Potato starch is starch extracted from potatoes. The cells of the root tubers of the potato plant contain leucoplasts (starch grains). To extract the starch, the potatoes are crushed, and the starch grains are released from the destroyed cells. The starch is then washed out and dried to powder.
Potato starch contains typical large oval spherical granules ranging in size from 5 to 100 μm. Potato starch is a refined starch, containing minimal protein or fat. This gives the powder a clear white colour, and the cooked starch typical characteristics of neutral taste, good clarity, high binding strength, long texture, and minimal tendency to foaming or yellowing of the solution.
Potato starch contains approximately 800 ppm phosphate bound to the starch; this increases the viscosity and gives the solution a slightly anionic character, a low gelatinisation temperature of approximately 60 °C (140 °F), and high swelling power.
These properties are used in food and technical applications.
Starch derivatives are used in many recipes, for example in noodles, wine gums, cocktail nuts, potato chips, hot dog sausages, bakery cream and instant soups and sauces, in gluten-free recipes, in kosher foods for Passover and in Asian cuisine. In pastry, e.g. sponge cake, it is used to keep the cake moist and give a soft texture. It is also occasionally used in the preparation of pre-packed grated cheese, to reduce sweating and binding.
Other examples are helmipuuro, a porridge made from monodisperse grains of potato starch and milk, and papeda (the Moluccan community in the Netherlands uses potato starch to make papeda). It is also used in non-food applications as wallpaper adhesive, for textile finishing and textile sizing, in paper coating and sizing, and as an adhesive in paper sacks and gummed tape.
Many types of potatoes are grown for the production of potato starch, potato varieties with high starch content and high starch yields are selected. Recently, a new type of potato plant was developed that only contains one type of starch molecule: amylopectin, the waxy potato starch. Waxy starches, after starch gelatinisation, retrograde less during storage.
The cultivation of potatoes for starch mainly takes place in Germany, the Netherlands, China, Japan, France, Denmark, and Poland, but also in Sweden, Finland, Austria, the Czech Republic, Ukraine, Canada, and India.
Examined under a microscope using a mixture of equal volumes of glycerol and distilled water, potato starch presents transparent, colorless granules, either irregularly shaped, ovoid or pear-shaped, usually 30 μm to 100��μm in size but occasionally exceeding 100 μm, or rounded, 10 μm to 35 μm in size. Starch granules exhibit characteristic dark crosses in polarized light. If potato starch is wetted it becomes sticky.
- Shiotsubo, Toshiko (1983). "Starch Gelatinization at Different Temperatures as Measured by Enzymic Digestion Method". Agric. Biol. Chem. 47 (11): 2421–25.
- BeMiller, James N.; Whistler, Roy Lester (2009). "Potato Starch: Production, Modifications and Uses". Starch: Chemistry and Technology (3rd ed.). Academic Press. pp. 511–39. ISBN 978-0-12-746275-2.
- Fenster, Carol (2006). 1000 Gluten-free Recipes. John Wiley and Sons. ISBN 978-0-470-06780-2.
- Blech, Zushe Yosef (2004). "Kosher for Passover". Kosher Food Production. Blackwell Publishing. pp. 97–114. ISBN 978-0-8138-2570-0.
- Shimbo, Hiroko (2000). The Japanese kitchen: 250 recipes in a traditional spirit. The Harvard Common Press. ISBN 1-55832-176-4.
- In Japan, potato starch is called katakuriko (from katakuri "Erythronium japonicum", and ko "powder"), which refers to the starch from the Erythronium japonicum bulb. Because of its small quantity and high price, starch from E. japonicum is no longer common; potato starch has almost taken its place nowadays and only the name remains.