MTHFR Gene Health Practice
We use advanced levels of data and treatment protocols to gain leverage over genetic weaknesses that lead to fertility complications, miscarriage, and infertility.
Russell Browne is the director of the company trading as MTHFR Gene Health Practice. Russell is the original founder of MTHFR FERTILITY GENES™. He is a qualified practitioner of Advanced Nutrition, Advanced Herbalism, and Homeopathy. He is also qualified in Neuro-Linguistic Programming (NLP). MTHFR FERTILITY GENES™ specializes in fertility complications, genetic nutrition, epigenetics, and nutrigenomics for complicated fertility, miscarriages, and infertility. We use advanced levels of data and treatment protocols to gain leverage over genetic weaknesses that lead to fertility complications, miscarriage, and infertility.
ABOUT US
Contact Details:
MTHFR Gene Health Practice
808 Pacific Hwy, Gordon NSW 2072, Sydney, Australia
Website: https://mthfrfertilitygenes.com/
Google Site: https://sites.google.com/view/mthfrfertilitygenes
Google Folder: https://mgyb.co/s/XRmsW
MTHFR stands for methylene-tetrahydrofolate reductase. It is an enzyme that converts folate that you eat into the active form (5-Methyltetrahydrofolate). People who have MTHFR gene mutation/s which is a genetic disorder, tend to have a reduction in the ability to produce this enzyme which can lead to serious health problems including infertility, miscarriage, and pregnancy problems. This important enzyme is responsible for helping your body use the essential vitamin folate.
Those with MTHFR gene mutation/s have a limited capacity to use the essential nutrient. This problem then sets off a chain reaction of serious health problems that often lead to reproductive problems..
MTHFR AND PREGNANCY SUCCESS
STAYING PREGNANT WITH MTHFR
MTHFR (methyletetrahydrofolate reductase) is an enzyme that converts folic acid into usable form that our bodies need. It is a key enzyme in an important detoxification reaction in the body-one that converts homocysteine (toxic) to methionine (benign). If this enzyme is impaired, this detoxification reaction is impaired, leading to high homocysteine blood levels.
Additionally, when the enzyme MTHFR is impaired, other methylation reactions are compromised. Some of these methylation reactions affect neurotransmitters, which is why impaired MTHFR activity is linked with depression. Inefficiency of the MTHFR enzyme is also linked to migraines, autism, fertility, cancer and birth defects, all of which depend on proper methylation.
WHAT IS THE MTHFR GENE?
There is a gene called the MTHFR gene that basically controls how well this enzyme works. A simple blood test can tell you if you have variant copies of this gene. 51% of the population have a least one variant MTHFR gene.
IF YOU HAVE VARIANT COPIES OF THE MTHFR GENE, WHAT CAN YOU DO?
If the MTHFR enzyme is inefficient you can compensate for your body's inability to methylate efficiently since this biological process is dependent on several B vitamins. You may simply need more B vitamins than someone without a variant copy of this gene, such as vitamin B6, B12 (methylcobalamin) and the active form of folate (5-methyl tetrahydrofolate).
Are you methylating adequately? Are your genes preventing proper methylation? Inadequate methylation can be the cause of depression, migraines, heart attacks, strokes, infertility, miscarriages, birth defects, cancer and even autism. In people with diabetes, improper methylation can worsen symptoms of diabetic neuropathy or make treatment regimens less effective.
FIRST OF ALL: WHAT IS METHYLATION?
Simply put, methylation is a chemical reaction that occurs in every cell and tissue in our body. Chemically speaking, methylation is the process of adding methyl groups to a molecule. (A methyl group is a chemical structure made of one carbon and three hydrogen atoms [CH3]) Since methyl groups are chemical inert, adding them to a protein (the process of methylation) changes how that protein reacts to other substances in the body, thus affecting how that protein behaves. Enzymes, hormones and even genes are proteins and the process of methylation affects them all.
RESOURCES
MTHFR FERTILITY FILES
In some ways, methylation of proteins helps the body detoxify. For example, the methylation process helps convert the toxic amino acid (homocysteine) into a beneficial amino acid (methionine). If your body cannot methylate properly, toxins build up in your bloodstream and will eventually cause disease.
Another role of methylation is to help the enzymes in our bodies work efficiently. Enzymes are proteins that act like switches for chemical reactions-they initiate very important processes in every cell and tissue. In a similar way, methylation affects our genes, which are also made up of proteins. In fact, methylation can turn genes on or off, which can be good or bad for our health, depending on the gene.
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