is a naturally occurring, fat soluble antioxidant that has a big job: supporting you as you age gracefully. and,Free radicals can cause oxidative stress which may damage cells which is what makes Co Q-10 an important compound in your body. It is essential to the production of energy by almost every cell.
TLC ULTRASORB CARDIO Co Q-10 contributes to cardiovascular wellness and energy production within your heart. If youre looking to support a healthy heart and blood-pressure levels that are already within a normal range, Co Q-10 does just that. It also promotes oral and gum health which is also good for the heart.
CoQ10, or coenzyme Q10, is a popular supplement due to the various health conditions it can assist with. It is also known as ubiquinone, ubidecarenone, coenzyme Q. It is a natural enzyme produced by the body. It is part of the electron transport chain, used for aerobic cellular respiration. A majority of the body’s energy comes from this cellular respiration – about 95%. The organs that require the most energy such as the heart, kidney and liver therefore have the highest levels of this coenzyme.
What makes CoQ10 unique is that it can exist in an oxidized form for the functions of the electron transport chain and completely reduced in form for an antioxidant. (Oxidation is gain of oxygen, reduction is loss of oxygen from the CoQ10 molecule).
There are many reasons that a person can be deficient in this enzyme, due to metabolic or mitochondrial disorders or because of poor dietary intake. Therefore a health supplement of CoQ10 can provide a number of benefits to the body.
Did you know that your body already contains a substance that naturally sustains energy?
The human body is pretty incredible when you take a look at all of the nutrients that help us flourish throughout our lives. One of those amazing nutrients is coenzyme Q10 (Co Q-10), a fat-soluble substance naturally found and produced by the human body. This is one of the most important components of the body when it comes to helping you age gracefully.
The human body is pretty incredible when you take a look at all of the nutrients that help us flourish throughout our lives. One of those amazing nutrients is coenzyme Q10 (Co Q-10), a fat-soluble substance naturally found and produced by the human body. This is one of the most important components of the body when it comes to helping you age gracefully.
What is Co Q-10?
Concentrated in the heart, kidneys, liver, and pancreas, CoQ10 is an essential component to health, as it is needed by every cell in the body. Co Q-10 acts as an antioxidant in the body as it fights free radicals that contribute to aging and cell damage. The active form of Co Q-10 is called ubiquinol. All animals (and this includes humans) can create CoQ10. Some people have a little more trouble than others producing this coenzyme, and with age, it naturally declines.
Concentrated in the heart, kidneys, liver, and pancreas, CoQ10 is an essential component to health, as it is needed by every cell in the body. Co Q-10 acts as an antioxidant in the body as it fights free radicals that contribute to aging and cell damage. The active form of Co Q-10 is called ubiquinol. All animals (and this includes humans) can create CoQ10. Some people have a little more trouble than others producing this coenzyme, and with age, it naturally declines.
Co Q-10 in food
Knowing about where CoQ10 is found in the body, it probably isn’t surprising that common food sources of this nutrient are organ meats, like hearts, livers, and kidneys. There are other food sources of Co Q-10, including beef, chicken, pork, sardines, soybean oil, oranges, and spinach.
Knowing about where CoQ10 is found in the body, it probably isn’t surprising that common food sources of this nutrient are organ meats, like hearts, livers, and kidneys. There are other food sources of Co Q-10, including beef, chicken, pork, sardines, soybean oil, oranges, and spinach.
Co Q-10 and energy
One of the major roles of CoQ10 is that it assists with converting food into energy in the body.** This energy is what helps to fuel our brains and our bodies, something we don’t always think about on a daily basis, especially since this process begins deep within our cells, inside of the mitochondria. You might remember from science class that mitochondria are known as the “powerhouses” of our cells. This means that they act like microscopic digestive systems within our cells, converting food into nutrients the body can use. CoQ10 also helps other enzymes properly do their jobs. This process has a chain reaction that positively influences other parts of the body, including the heart.**
One of the major roles of CoQ10 is that it assists with converting food into energy in the body.** This energy is what helps to fuel our brains and our bodies, something we don’t always think about on a daily basis, especially since this process begins deep within our cells, inside of the mitochondria. You might remember from science class that mitochondria are known as the “powerhouses” of our cells. This means that they act like microscopic digestive systems within our cells, converting food into nutrients the body can use. CoQ10 also helps other enzymes properly do their jobs. This process has a chain reaction that positively influences other parts of the body, including the heart.**
Co Q-10 and heart health
Most people already know CoQ10 plays a role in supporting heart health.** As part of the energy production process, CoQ10 supports cardiovascular wellness and promotes normal blood pressure levels.**
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Telomeres are the protective caps on the ends of the strands of DNA called chromosomes, which house our genomes. In young humans, telomeres are about 8,000-10,000 nucleotides long. They shorten with each cell division, however, and when they reach a critical length the cell stops dividing or dies.
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TLC HEALTH ASTRAGALOSIDE IV® Vs Astragalus HerbIt has been asked that if TLC HEALTH ASTRAGALOSIDE IV® is effective in lengthening telomeres by telomerase activation- and if it is extracted from the herb astragalus, then surely consuming astragalus will have the same or similar effects? Unfortunately there is no evidence to suggest this.
The astragalus in TLC HEALTH ASTRAGALOSIDE IV® is sourced at monitored and approved farms and is then analyzed in an FDA approved laboratory to ensure a minimum of 99% purity, this process is kept proprietary. Under tight quality control conditions all according to ISO and cGMP standards.
Therefore, TLC HEALTH ASTRAGALOSIDE IV® can guarantee its label claims and is the best product currently tested and proven to active telomerase and induce lengthening of telomeres.
Currently only TLC HEALTH ASTRAGALOSIDE IV® can substantiate its right to be the WORLD'S BEST proven telomerase activator that is commercially available today. Compare ingredients and purity for facts.
* ASTRAGALOSIDE IV is a molecule isolated from various species in the genus Astragalus that is purported to have telomerase activation activity.
* A single in vitro study done led to claims that Astragaloside IV may activate telomerase, leading to controversial claims for its role in reducing the effects of aging.
Buy With Confidence:
* Astragaloside IV is a saponin derived from Astralagus root, a tonic that has been widely used in Asia for thousand years. Researchers from UCLA found the extracts from Astragalus such as Cycloastragenol and Astragaloside IV can boost production of telomerase.
* TLC HEALTH® is a professional Health Supplement Provider and our products are tested by independent 3rd-party labs in US.
Functions:
* Anti Aging *Better Sex with More Intensity
* Restore Telomere Cellular Function
* Strengthen Your Immune System
* Better and Deeper Sleep
* Improve Vision
* Improve Vitality
Suggested Dosage:
Take 1-2 capsules every morning in an empty stomach, or as directed by your health care professional or pharmacist.
Most people already know CoQ10 plays a role in supporting heart health.** As part of the energy production process, CoQ10 supports cardiovascular wellness and promotes normal blood pressure levels.**
TLC HEALTH PURELY ACTIVE ASTAGALOSIDE IV
TLC HEALTH - ASTRAGALOSIDE IV is 99.3% Purely Active and most likely is the Strongest, Most Effective Telomere Enhancement Supplement In The World. - When you add TLC HEALTH Purely Active ASTRAGALOSIDE IV to your nutritional program, You are potentially giving Yourself time to live longer and enjoy BETTER SEX, which is absolutely spectacular and truly priceless.
It has been asked that if TLC HEALTH ASTRAGALOSIDE IV® is effective in lengthening telomeres by telomerase activation- and if it is extracted from the herb astragalus, then surely consuming astragalus will have the same or similar effects? Unfortunately there is no evidence to suggest this.
The astragalus in TLC HEALTH ASTRAGALOSIDE IV® is sourced at monitored and approved farms and is then analyzed in an FDA approved laboratory to ensure a minimum of 99% purity, this process is kept proprietary. Under tight quality control conditions all according to ISO and cGMP standards.
Therefore, TLC HEALTH ASTRAGALOSIDE IV® can guarantee its label claims and is the best product currently tested and proven to active telomerase and induce lengthening of telomeres.
Currently only TLC HEALTH ASTRAGALOSIDE IV® can substantiate its right to be the WORLD'S BEST proven telomerase activator that is commercially available today. Compare ingredients and purity for facts.
* ASTRAGALOSIDE IV is a molecule isolated from various species in the genus Astragalus that is purported to have telomerase activation activity.
* A single in vitro study done led to claims that Astragaloside IV may activate telomerase, leading to controversial claims for its role in reducing the effects of aging.
Buy With Confidence:
* Astragaloside IV is a saponin derived from Astralagus root, a tonic that has been widely used in Asia for thousand years. Researchers from UCLA found the extracts from Astragalus such as Cycloastragenol and Astragaloside IV can boost production of telomerase.
* TLC HEALTH® is a professional Health Supplement Provider and our products are tested by independent 3rd-party labs in US.
Functions:
* Anti Aging
* Restore Telomere Cellular Function
* Strengthen Your Immune System
* Better and Deeper Sleep
* Improve Vision
* Improve Vitality
Suggested Dosage:
Take 1-2 capsules every morning in an empty stomach, or as directed by your health care professional or pharmacist.
Telomere Science
There are trillions of cells in our body and at any given time a great number are dividing furiously to keep us alive and well. The process is directed by genes sitting on the 23 pairs of chromosomes found in the nucleus of each and every cell. The chromosomes are long sequences of DNA that contain all our genetic material. Each pair of chromosomes consists of one from your mother and one from your father and they are twisted around each other to form a structure called the double helix.
Of particular interest to our scientists are the ends of each chromosome known as telomeres. Telomeres have no genetic function; they are simply stretches of DNA (repeats of base pairs) that protect the rest of the chromosome. These little bits of DNA are critical to healthy cell function and have been likened to the plastic tips on shoelaces because they prevent the chromosome from "fraying."
However, telomeres become progressively shorter each time the cell divides. When they get too short, cells reach replicative senescence and can no longer divide. The result can be the various conditions associated with old age.
Scientists have only recently begun to understand the critical importance of shortened telomeres. Research has shown that people over sixty who have long telomeres experience greater heart and immune system health than their age-matched counterparts with shorter telomeres. Thus, it is becoming well-understood that maintaining telomere length is preventing age-related decline.
The phenomenon of cellular aging was first noted by Professor Lenhard Hayflick in 1961. He discovered that cells cannot divide beyond a specific number of times. This is called the Hayflick Limit. Cells reaching this limit become old. Although Professor Hayflick discovered this important scientific principle, he had no idea what caused it.
It took almost thirty more years before the role telomeres play in cellular aging was finally understood. In 1990, Calvin Harley at McMaster University in Canada and Carol Greider at Cold Spring Harbor Laboratory in the USA discovered that telomere shortening goes hand-in-hand with the aging process and is the direct cause of cells reaching the Hayflick Limit.
· Telomere (tel-uh-meer) from the Greek telos (end) and meros (part)
There are trillions of cells in our body and at any given time a great number are dividing furiously to keep us alive and well. The process is directed by genes sitting on the 23 pairs of chromosomes found in the nucleus of each and every cell. The chromosomes are long sequences of DNA that contain all our genetic material. Each pair of chromosomes consists of one from your mother and one from your father and they are twisted around each other to form a structure called the double helix.
Of particular interest to our scientists are the ends of each chromosome known as telomeres. Telomeres have no genetic function; they are simply stretches of DNA (repeats of base pairs) that protect the rest of the chromosome. These little bits of DNA are critical to healthy cell function and have been likened to the plastic tips on shoelaces because they prevent the chromosome from "fraying."
However, telomeres become progressively shorter each time the cell divides. When they get too short, cells reach replicative senescence and can no longer divide. The result can be the various conditions associated with old age.
Scientists have only recently begun to understand the critical importance of shortened telomeres. Research has shown that people over sixty who have long telomeres experience greater heart and immune system health than their age-matched counterparts with shorter telomeres. Thus, it is becoming well-understood that maintaining telomere length is preventing age-related decline.
The phenomenon of cellular aging was first noted by Professor Lenhard Hayflick in 1961. He discovered that cells cannot divide beyond a specific number of times. This is called the Hayflick Limit. Cells reaching this limit become old. Although Professor Hayflick discovered this important scientific principle, he had no idea what caused it.
It took almost thirty more years before the role telomeres play in cellular aging was finally understood. In 1990, Calvin Harley at McMaster University in Canada and Carol Greider at Cold Spring Harbor Laboratory in the USA discovered that telomere shortening goes hand-in-hand with the aging process and is the direct cause of cells reaching the Hayflick Limit.
· Telomere (tel-uh-meer) from the Greek telos (end) and meros (part)