To make a gelatine dessert, gelatine is dissolved in hot liquid with the desired flavours and other additives. These latter ingredients usually include
sugar, fruit juice, or
sugar substitutes; they may be added and varied during preparation, or pre-mixed with the gelatine in a commercial product which mainly requires the addition of hot water. In addition to sweeteners, the prepared commercial blends generally contain
flavouring agents and other additives, such as
adipic acid,
fumaric acid,
sodium citrate, and artificial flavourings and
food colours. Because the
collagen is processed extensively, the final product is not categorised as a meat or
animal product by the
United States federal government. Prepared commercial blends may be sold as a powder or as a concentrated gelatinous block, divided into small squares. Either type is mixed with sufficient hot water to completely dissolve it, and then mixed with enough cold water to make the volume of liquid specified on the packet. The solubility of powdered gelatine can be enhanced by sprinkling it into the liquid several minutes before heating, "blooming" the individual granules. The fully dissolved mixture is then
refrigerated, slowly forming a
colloidal
gel as it cools. Gelatine desserts may be enhanced in many ways, such as using
decorative moulds, creating multicoloured layers by adding a new layer of slightly cooled liquid over the previously solidified one, or suspending non-soluble edible elements such as
marshmallows or
fruit. Some types of fresh fruit and their unprocessed juices are incompatible with gelatine desserts; see the
Chemistry section below. When fully chilled, the most common ratios of gelatine to liquid (as instructed on commercial packaging) usually result in a
custard-like texture which can retain detailed shapes when cold but melts back to a viscous liquid when warm. A recipe calling for the addition of additional gelatine to regular jelly gives a rubbery product that can be cut into shapes with cookie cutters and eaten with fingers (called "Knox Blox" by the Knox company, makers of unflavoured gelatine). Higher gelatine ratios can be used to increase the stability of the gel, culminating in
gummy candies which remain rubbery solids at room temperature (see
Bloom (test)). jelly cubes, now manufactured by
Hartley's The bloom strength of a gelatine mixture is the measure of how strong it is. It is defined by the force in grams required to press a diameter plunger into of a standard 6.67% w/v gelatine gel at . The bloom strength of a gel is useful to know when determining the possibility of substituting a gelatine of one bloom strength for a gelatine of another. One can use the following equation: C \times B^{\frac12} = k or C_1(B_1)^{\frac12} / (B_2)^{\frac12} = C_2 where C is the concentration, B is the bloom strength, k is a constant. For example, when making gummies, it is important to know that a 250 bloom gelatine has a much shorter (more thick) texture than a 180 bloom gelatine.
Gelatine shots prior to refrigeration A gelatine shot (usually called a
Jell-O shot in North America and
vodka jelly or
jelly shot in the UK and Australia) is a
shooter in which one or more
liquors, usually
vodka,
rum,
tequila, or
neutral grain spirit, replaces some of the water or fruit juice that is used to congeal the gel. The American satirist and mathematician
Tom Lehrer claims to have invented the gelatine shot in the 1950s while working for the
National Security Agency, where he developed
vodka gelatine as a way to circumvent a restriction of alcoholic beverages on base. An early published recipe for an alcoholic gelatine drink dates from 1862, found in ''How to Mix Drinks, or The Bon Vivant's Companion'' by
Jerry Thomas: his recipe for "Punch Jelly" calls for the addition of
isinglass or other gelatine to a punch made from cognac, rum, and lemon juice.
Gelatine art desserts Gelatine art desserts, also known as 3D gelatine desserts, are made by injecting colourful shapes into a flavoured gelatine base. Creations by Lourdes Reyes Rosas of Mexico City kicked off the growth in popularity of this 3D gelation art technique in the early 1990s, which spread to Western and Pacific countries. These desserts are made using high-quality gelatine that has a high bloom value and low odour and taste. The clear gelatine base is prepared using gelatine, water, sugar, citric acid and food flavouring. When the clear gelatine base sets, colourful shapes are injected using a syringe. The injected material usually consists of a sweetener (most commonly sugar), some type of edible liquid (milk, cream, water, etc.), food colouring and a thickening agent such as starch or additional gelatine. The shapes are drawn by making incisions in the clear gelatine base using sharp objects. Coloured liquid is then allowed to fill the crevice and make the cut shape visible. Most commonly, the shapes are drawn using sterile medical needles or specialised pre-cut gelatine art tools that allow the shape to be cut and filled with colour at the same time. Gelatine art tools are attached to a syringe and used to inject a predetermined shape into gelatine. When combined with other ingredients, such as
whipping cream or
mousse, gelatine art desserts can be assembled into visually impressive formations resembling a cake.
Gelatine substitutes jelly made from
agar , a dessert beverage from the
Philippines made with
pandan-flavoured cubes of
gulaman, a traditional gelatine-substitute made from
carrageenan Other culinary gelling agents can be used instead of animal-derived gelatine. These plant-derived substances are more similar to
pectin and other gelling plant
carbohydrates than to gelatine proteins; their physical properties are slightly different, creating different constraints for the preparation and storage conditions. These other gelling agents may also be preferred for certain traditional cuisines or dietary restrictions.
Agar, a product made from
red algae, is the traditional gelling agent in many Asian desserts. Agar is a popular gelatine substitute in quick jelly powder mix and prepared dessert gels that can be stored at room temperature. Compared to gelatine, agar preparations require a higher dissolving temperature, but the resulting gels congeal more quickly and remain solid at higher temperatures, , as opposed to for gelatine.
Vegans and
vegetarians can use agar to replace animal-derived gelatine. Another common seaweed-based gelatine substitute is
carrageenan, which has been used as a food additive since ancient times. It was first industrially-produced in the
Philippines, which pioneered the
cultivation of tropical
red seaweed species (primarily
Eucheuma and
Kappaphycus spp.) from where carrageenan is extracted. The Philippines produces 80% of the world's carrageenan supply. Carrageenan gelatine substitute are traditionally known as
gulaman in the Philippines. It is widely used in various traditional desserts and are sold as dried bars or in powder form. Unlike gelatine, gulaman sets at room temperature and is uniquely thermo-reversible. If melted at higher temperatures, it can revert to its original shape once cooled down.
Carrageenan jelly also sets more firmly than agar and lacks agar's occasionally unpleasant smell during cooking. The use of carrageenan as a gelatine substitute has spread to other parts of the world, particularly in cuisines with dietary restrictions against gelatine, like
kosher and
halal cooking. It has also been used in prepackaged
Jello shots to make them shelf stable at room temperatures.
Konjac is a gelling agent used in many Asian foods, including the popular
konnyaku fruit jelly candies. ==Chemistry==