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Me, Myself & the Methylation Cycle


The Methylation Cycle: What Is It and What Does It Mean for My Health?

If you suffer from decreased energy, listlessness or low mood that is unresolved, you may want to learn more about methylation and neurotransmitters.

There’s a buzz-word floating around the world of integrative medicine recently—methylation. A quick Google search on methylation will make you want to hide under your desk and never come out. Methylation is a broad term. Methylation is the addition of a methyl group (a carbon surrounded by hydrogen atoms) to a substrate and it occurs in the body a billion times per second. Its processes do not just lend themselves towards one of our body’s functions; it underlies about 40 vital reactions our bodies perform millions of times a day. When methylation doesn’t occur as efficiently as it should, illnesses, symptoms and sickness arise. Even symptoms such as fatigue and susceptibility to the common cold can be contributed to improper methylation.

So What Exactly Is Methylation or the Methylation Cycle?

Methylation begins in the body when Adenosine Triphosphate (ATP) donates its adenosine to methionine in a reaction catalyzed by the enzyme S-adenosyl-methionine synthetase. S-adenosine methionine (SAMe) is produced from this reaction. SAMe then donates its methyl group to a substrate. The substrate is thereby ‘methylated’ and is now able to go out and perform its function in the body. After SAMe loses its methyl group to a substrate, the adenosine leftover is hydrolyzed (i.e. water is added) to become l-homocysteine. Homocysteine is either reduced to cysteine in the body or recycled to become methionine. After methionine is created with the help of vitamin B12 and methylfolate, methionine accepts adenosine from ATP, creating SAMe and the methylation process begins again.

What You Need to Know:

  • A methyl group is donated to a substrate in the methylation cycle, giving the substrate the ‘ticket’ to do other functions in the body.
  • Methylation cycle is a cycle—this means it needs all the components to happen, in order, for the next step to occur.

But Here’s the Thing:

Methyl groups are not just donated to one type of substrate—meaning that a variety of important substrates need to have a methyl group attached to them in order to do their job.

Need an example? The methylation cycle donates a methyl group to norepinephrine in order for norepinephrine to be converted to epinephrine.  Epinephrine is a neurotransmitter and hormone that triggers the “flight or fight” reaction in response to stress.

So How Does This Explain All Your Symptoms?

The cycle needs to occur efficiently in order for the variety of substrates in the body that need methyl groups to receive methyl groups.  Every step in the cycle requires vital nutrients or certain reactions to occur in order for the next step in the cycle to occur. If the body doesn’t have the nutrients it needs, fewer methyl groups get added to a particular substrate (whether it is DNA, an amino acid, etc.) and the substrate cannot complete its functions as efficiently in the body.

For example, vitamin B12 and the enzyme methionine synthase are needed to break down homocysteine into methionine within the methylation cycle. When vitamin B12 is not present in the body, homocysteine is not recycled to methionine and the methylation cycle is paused, causing a build-up of homocysteine. High homocysteine levels are found in over 50% of low mood patients and it is a biomarker for mortality and more.  In addition, since the cycle is not running efficiently, all of the substrates in the body that need a methyl group are not getting one and they are unable to do their job.

So Why Me?

A variety of factors contribute to how efficiently your methylation cycle “runs.” Things such as vitamin intake (through supplements and food source), alcohol intake, and exposure to chemicals can all modify the way you methylate. In some people, poor methylation is a matter of genetics.

And What Can You do About It?

MethylMax™ provides comprehensive methylation support.* It contains multiple ingredients that support methylation and a healthy homocysteine/methionine cycle.*

  • B vitamins (B6, B9, and B12) help maintain healthy homocysteine metabolism.*
  • Betaine, also known as trimethylglycine (TMG), and SAMe are methyl donors in the homocysteine cycle.*
  • In fact, TMG methylates homocysteine ultimately generating SAMe.*

Looking for more information? Sanesco is changing the way practitioners approach balance in the body. Find a Sanesco Healthcare Provider near you or become one.


Bottiglieri, T., Laundy, M., Crellin, R., Toone, B. K., Carney, M. W., & Reynolds, E. H. (2000). Homocysteine, folate, methylation, and monoamine metabolism in depression. Journal of Neurology, Neurosurgery & Psychiatry,69(2), 228-232.

Cedar, H., & Bergman, Y. (2009). Linking DNA methylation and histone modification: patterns and paradigms. Nature Reviews Genetics10(5), 295-304.

De Ruijter, W., Westendorp, R. G., Assendelft, W. J., Elzen, W. P. D., de Craen, A. J., le Cessie, S., & Gussekloo, J. (2009). Use of Framingham risk score and new biomarkers to predict cardiovascular mortality in older people: population-based observational cohort study. BMJ: British Medical Journal, 219-222.

Fiorito, G., Guarrera, S., Valle, C., Ricceri, F., Russo, A., Grioni, S., … & Matullo, G. (2013). B-vitamins intake, DNA-methylation of One Carbon Metabolism and homocysteine pathway genes and myocardial infarction risk: the EPICOR Study. Nutrition, Metabolism and Cardiovascular Diseases.

Jung, A. Y., Poole, E. M., Bigler, J., Whitton, J., Potter, J. D., & Ulrich, C. M. (2008). DNA methyltransferase and alcohol dehydrogenase: gene-nutrient interactions in relation to risk of colorectal polyps. Cancer Epidemiology Biomarkers & Prevention17(2), 330-338.

Methylation Overview For Professionals

Seshadri, S., Beiser, A., Selhub, J., Jacques, P. F., Rosenberg, I. H., D’Agostino, R. B., … & Wolf, P. A. (2002). Plasma homocysteine as a risk factor for dementia and Alzheimer’s disease. New England Journal of Medicine,346(7), 476-483.

Wajed, S. A., Laird, P. W., & DeMeester, T. R. (2001). DNA methylation: an alternative pathway to cancer. Annals of surgery234(1), 10.



Sanesco Health

Sanesco Health

Disclaimer: The information provided is only intended to be general educational information to the public. It does not constitute medical advice. If you have specific questions about any medical matter or if you are suffering from any medical condition, you should consult your doctor or other professional healthcare provider.

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