The Science of Sustainability

Try This at Home: The Chemistry of Fresh Cheese

  • share this article
  • Facebook
  • Email
queso fresco

Opening the refrigerator to find a gallon of spoiled milk is a rotten way to start the day. But for fresh cheese makers, every day begins with sour milk. Here’s why: 80% of the proteins in milk belong to a family called caseins. Adding acid to milk, like lemon juice or vinegar, makes these invisible proteins visible as a white, chunky solid we call the curds.

In a glass of milk, caseins aggregate into small spheres called micelles. The outside of each protein cluster is negatively charged, causing neighboring spheres to repel each other. Thus, these micelles remain evenly distributed throughout the milk.

Acidic vinegar neutralizes the negative charge on the spheres. With the repulsive force gone, the protein clusters clump together and form an observable solid, the curds. When chefs collect the curds and discard the liquid whey, they have queso fresco. Try it yourself with this recipe.

Stretching the hot curds instead of pressing them into a cake gives you homemade mozzarella cheese. I've tried to make mozzarella using this kit, but it only worked once. That's because the quality of the curds depends on the type of milk that you use.

caprese salad

Most milk from the grocery store has been ultra-pasteurized, meaning it's been heated to temperatures above 172° Fahrenheit. That extra heat disturbs the casein proteins. Curds from ultra-pasteurized milk don't stick together and stretch as nicely as they do when made from milk that has been pasteurized. I've had a hard time finding milk not labeled UP or UHP, so I haven't tried to make mozzarella at home again.

But now I'm hankering for a mozzarella, tomato and basil salad. Guess I'd better find some pasteurized milk before summer comes!

Related

Explore: , , , , ,

Category: Blog, Chemistry, Food

  • share this article
  • Facebook
  • Email
Melissae Fellet

About the Author ()

Melissae Fellet is a freelance science writer obsessed with electrons, atoms and molecules. Writing about chemistry, physics and technology, she hopes to reveal how the invisible building blocks of matter influence things like plastics, perfumed shampoos and the speedy computer chips we use everyday. She holds a BS in biochemistry and microbiology from the University of Florida and a PhD in chemistry from Washington University in St. Louis. She spends sunny days at her home in Santa Cruz either watching otters in the bay or tromping around the redwood forests.
  • http://twitter.com/GabrielRoybal Gabriel Roybal

    chemistry and cooking = awesome