Physical-chemical composition In
wheat,
phenolic compounds are mainly found in
hulls in the form of insoluble bound
ferulic acid, where it is relevant to wheat resistance to fungal diseases.
Rye bread contains
phenolic acids and
ferulic acid dehydrodimers. Three
natural phenolic glucosides,
secoisolariciresinol diglucoside,
p-coumaric acid glucoside and ferulic acid glucoside, can be found in commercial breads containing
flaxseed. and
sunflower seeds
Glutenin and
gliadin are functional proteins found in wheat bread that contribute to the structure of bread. Glutenin forms interconnected gluten networks within bread through interchain
disulfide bonds. Gliadin binds weakly to the gluten network established by glutenin via intrachain disulfide bonds.
Acrylamide, like in other starchy foods that have been heated higher than 120 °C (248 °F), has been found in recent years to occur in bread. Acrylamide is
neurotoxic, has adverse effects on male reproduction and developmental toxicity and is
carcinogenic. A study has found that more than 99 percent of the acrylamide in bread is found in the crust. A study by the
University of Hohenheim found that industrially produced bread typically has a high proportion of
FODMAP carbohydrates due to a short rising time (often only one hour). The high proportion of FODMAP carbohydrates in such bread then causes
flatulence. This is particularly problematic in intestinal diseases such as
irritable bowel syndrome. While in traditional bread making the dough rises for several hours, industrial breads rise for a much shorter time, usually only one hour. However, a sufficiently long rising time is important to break down the indigestible FODMAP carbohydrates. Some flours (for example,
spelt,
emmer and
einkorn) contain fewer FODMAPs, but the difference between grain types is relatively small (between 1 and 2
percent by weight). Instead, 90% of the FODMAPs that cause discomfort can be broken down during a rising time of four hours. In the study, whole-grain yeast doughs were examined after different rising times; the highest level of FODMAPs was present after one hour in each case and decreased thereafter. The study thus shows that it is essentially the baking technique and not the type of grain that determines whether a bread is well tolerated or not. A better tolerance of bread made from original cereals can therefore not be explained by the original cereal itself, but rather by the fact that traditional, artisanal baking techniques are generally used when baking original cereals, which include a long dough process. The study also showed that a long rising time also breaks down undesirable
phytates more effectively, flavors develop better, and the finished bread contains more biologically accessible
trace elements.
Culinary uses .|240px Bread can be served at many
temperatures; once baked, it can subsequently be
toasted. It is most commonly eaten with the hands, either by itself or as a carrier for other foods. Bread can be spread with
butter, dipped into liquids such as
gravy,
olive oil, or
soup; it can be topped with various sweet and savory spreads, or used to make
sandwiches containing
meats, cheeses, vegetables, and
condiments. Bread is used as an ingredient in other culinary preparations, such as the use of
breadcrumbs to provide crunchy crusts or thicken sauces; toasted cubes of bread, called
croutons, are used as a salad topping; seasoned bread is used as
stuffing inside roasted turkey; sweet or savoury
bread puddings are made with bread and various liquids; egg and milk-soaked bread is fried as
French toast; and bread is used as a binding agent in
sausages,
meatballs and other ground meat products.
Nutritional significance Bread is a good source of
carbohydrates. Breads made from refined flour are often poor in dietary fiber and micronutrients, but are commonly
fortified. Whole grain bread is a good source of dietary fiber and micronutrients such as magnesium, iron, selenium, and B vitamins. All breads are a common source of protein in the diet, though not a rich one.
Crust and crumb The mass of bread consists of two primary components: the
crust and
crumb.
Bread crust is formed from surface dough during the cooking process. It is hardened and browned through the
Maillard reaction using the sugars and amino acids due to the intense heat at the bread surface. The crust of most breads is harder, and more complexly and intensely flavored, than the rest.
Old wives' tales suggest that eating the bread crust makes a person's hair curlier. Additionally, the crust is rumored to be healthier than the remainder of the bread. Some studies have shown that this is true as the crust has more
dietary fiber and
antioxidants such as pronyl-
lysine.
Bread crumb is the internal porous material consisting of bubbles with elastic walls. As the bread ages (becomes stale), the crumb becomes more firm. ==Preparation==