Effects of 18 amino acids on plants
Arginine: it can strengthen root development, is the precursor of polyamine synthesis, and improve the salt stress resistance of crops;
Aspartic acid: improve seed germination and protein synthesis, and provide nitrogen for growth in adversity;
Cysteine: a sulfur-containing amino acid that maintains cell function and acts as an antioxidant;
Glutamate: stimulate plant growth and improve resistance to adverse climatic conditions;
Glycine: It plays a unique role in crop photosynthesis, which is beneficial to crop growth and increases the sugar content of crops. It is a natural metal chelating agent.
Histidine: a catalytic enzyme that regulates stomatal opening and provides precursors for the synthesis of carbon skeleton hormones and cytokinins;
Isoleucine and leucine: precursors to improve salt stress resistance, pollen vitality and germination, and fragrance;
Lysine: enhance chlorophyll synthesis and increase drought tolerance;
Methionine: The Precursor of Plant Endogenous Hormone Ethylene and Polyamine Synthesis;
Phenylalanine: a precursor for promoting lignin synthesis and anthocyanin synthesis;
Proline: increase the tolerance of plants to osmotic stress, improve the stress resistance and pollen vitality of plants;
Serine: participates in cell differentiation and promotes germination;
Threonine: improve tolerance and insect resistance, improve humification process;
Tryptophan: the precursor of endogenous hormone indoleacetic acid synthesis, which improves the synthesis of aromatic compounds;
Tyrosine: increase drought tolerance and improve pollen germination;
Valine: Improve seed germination rate and crop flavor.