Ginger milk curd


Ginger milk curd, also known as ginger-juice milk curd, ginger milk pudding or simply ginger milk, is a Chinese hot dessert originated in Shunde District, Guangzhou in the Guangdong Province in southern China. The main ingredients are ginger, milk, and sugar. Water buffalo milk is used in the original recipe.

Method of preparation

First, cut a piece of old ginger into small pieces and grind the ginger to fine. Then, squeeze the juice out by pressing the ginger through a sieve. Put the juice into a bowl. Next, bring the milk to a boil and dissolve sugar in milk. Take off heat and allow it to cool a little. If you have a kitchen thermometer, place your kitchen thermometer into the milk. The optimum curdling temperature is. In the meantime, stir the ginger juice thoroughly. When milk temperature decreases to around 75-70 °C, pour the milk quickly into the middle of the ginger juice. Wait for two to three minutes. The milk will then be curdled, and may be eaten with a spoon.

Underlying biochemical principle

The most important part of the ginger in ginger milk curd is the ginger protease zingipain. This substance with molecular weight of 31 kDa is found with three forms of isoelectric point values around 5.58, 5.40, and 5.22, respectively. The three forms have very similar biochemical behavior, where the optimal proteolytic activity is from 40–60°C and maximum clotting activity at 70°C.
Milk is a substance consisting mainly of milk fat globules and casein micelles in a continuous phase of water, sugar, whey protein and minerals. Casein micelle consist of mainly α-casein, α-casein, β-casein, and κ-casein. Where hydrophobic α and β-casein are in the inner sub-micelle and hydrophilic κ-casein in the outer part.
When the milk starts curdling, the curds are small, but as coagulation increases, curd size increases until the milk ends up with a tofu-like structure. When the curdling occurs, the ginger protease cuts open the κ-casein so that the hydrophilic C-terminus and the hydrophobic N-terminus separate. This disrupts the stability of the casein micelle. In the hydrophobic effect, the hydrophobic casein coagulates.