What Einstein Kept Under His Hat: Secrets of Science in the Kitchen (34 page)

BOOK: What Einstein Kept Under His Hat: Secrets of Science in the Kitchen
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Marinated Skirt Steak Fajitas

                        

S
kirt steak, which is the diaphragm that separates the chest and abdominal cavities of the animal, has a rich, beefy flavor. It used to be hard to find, but since fajitas have become popular, the cut is readily available at the supermarket. The thinness and loose grain of this rather tough cut make it a good choice for marinating.

In Mexican slang, a
fajita
is a small “belly band,” girdle, or cummerbund. Edible fajitas are so named because of how the meat and other ingredients are wrapped into a tortilla.

A pile of corn chips on the side and a bowl of warm black beans or cool black bean salad are good companions to this dish.

2    tablespoons olive oil

2    tablespoons freshly squeezed lime juice

2    cloves garlic, coarsely chopped

1    jalapeño pepper, seeds and ribs removed, coarsely chopped

2    small or 1 large skirt steak, about 2 pounds total

2    large, mild onions, sliced

12   flour or corn tortillas, 8 inches in diameter

      Coarse salt and freshly ground pepper

      Guacamole for serving

      Salsa for serving

1.
    In a mini–food processor or blender, combine the olive oil, lime juice, garlic, and jalapeño. Whirl until smooth and puréed. Place the steaks in a nonreactive dish or zipper-top plastic bag. Spread the mixture on both sides of the steak. Cover or seal closed and marinate in the refrigerator for at least 2 hours and up to 8 hours. Return to room temperature before cooking.

2.
    Preheat the grill or broiler. Preheat the oven to 300°F.

3.
    Broil or grill the onion slices and keep warm in the oven. Wrap the tortillas in a slightly dampened tea towel, put in a pie pan or on a cookie sheet, and place in the oven to warm and steam.

4.
    Grill or broil the steak, turning once, for about 5 minutes per side, or less, for medium-rare. Transfer it to a cutting board and allow the meat to rest for at least 5 minutes.

5.
    Holding the knife at an angle to the cutting board, cut the meat across the grain into thin slices. Season the slices with coarse salt and pepper. (Coarse salt adds a nice crunch to the meat.)

6.
    Guests can build fajitas to their own liking. Holding a tortilla in one hand, add strips of meat, a helping of grilled onions, and a few spoons each of guacamole and salsa. Then roll the tortilla around the filling for a handheld meal.

MAKES 4 SERVINGS

                        

PRAISING BRAISING

                        

I’m familiar with almost all cooking methods, including boiling, simmering, steaming, roasting, baking, sautéing, frying, and grilling. Some of these methods use wet heat and some use dry heat. But I’m confused about braising, which seems to involve both wet and dry. Exactly what is braising, and what does it do that other methods don’t do?

....

B
raising is a great vehicle for understanding both wet and dry cooking. Meat, poultry, shellfish, and vegetables are all grist for the braising mill, but I’ll limit this discussion to meats.

I like to define braising as a two-step process: browning the meat to enhance its flavor, then simmering it for tenderness. The result can be a tender, juicy, and flavorful pot roast or fricassee. Without the initial browning, a unique set of flavors can be lost. Nevertheless, many food writers define braising as the moist-cooking step alone, including Crock-Pot and slow-cooker cooking. In these cases the meat is not initially browned because the equipment isn’t designed to produce the necessary high, searing temperature. You could sear the meat in a skillet, which you then deglaze with some of the liquid to be added to the slow cooker. But that obviates one of the slow-cooker’s advantages: no pan to clean.

Call it what you like. Include the browning step in the definition or not; many braising recipes skip it, with excellent results.

The noun
braise
in French means “glowing coals or embers,” which were used traditionally for cooking over a brazier (and please make sure you pronounce that word with the accent on the first syllable) or for surrounding a heavy covered pot for the long, slow cooking of meats and vegetables, resulting in a carbonnade,
daube
, or stew. Today, we braise to conquer tough cuts of meat such as brisket, chuck, flank, round, and rump that would otherwise remain stubbornly tough and relatively un-infused with flavor.

Let’s look at the browning step first.

The traditional Irish and Appalachian folk song has it that “black is the color of my true love’s hair.” But brown is the color of many of our true loved foods. We like our meats to be browned on their surfaces and our breads to display tan or lightly browned (often romanticized as “golden”) crusts. Toast tastes better than untoasted bread; grilled steaks taste better than boiled beef. Heat-induced browning has long been used to add flavor to our foods. In the braising process, if we were to skip the initial browning step and merely simmer our meat and vegetables, we would lose much of the flavor of the final dish.

In Braising Stage One, we brown the meat by searing it on all sides in a small amount of hot oil in a heavy pot such as a Dutch oven, which we will later cover. During the searing, an intricate series of chemical reactions takes place, giving rise to the brown products. The reactions are called Maillard reactions, after Louis Camille Maillard (1878–1936), the French (obviously) chemist who characterized the initial step as being the reaction of a so-called reducing sugar, such as fructose, lactose, maltose, and glucose, with a protein.

Specifically, the initial Maillard reaction takes place between a certain part of the sugar molecule (its
carbonyl group
) and a certain part of the protein molecule (an
amino group
in one of its amino acids). After that first step, the Maillard process continues through a complex series of both consecutive and simultaneous chemical reactions, resulting in a hodgepodge of final compounds, many of which are dark-colored polymers and most of which are aromatic and flavorful. But some of them are bitter or, unfortunately, mutagenic—they increase the risk of inheritable genetic damage.

This is where our explanation of the Maillard reactions must come to a halt, as it does in other books not intended for professional food chemists. That’s because the reactions are so complicated that chemists are still trying to isolate and identify the scores of transitional and final compounds involved. More than two hundred different chemical compounds have been isolated thus far in the products of Maillard reactions.

It would serve little purpose for me to escort you partway into the thicket of glycosylamines, deoxyosones, and Amadori rearrangements, and then leave you stranded in a sort of no-man’s-land where the trail peters out. Most chemists (and I’ll join them) simply cop out by referring to all the ultimately dark brown, nitrogen-containing compounds as
melanoidins
, from the Greek
melas
, meaning black or very dark.

Now, on to Braising Stage Two, wherein we add a small amount of liquid—such as stock, wine, cider, or beer—to the nicely browned meat and, if we’re using them, the separately browned vegetables. Here’s where braising departs from stewing; braising uses a small amount of liquid, whereas in stewing, the meat and vegetables are completely covered with liquid. As the meat simmers in the braising liquid, the water evaporates, condenses on the inside of the pot’s cover, and drips back down, continuously basting the meat at a slightly-below-boiling temperature. This combination of heat and moisture converts one of the meat’s major proteins, collagen, into a different form called gelatin.

Collagen makes up some 20 to 25 percent of all the protein in the mammalian body. It resides mainly in the connective tissue: the sheaths that surround the muscle fibers and the tough tendons and ligaments that tie the skeletal muscles to the bones. As its places of residence suggest, collagen is what makes meats tough. But when heated for a long time in a moist environment—just what we’re doing in braising—collagen molecules undergo a change. Their triple-helical structure, looking like three braided strands of spaghetti, unwinds and breaks up into a number of small, random coils, like a bunch of tiny springs. These coils are molecules of gelatin. A much softer protein than collagen, gelatin has a prodigious ability to trap among its coils many times its own weight of water.

Evidence? The instructions on a box of regular Jell-O tell you to add two cups (237 grams) of water to only 8 grams of gelatin in the package (the rest is sugar). And yet all that water—thirty times the weight of the gelatin—is completely absorbed to form a semisolid gel when chilled.

Braising, then, captures the best of two worlds, turning out luscious Maillard-browned and -flavored, gelatin-tenderized dishes that can’t be obtained in any other way.

The triple-helix structure of a collagen molecule. In the presence of heat and moisture, the strands unwind and break apart into coiled fragments, which are molecules of gelatin.

Sidebar Science:
Robert’s rules of browning

MUCH
CONFUSION
exists between Maillard browning and sugar browning or caramelization. Both a sugar molecule’s carbonyl group and a protein molecule’s amino group must be present if Maillard browning, also known as sugar-amine browning, is to take place. Heat accelerates the Maillard browning reactions, but they can take place at temperatures as low as 122ºF (50ºC). The reactions can even proceed slowly at room temperature, such as when foods turn brown from age.

In contradistinction, the browning of pure sugar or other carbohydrates at temperatures higher than about 250°F (120°C)—in the
absence
of an amino acid or other nitrogen-containing compound—takes place by a completely different set of complex chemical reactions, called
caramelization
. Many chefs seem to love the world
caramelize
, and use it indiscriminately to describe any food that turns brown upon being cooked. But meat, poultry, fish, vegetables, and other protein-containing foods do not caramelize. They simply
brown
. Not as fancy a word, perhaps, but accurate.

A third kind of food browning,
enzymatic browning
, is caused by enzymes in the food. The surface of a cut apple or pear turns brown because of the release of enzymes from the fruit’s ruptured cells.

THE FOODIE’S FICTIONARY:
Collagen—a brand of canned chicken broth

                        

Osso Buco

                        

T
his is one of the best (and most delicious) illustrations of how collagen in the tough connective tissues in meat surrounding a bone turns into soft, smooth gelatin under the influence of moist heat.

Use your heaviest Dutch oven, preferably of enameled cast iron, to make this dish. When shopping, make sure that the bone of each piece of veal has a soft center full of marrow. Some bones do not. Give each diner a small, narrow knife (a lobster pick works in a pinch) to use for removing the creamy marrow. When spread on toast and sprinkled with salt and pepper, marrow is a treat. Serve the shanks with Baked Polenta (p. 228) and pass crusty peasant bread.

4 to 6  meaty, bone-in veal shanks, each 8 to 12 ounces and about 2 inches thick

        About
1
/
2
cup all-purpose flour

        About 4 tablespoons olive oil

        Salt and freshly ground pepper

1       anchovy fillet

4       cloves garlic, sliced

2       small carrots, peeled and sliced

1       onion, sliced

1       celery stalk, diced

1
/
2
    cup dry white wine

1
/
2
    cup tomato purée

GREMOLATA:

2        tablespoons chopped fresh parsley

1        clove garlic, finely minced

1        tablespoon grated lemon zest

          Salt and freshly ground pepper

1.
    Preheat the oven to 325°F.

2.
    Coat the veal shanks with flour on both sides, shaking off any excess. Place a large, heavy Dutch oven over medium heat for 1 minute. Add 2 tablespoons of the olive oil and 2 veal shanks and brown for 4 to 5 minutes on each side, seasoning them with salt and pepper as they brown. Do not crowd the pan. Remove them to a plate, add the remaining 2 veal shanks to the pot, and repeat. The browning for all 4 shanks will take a total of 15 to 20 minutes.

3.
    Add the remaining 2 tablespoons oil and the anchovy filet to the pot, mashing the anchovy into the oil. Add the garlic, carrots, onion, and celery, reduce the heat to medium-low, and cook the vegetables, stirring occasionally, for about 10 minutes, or until soft.

4.
    Add the veal shanks in a single layer, nestling them into the vegetables. Combine the wine and tomato purée in a small bowl, then pour the mixture over the meat and vegetables.

5.
    Cover the Dutch oven with a tight-fitting lid and place in the oven. Cook for 1
1
/
2
to 2 hours, or until the meat is tender and falling off the bone and the juices are reduced. If the mixture starts to dry out during cooking, add a small amount of wine or water.

6.
    Make the
gremolata
: Just before serving, combine the parsley, garlic, and lemon zest in a small bowl.

7.
    When ready to serve, remove the meat to a warmed deep platter and cover to keep warm. Some cooks like to strain the sauce, but others prefer to keep the vegetables as they are, so strain it if you like. Stir the
gremolata
into the sauce and correct the seasoning with salt and pepper. Place the pot over medium heat and simmer for 2 minutes.

8.
    Pour the sauce over the meat. Serve right away.

MAKES 4 GENEROUS SERVINGS

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