BioPure Galactose

One of 8 essential sugars, supports many cellular & biological processes


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BioPure Galactose (D+) is derived from proprietary organic 100% plant source and is refined to a very high standard for purity.

Galactose has been identified as one of 8 essential sugars needed in the diet for proper cell development and functioning of the human body.* It has shown to contribute directly to critical biological processes within the body.* It is a fundamental and structural substance for the matrix of cellular and intracellular functions.* BioPure Galactose comes in powder form; 200 grams per bottle.

Research & More Information

Galactose is a type of sugar, similar to fructose and glucose. It has been identified as one of 8 essential sugars needed in the diet for proper cell development and functioning of the human body.Chemically speaking, it is a simple carbohydrate called a monosaccharide with a very specific arrangement of its 6 carbons, 12 hydrogens, and 6 oxygens. Galactose occurs, only rarely, as a free molecule in nature, but is commonly found linked to other molecules, forming more complex compounds such as glycolipids (bound to a fat molecule), glycoproteins (bound to a protein molecule), and more complex carbohydrates. The correct functioning of certain cellular processes depends upon the presence of Galactose.*

The most common dietary sources of Galactose are dairy products and human breast milk, where it is bound to another very important monosaccharide, Glucose – the primary source of energy for all living things. Together, Glucose and Galactose form the disaccharide milk sugar known as Lactose. Lactose breaks down to its monosaccharide subunits when digested and cleaved by the enzyme Lactase. The two ingredients Glucose and Galactose are then freed and available for absorption into the bloodstream. Lactose intolerance is a common ailment that prevents many from being able to eat dairy products. (These people need to get Galactose from other sources such as the pectins of fruits and vegetables, legumes, tomatoes, persimmons, and pumpkins, or via dietary supplements such as BioPure Healing Products’ Galactose powder.)

Researchers have discovered that Galactose plays a pivotal role in cell membranes and the surrounding extracellular matrices as a sort of mediator or traffic cop.* It is intricately involved in facilitating communication between cells and in sorting and regulating the exchange and function of substances – such as hormones, enzymes, and growth factors – between cells and the surrounding matrix.These functions help the immune system to recognize “friend or foe” and fight off disease. A similar example of the powerful presence of Galactose is in the differentiation between blood types O and B. These two blood types are chemically identical except that B has a molecule of Galactose. This seemingly small difference could mean life or death for a person receiving a blood transfusion.

Galactose has been called the “Brain Sugar” because it appears to play an important part in brain development.Recent studies have shown that Galactose is capable of being delivered to cells through an insulin-independent pathway, and can then be converted to glucose and utilized.

Galactose occurs in two different structurally related forms; L(-) Galactose and D(+) Galactose. L(-) Galactose is not very common and occurs primarily within some plants and invertebrate animals. D(+) Galactose is prevalent throughout the animal and plant kingdoms, and is produced within the human body in a range of 2- to 10-grams per day. BioPure Healing Products offers 200 gram bottles of powdered D(+) Galactose derived from a proprietary organic 100% plant source and is refined to a very high standard for purity. Suggested dosage is one teaspoonful (5 grams) daily, or as directed by your practitioner.


Petrya KG, Reichardt JK. The fundamental importance of human galactose metabolism: lessons from genetics and biochemistry. Trends in GeneticsVolume 14, Issue 3, 1 March 1998:98-102.

Acosta PB, Gross KC. Hidden sources of galactose in the environment. Eur J Pediatr. 1995
154(7 Suppl 2):S87-92.

Gross KC, Acosta PB. Fruits and Vegetables are a Source of Galactose: Implications in Planning the Diets of Patients with Galactosaemia. J Inher Metab Dis. 14 (1991):253-258.

Cho CS, Seo SJ, Park IK, Kim SH, Kim TH, Hoshiba T, Harada I, Akaike T. Galactose-carrying polymers as extracellular matrices for liver tissue engineering. Biomaterials.2006 Volume: 27, Issue: 4, Pages: 576-85.

Schneider D, Jacob R. Galactose-binding proteins in epithelial cells selectively sort and regulate the exchange of substances with the outside world and can also help protect the body from potentially harmful substances.Exploring the Secrets of Cell Logistics: TIRF Microscopy Visualizes Intracellular Transport Paths. Micro Science Imaging. November 2007 No.6.

Scurei C, Calb MSimionescu N. Study of the endogenous lectins of the human platelet plasma membrane. Thromb Res. 1986 Jul 1;43(1):15-31.
Relationship of structural carbohydrates to blood group antigens.

Margolisa RK, Pretia C,  Laia D, Margolisa RU. Increase in levels of galactose in brain glycoproteins during postnatal brain development. Between 1-30 days 70-100% increase. Developmental changes in brain glycoproteins. Brain Research.Volume 112, Issue 2, 13 August 1976, Pages 363-369.

Koul O, Chou KH, and Jungalwala FB. UDP-galactose-ceramide galactosyltransferase in rat brain myelin subfractions during development. Biochem J.1980 March 15; 186(3): 959–969.

Roser M, Josic D, Kontou M, Mosetter K, Maurer P, Reutter W. Metabolism of galactose in the brain and liver of rats and its conversion into glutamate and other amino acids. J Neural Transm.Nov 2008.

De Smet E, Rioux JPAmmann HDéziel CQuérin S. FSGS permeability factor-associated nephrotic syndrome: remission after oral galactose therapy.Nephrol Dial Transplant. 2009 Sep; 24(9):2938-40. Epub 2009 Jun 9.

Kopač MMeglič ARus RR. Partial remission of resistant nephrotic syndrome after oral galactose therapy. Ther Apher Dial. 2011 Jun; 15(3):269-72.