Simultaneous elevation of acid-insoluble lignin and syringyl lignin is the preliminary Cd detoxification strategy in a Cd pollution-safe cultivar (Cd-PSC) of Brassica parachinensis L.

Cadmium (Cd) immobilization in the cell wall is responsible for Cd detoxification in Cd-accumulating cultivars. Lignin is the dominant constituent of the secondary cell wall (SCW), but its role in Cd compartmentalization is poorly understood. The mechanism of Cd compartmentalization by lignin was thus investigated herein. Lignin content and composition, as well as related genes and proteins, were analyzed in the Cd pollution-safe cultivar Brassica parachinensis L. ‘SJ19’. The lignin microstructural regions and Cd affinities were characterized by 2D-heteronuclear single quantum coherence nuclear magnetic resonance (HSQC NMR) and density functional theory (DFT). Lignin combined with 14.2% of the total Cd in SJ19, with a higher Cd distribution in acid-insoluble lignin (AIL). Additionally, the proportion of AIL increased under Cd treatment. The increase in the proportion of the lignin aromatic region syringyl (S) and decrease in the guaiacyl (G) proportion were in accordance with the significant up-regulation of peroxidase P7 and down-regulation of caffeoyl-CoA O-methyltransferase At1g67980 under Cd stress. Moreover, the Cd affinity associating with the lignin aromatic region ranked as S > G> H (p-hydroxyphenyl). Therefore, rather than lignin biosynthesis, the simultaneous elevation of AIL and S lignin was recognized as the preliminary strategy for lignin compartmentalization of Cd in SCW for the first time herein. This is beneficial for Cd detoxification in the Cd pollution-safe cultivar of B. parachinensis.