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WELLNESSWEEK
Milk has been part of human nourishment for thousands of years, long before pasteurization, industrial farming, or genetic selection changed the nature of the dairy we drink today. In Scripture, milk is woven into the language of blessing, promise, and divine provision—“a land flowing with milk and honey”—a phrase that conveyed abundance so vividly that it became synonymous with God’s generosity toward His people.
Yet when most people drink milk today, they’re not consuming anything like the milk of ancient times. The difference is not merely in farming practices or processing methods, but in the very proteins within the milk itself. The ancient herds of Israel—and indeed most of the world for most of history—produced a form of milk now called A2 milk, a distinctly different substance from the A1 milk found in many modern commercial dairies.
To understand why this shift matters, we have to explore one specific milk protein—casein—and the naturally occurring compounds formed when we digest it. These compounds, called casomorphins, may explain much of the discomfort, inflammation, and even behavioral changes people experience when consuming modern dairy. At the same time, they help us understand why raw, A2-rich milk from heritage breeds remains one of the most nourishing foods God designed for human consumption.
Casein: A Protein With a Story That Begins in Creation
Casein is one of the primary proteins in milk, and it plays a critical role in infant development. When digested, casein breaks into smaller peptide chains. These peptides vary based on the type of casein present in the milk, which, in turn, depends on the breed of the animal producing it.
In the ancient world, cattle—along with goats and sheep—were not selectively bred for high-volume industrial production as they are today. Their milk naturally contained A2 beta-casein, a form of casein that breaks down smoothly in the human digestive system. The body can absorb its amino acids without releasing compounds that irritate the gut or trigger immune-like responses.
Modern Holstein dairy cows, however, carry a genetic mutation that changes one amino acid in the beta-casein chain. That small difference is enough to alter the way the protein breaks apart during digestion. Instead of breaking down cleanly, A1 beta-casein fractures into a peptide known as β-casomorphin-7, often abbreviated BCM-7.
This peptide behaves very differently inside the human body.
Raw A2 vs Pasteurized A1 — Biggest Differences Summarized
Here’s the cleanest “at a glance” comparison:
| Factor | Raw A2 Milk | Pasteurized A1 Milk |
|---|---|---|
| Casein type | A2 (no BCM-7) | A1 (produces BCM-7 opioid) |
| Digestibility | Excellent | Often poor |
| Lactose intolerance | Often reversed | Often worsened |
| Immune effects | Strengthens | Irritates |
| Gut health | Supports microbiome | Disruptive |
| Neurological | Clear | Foggy, addictive effects |
| Inflammation | Low | Higher |
| Mucus | Low | High |
| Histamine | Low | High |
| Allergy rate | Low | Highest among dairy types |
| Natural enzymes | Intact | Destroyed |
| Beneficial bacteria | Intact | Destroyed |
Non-raw A1 milk is the hardest dairy for the human body to digest and the most inflammatory form. Raw A2 is the cleanest, most digestible, most biologically aligned dairy for human consumption.
Casomorphins: Understanding the Body’s Opioid Receptors in Plain Language
BCM-7 belongs to a family of peptides called exorphins. These are opioid-like molecules that come from outside the body. To understand their significance, it helps to briefly consider what opioid receptors actually do.
Opioid receptors are not a flaw or a vulnerability built into the human body; they are part of God’s design. These receptors help regulate:
- pain perception
- digestion and bowel motility
- emotional calm
- bonding and attachment
- reward and motivation
When we feel comforted by a warm embrace or emotionally grounded during a moment of prayerful stillness, our endogenous opioids—endorphins and enkephalins—are part of that experience. These natural compounds bind to the body’s opioid receptors and create a sense of peace, restoration, or relief.
The reason this matters for dairy is that BCM-7 can bind to those same receptors, though far more weakly than pharmaceutical opioids. Still, its influence can be felt in digestion, inflammation, behavior, and cravings.
In essence, when someone drinks milk containing A1 beta-casein, the body may absorb BCM-7, and this compound can have subtle but meaningful biological effects: slowing the digestive tract, stimulating mucus production, and activating gut-to-brain pathways. Some people feel foggy, others congested, others oddly soothed—and many feel a strong “pull” toward cheese or milk-based comfort foods. This is not mere psychology; it reflects real biochemical interaction.
By contrast, A2 casein does not produce BCM-7. This means the digestive experience is fundamentally different, which is why many individuals who cannot tolerate modern A1 milk can drink raw A2 milk without symptoms.
| Protein Type | Found In | Produces BCM-7? | Digestive Impact |
| A1 casein | Holstein, many modern dairy cows | ✔ Yes | Harder to digest, more inflammatory |
| A2 casein | Jersey, Guernsey, Brown Swiss, goats, sheep | ✘ No | Easier digestion, less inflammation |
This explains why so many people who cannot tolerate modern milk can drink raw A2 milk with zero symptoms.
Closest Modern Equivalent to Biblical Cattle
A2-Dominant Heritage Breeds
These breeds often test 80–100% A2:
- Jersey
- Guernsey (≈95% A2)
- Brown Swiss
- Dexter
- Ayrshire (varies)
- Milking Shorthorn (varies)
Naturally 100% A2 Species
- Goats
- Sheep (East Friesian, Lacaune, Awassi, etc.)
- Yaks
- Water Buffalo
These animals produce milk that is far more compatible with human digestion and far closer to the milk consumed by ancient Israel.
Why Milk in Scripture Reflects A2, Not A1
When the Bible speaks of milk, it is describing milk that came from animals with A2 genetics, because the A1 mutation had not yet spread through cattle populations. Ancient Israelites drank milk that was:
- raw
- rich in natural enzymes
- filled with probiotics
- unpasteurized and unhomogenized
- free from BCM-7
- produced by animals whose diets reflected the land and seasons
In other words, the milk of the Bible was A2 raw milk—alive, nutrient dense, easily digested, and structurally aligned with the human body.
Furthermore, the most common dairy animals in biblical times were goats and sheep, both of which naturally produce 100% A2 milk. Even ancient cattle resembled today's heritage breeds such as Jersey, Guernsey, Brown Swiss, or Dexter—not modern high-yield Holsteins.
This means that when Scripture praises milk, it is referencing a very different food from the mass-produced, pasteurized A1 dairy found in most grocery stores today.
Why Raw A2 Milk Behaves So Differently in the Human Body
Raw milk is a living food. It contains enzymes like lactase (helping digest lactose), lipase (assisting fat digestion), and natural antimicrobial compounds like lactoferrin and immunoglobulins. These are destroyed during pasteurization, leaving the body to digest milk without the support nature originally built into it.
When you combine pasteurization with A1 casein, you remove the digestive tools while adding a peptide (BCM-7) that slows the gut and increases inflammatory responses. This explains why many people who struggle with dairy find relief when switching to raw A2 milk.
It also explains why children with sinus congestion, eczema, behavioral irritability, or digestive discomfort often improve when A1 dairy is removed.
In contrast, raw A2 milk aligns with the human digestive system. It provides proteins in their natural form, fats in their whole structure, and beneficial microbes that support the gut—our largest immune organ.
In a sense, raw A2 milk is closer to “creation-original dairy,” while pasteurized A1 milk is a modern invention with different biological consequences.
Choosing Dairy Animals for the Homestead: Returning to Ancestral Patterns
For homesteaders and families seeking to return to biblical rhythms of nourishment, A2 dairy offers a clear path. Sheep and goats are the simplest option, as they naturally produce only A2 casein. Their milk is remarkably digestible and especially rich in minerals and healthy fats.
Heritage cattle breeds—Jersey, Guernsey, Brown Swiss, Dexter—also tend strongly toward the A2 gene and can be tested easily with a simple hair follicle sample.
Choosing raw, grass-fed A2 dairy is not just a nutritional upgrade; it is a way of aligning your household with a longstanding pattern of creation, returning to the milk God designed and the form of dairy used by generations before industrialization.
As families make this transition, they often report clearer sinuses, calmer digestion, improved skin, steady energy, and even emotional stability—changes that reflect the removal of BCM-7 and the restoration of whole, living dairy.
References and Suggested Reading
These scientific studies and texts support the concepts discussed above:
- Jinsmaa, Y., & Yoshikawa, M. (1999). “β-Casomorphins and related opioids derived from food proteins.” Peptides.
- Kaminski, S., Cieślińska, A., & Kostyra, E. (2007). “A1 and A2 milk—genetic polymorphism of β-casein.” Journal of Applied Genetics.
- Woodford, K. (2011). Devil in the Milk: Illness, Health, and the Politics of A1 and A2 Milk.
- Ul Haq, M. R., Kapila, R., & Kapila, S. (2014). “Impact of β-casein variants on health.” International Journal of Food Sciences & Nutrition.
- Austin, M. A., Surber, J., & Sartor, M. (2017). “Consumption of A2 milk reduces gastrointestinal symptoms.” European Journal of Clinical Nutrition.
- “A1 and A2 milk—genetic polymorphism of β-casein.”
Kaminski et al. (2007), Journal of Applied Genetics.
Full text: https://link.springer.com/article/10.1007/BF03194597
Explains the amino acid mutation creating BCM-7.
