Molecular Gastronomy: Exploring the Science of Flavor (54 page)
Read Molecular Gastronomy: Exploring the Science of Flavor Online
Authors: Hervé This
Tags: #Cooking, #General, #Methods, #Essays & Narratives, #Special Appliances, #Science, #Chemistry, #Physics, #Technology & Engineering, #Food Science, #Columbia University Press, #ISBN-13: 9780231133128
This, H. (1995a).
La gastronomie moléculaire et physique.
Ph.D. thesis, University of Paris–VI.
This, H. (1995b).
Révélations gastronomiques.
Paris: Belin.
This, H. (1997a). From chocolate béarnaise to “chocolate Chantilly.”
The Chemical Intel-
ligencer
3:52–57.
This, H. (1997b). Pommes soufflées.
La Bonne Cuisine
136:68–71.
This, H. (1998a).
La casserole des enfants
. Paris: Belin.
This, H. (1998b). A chocolate foam.
The Chemical Intelligencer
4:27–31.
This, H. (1999). Questions of temperature.
Int. J. Sci. Wine Vin.
7:98–102.
This, H. (2001a).
Comptes rendus des séminaires de gastronomie moléculaire,
no. 7. (www.
sfc.fr).
This, H. (2001b). La révolution de la gastronomie moléculaire.
Chocolat et Confiserie
381:43–46.
This, H. (2001c). Surfactants in the kitchen: recent advances in molecular gastronomy.
In
Actes des Journées Tunisiennes sur les Tensioactifs et Leurs Usages (
jttu
).
Tunis: La
Société de Promotion de la Chimie Industrielle et l’Institut National Agronomique de
Tunisie.
This, H. (2002a). Bassines en cuivre et confiture.
Sci. Ouest
191:7.
This, H. (2002b). Cuisine et émulsions.
Revue Générale des Routes (
rgra
)
809:59–65.
This, H. (2002c). Molecular gastronomy.
Angewandte Chemie
(International Edition in
English) 41:83–88.
This, H. (2002d).
Traité élémentaire de cuisine
. Paris: Belin.
This, H. (2003). La gastronomie moléculaire.
Sci. Aliments
23:187–198.
This, H. (2004a). Molecular gastronomy (I).
World Food Ingred
. 3:22–35.
This, H. (2004b) Molecular gastronomy (II): the paradox of culinary innovation.
World
Food Ingred
. 4:33–39.
Further Reading
| 359
This, H. and Bram, G. (1998). Liebig et la cuisson de la viande: une remise à jour d’idées
anciennes.
C. R. Acad. Sci, Paris, Série IIc
675–680.
This, H. and Kurti, N. (1994). Physics and chemistry in the kitchen.
Scientific American
270:44–50.
Tilley, K., et al. (2001). Tyrosine cross-links molecular basis of gluten structure and func-
tion.
J. Agric. Food Chem
. 49:2627–2632.
Tomas, A., Courthaudon, J. L., Paquet, D., and Lorient, D. (1994). Effect of surfactant on
some physico-chemical properties of dairy oil in water emulsions.
Food Hydrocoll
.
8:543–553.
Tomas, A. and Paquet, D. (1994). Effect of fat and protein contents on droplet size and
surface protein coverage in dairy emulsions.
J. Dairy Sci
. 77:413–417.
Touraille, C., et al. (1990). Maturation de la viande bovine: évaluation par des méthodes mé-
caniques sensorielles et par des consommations.
Viandes Prod. Carnés
. 11:291–292.
Vadehra, D. V. and Nath, K. R. (1973). Eggs as a source of protein.
CRC Crit. Rev. Food
Technol
. 4:193–309.
Valade, M., Tribaut-Sohier, I., and Panaiotis, F. (1994). Le mythe de la petite cuillère.
Le
Vigneron Champenois
12:28–34.
Vamos-Giggazo, L. (1981). Polyphenoloxidase and peroxidase in fruits and vegetables.
CRC
Crit. Rev. Food Sci. Nutr
. 15:49–127.
Van der Bilt, A., et al. (1987). A mathematical description of the comminution of food dur-
ing mastication.
Arch. Oral Biol
. 32:579–588.
Van der Glas, H. W. and Van der Bilt, A. (1997). Mathematical modelling of food comminu-
tion in human mastication.
Comm. Theor. Biol
. 4:237–259.
Varoquaux, P., Offant, P., and Varoquaux, F. (1995). Firmness, seed wholeness and water
uptake during the cooking of lentils (
Lens culinaris cv. anicia
) for “sous vide” and cater-
ing preparations.
Int. J. Food Sci. Technol.
30:215–220.
Viarouge, C., et al. (1991). Effects on metabolism and hormonal parameters of monoso-
dium glutamate (umami taste) ingestion in the rat.
Physiol. Behav
. 49:1013–1018.
Vignes-Adler, M. (1996). La mousse de champagne.
Bull. SFP
106:27–29.
Wal, J.-M., This, H., and Pascal, G. (2000). Aliments issus ou constitués d’ogm: évaluation
de leur innocuité.
Med. Leg. Hospital
.
3:111–115.
Walker, J. R. C. and Wilson, E. L. (1964). Studies on the enzymatic browning of apple: inhi-
bition of apple o-diphenol oxidase by phenolic acids.
J. Sci. Food Agric
. 15: 902–904.
Wenham, L. M. and Locker, R. H. (1976). The effect of marinating of beef.
J. Sci. Food Agric
.
27:1079–1084.
Wille, R. L. and Lutton, E. S. (1966). Polymorphism of cocoa butter.
J. Am. Chem Soc
.
43:491.
Wilson, L. G. and Fry, S. C. (1986). Extensin, a major cell wall glycoprotein.
Plant Cell En-
viron
. 9:239–260.
360 | f ur ther reading
Index
Abecassis, Joël, 177
aldehydes: in bread, 135, 136; molecular
Accum, Friedrich Christian, 5
transfer of, between water and oil, 141;
acetic acid, 153
in sausage, 153; in Strecker degrada-
acetone, 116
tions of amino acids, 156, 157
acidity: acidification and aging of meat,
algal fibers, 197–99
173–74; effect on proteins, 43; of wines
alkanes: in sausage, 153; in Spanish hams,
for fondue, 45–46
157
actin (myofibrillary protein), 42, 329
allergies to foods, 121–23
Adenier, Hervé, 225
Alsatian wine, 7, 233–35
adenosine 5-triphosphate (atp), 173
amino acids: cysteine, 58, 132, 171, 237;
adenosine monophosphate, 92
importance to flavor, 5, 170; Maillard
Adrià, Ferran, 149
reactions and Strecker degradations,
aioli, 297
156
albumen, 328
aminotransferase, 317
alcohol: in bread, 135, 136;
cartagènes
amylopectin, 146–47, 194, 195, 231
(
mistelles
) apéritifs, 269–71; consid-
amylose, 70, 146–47, 189–90, 194, 195,
erations of temperature, 10; cooking
231
egg whites, 328–29;
mistelles
, 269–70;
animals: diet of, affecting flavor of flesh,
molecular transfer between water and
155, 156, 166, 203–5; distinguishing
oil, 141; in sausage, 153; whiskey and
between bitter stimuli, 100, 101; frogs’
scotch whiskey, 266–68;
see also
cham-
exposure to capsaicin, 105; gene immu-
pagne; ethanol; wine; wine making;
nization for nonallergic reaction, 123;
wine tasting
primates’ recognition of sweetness,
| 361
animals (
continued
)
Balas, Laurence, 239–41
83–84; rats’ reaction to glutamate, 87,
barrels or vats for wine aging, 270, 271
99;
see also
plants
basting meat, 291
anthocyanins in wine, 54
Baumé, Antoine, 4
antibodies and cross-reactions, 120–21
Bavarian cream, 324
antioxidant agents: aromatic plants as,
Bayonove, Claude, 236, 331, 332
161–63; ascorbic acid (vitamin C), 56;
beans, softening, 59–61
phenols, 161–62; plant phenol acids,
béarnaise sauce: as emulsion, 17; improv-
162
ing with glucose, 283
Anton, Marc, 138
Becarri, Jacopo, 131
apple juice, darkening of, 56, 58
beef: allowing to rest after roasting, 47–49;
aromas: improving for hard sausage,
searing steak, 11, 48; tenderizing by
152–54; measurement of, 115–17; prom-
aging, 173–75; tenderizing by marinat-
ise of synthetic, 154;
see also
odorant
ing, 53–55
molecules; olfaction
beef extract, 25;
see also
stock
aromatic compounds: action of keto-
Beeton, Isabella, 41
glutarate, 317–18; hydrophobic and
Békésy, G. von, 107
hydrophillic, 293; in lactic bacteria,
Bentonite, 57
316–17; preparations by laboratory
benzoin, 163
chemists, 282;
see also
odorant mol-
Berdagué, Jean-Louis, 152, 335
ecules; olfaction
beta-casein, 122–23
art of cooking, 3
beverages.
See
champagne; coffee; milk;
artificial noses, 335
tea; wine
Asakura, S., 213
bicarbonate of soda, 46
ascorbic acid: addition to bread dough, 133;
Bihan, Denis Le, 89
as antioxidant agent, 161; in lemons, 56
bitterness: altered by salt, 94–96; animals’
Auclan, Marcelle, 215
aversion to, 85; discovery of several
Audot, L.-E., 65
types, 100–102
Autran, Jean-Claude, 177
Blake, Anthony, 44, 46
Axelos, Monique, 221, 223
Blanc, Raymond, 68
Axel, Richard, 91
blended whiskey, 266
Bocquet, Félix, 263
Babinski, Henri, 65
Boggio, Vincent, 119
bacteria:
Eubacterium limosum
, 237; in hard
boiling water: air bubbles in, 38; cooking
sausage, 153; lactic, 134, 316;
Lactobacil-
échaudés, gnocchi, or dumplings in,
lus bulgaricus
, 209;
Lactococcus lactis
,
35–37; egg white hardening in, 10;
317;
Listeria
, 124–26; strengthening
hard-boiling eggs in, 31; heating slowly
flavors of cheese, 316–17;
Streptococcus
for broth, 23–24; time required for,
thermophilus
, 209
with or without salt, 71–72
Baelle, Jean-Louis, 245
Bonnefons, Nicolas de, 35
362 | inde x
botrytis fungus (noble rot), 243
champagne, 263; for preserving mush-
Bouchilloux, Patricia, 248
rooms, 183–84
bouillon.
See
stock
carboxylic acid, 66
Boulet, Jean-Claude, 269, 270
Carême, Marie-Antoine (Antonin), 23, 296
Bourriot, Sophie, 212, 213
carotene, 204
brain, processing of information from
cartagènes
of Languedoc (
mistelles
apéritifs),
taste receptors, 88–90
269–71
braising, 168–69
casein proteins: as emulsifying agent, 195;
brandy, for braising meat, 168
in foams, 151; in milk, 44–45, 122–23,
brazzein, 84
195, 209, 214
bread: behavior of wheat flour, 131–33;
Castelain, Chantal, 140
flavor from fermentation of yeast, 134–
caudalie
, 237
36; freezing, 231–32; French bread’s
cauliflower, floating or sinking in boiling
flavor and crustiness, 134; for putting
water, 36
out fire of hot peppers, 104; retaining
Caulliez, Roland, 86
freshness, 230–32
Cerf, Barbara, 89
Brillat-Savarin, Jean-Anthelme, xi, 1–2,
champagne: chilling, 254–55; demi (small
7–10, 12–15, 23, 88
bottle) versus magnum, 263–65; foam
Briones, G. Lopez, 183
of, 257–59, 263; lipstick’s effect on
broth.
See
stock
fizz, 262, 272; preserving fizz, 74–75,
browning of meat, 47–48
260–62; source of fizz, 257–59;
see
brown pigment (fruits or vegetables turn-
also
wine
ing brown), 56–58, 191, 192
champagne flutes, 260–62
Brussels sprouts, 198
Chantilly cheese, 298–99, 329
bubbles.
See
foam of champagne; foams
Chantilly chocolate, 319–21
Buck, Linda, 91
charcoal, activated, as enzyme inhibitor, 57
Burkitt, Denis, 197
Charles, Marielle, 144
butter: absorption of odorant molecules,
Chaudhari, Nirupa, 98
292–93; making spreadable, 285–87
Chaveron, Henri, 225
Chavignol Chantilly, 298–99, 329
cadaveric rigidity, 173, 174
cheese “béarnaise”, 329
caffeine, bitterness lessened by salt, 95
cheese fondue, question of “doctoring,”
Caicedo, Alejandro, 100, 101, 102
44–46
calcium carbonate, 60
cheesemaking: action of rennet, 45, 317;
Camembert, 202
aging, 316; diet of cows affecting
capsaicin, 103–5
flavor, 203–5; from raw milk, 126, 200,
Capsicum family of hot peppers
204; research supporting commercial
caramel: structure of, 227–29; varying
protection, 200–202; strengthening
flavor of, 283
flavors with bacteria, 316–17
carbon dioxide: bubbles from yeast, 131; in
cheese mousse, 298
Index
| 363
cheeses: absorption of odorant molecules
collagen in meat: as baseline for measur-
by, 292; Camembert, 202; goat, 206–8;
ing toughness, 174; contraction of, 48,
Gruyère, 204; as milk “preserves”, 212;
49, 329; dissolving by immersion in
texture of, 201–2
acid solutions, 53; dityrosine bonds in,
cheese soufflés, 38
133–34; osmotic transfer, 73; as sheath
chelation (sequestration), calcium ions, 45
for muscle fiber, 50, 73
chemistry, as part of culinary art, 3, 4, 5, 8,
Collignan, Antoine, 307
