What is MSG and how is it made?

What is MSG?


A popular seasoning and flavor enhancer, MSG, or monosodium glutamate, is the purest form of umami, the fifth taste. MSG (monosodium glutamate) is widely used to intensify and enhance umami flavors in sauces, broths, soups and many more foods. It can also be used as a partial replacement for salt, containing just one-third the sodium, and is classed as safe by the United States Food and Drug Administration and the World Health Organization. Originally associated mainly with Asian cuisines, MSG (monosodium glutamate) is now used around the world to bring out the delicious flavor of foods.


Umami and MSG are two sides of the same coin: they both give us the same taste experience, both with glutamate. The glutamate in MSG is chemically indistinguishable from the glutamate present in animal and plant proteins, and our bodies metabolize both sources of glutamate in the same way. Think of salt and saltiness. Many foods taste salty, but a pinch of salt on your tongue gives you the purest taste of saltiness. When you eat MSG it triggers only one taste sensation–umami.


The Ajinomoto Group has produced the odorless white crystalline powder known as MSG for over a century, and today it is found in kitchen cupboards worldwide.


What is MSG made of?


How Is Msg Made


Today, the MSG (monosodium glutamate) produced by the Ajinomoto Group is produced through fermentation of plant-based ingredients such as sugar cane, sugar beets, cassava or corn. MSG is the sodium salt of glutamic acid, one of the most common naturally occurring amino acids. Glutamic acid is produced in abundance in our bodies and found in many foods we eat every day, including meat, fish, eggs and dairy products, as well as tomatoes, corn and nuts. When a protein containing glutamic acid is broken down, for example through fermentation, it becomes glutamate. Glutamate activates our taste receptors, eliciting the delicious savory taste known as umami.


How is MSG made?


One evening over dinner in 1908, one of the Ajinomoto Group’s founders, biochemist Dr. Kikunae Ikeda, asked his wife a question that would change the history of food: What gave her vegetable and tofu soup its delicious meaty flavor? Mrs. Ikeda pointed to the dried seaweed called kombu, or kelp, that she used to make her traditional Japanese dashi, or broth. Inspired by this revelation, Dr. Ikeda set to work. Evaporating and treating his wife’s kombu broth, he was able to extract a crystalline compound, which turned out to be glutamic acid. Tasting the crystals, he recognized a distinct savory flavor he dubbed umami, based on the Japanese word umai (delicious). Dr. Ikeda soon filed a patent to produce umami in an easy-to-use form: MSG (monosodium glutamate).


The following year, the Ajinomoto Group got its start as MSG was launched on the Japanese market. At first it was produced through the hydrolysis of gluten to extract wheat protein. Then in the 1930s there was a shift to extracting MSG from soy beans. In the 1960s production moved to the bacterial fermentation of sugar cane and similar crops in a process much like the way cheese, yogurt and wine are produced.


How does the fermentation process work?


MSG Fermentation By Corn And Cassava Starch


Msg Is Produced By Fermentation


Fermentation has been used by humans for centuries as a way to preserve foods and enhance their taste. MSG (monosodium glutamate) is made of naturally occurring substances through a modern version of that process, with the help of microbes that transform feedstocks like sugarcane into food products. First the sugarcane is extracted as glucose and sent to a fermentation tank, to which fermentative microbes are then added. These microbes consume the glucose, releasing glutamic acid, which though neutralization is turned into a solution that contains MSG. This solution is then decolorized and filtered, resulting in a pure MSG solution. This pure solution is crystallized using an evaporator and the crystals dried to produce the final product—MSG. The entire process has a very small environmental footprint, as its coproducts can be returned to the soil in the form of fertilizer to help grow more crops like sugarcane, forming a virtuous cycle.