Institute of Crop Science, Nutritional Crop Physiology, University of Hohenheim, Stuttgart, Germany.
Department of Biological Sciences, California State University, Hayward, California, USA.
Physiol Plant. 2021 Nov;173(3):1207-1220. doi: 10.1111/ppl.13515. Epub 2021 Aug 16.
White lupin (Lupinus albus L.) forms brush-like root structures called cluster roots under phosphorus-deficient conditions. Clusters secrete citrate and other organic compounds to mobilize sparingly soluble soil phosphates. In the context of aluminum toxicity tolerance mechanisms in other species, citrate is released via a subgroup of MATE/DTX proteins (multidrug and toxic compound extrusion/detoxification). White lupin contains 56 MATE/DTX genes. Many of these are closely related to gene orthologs with known substrates in other species. LaMATE is a marker gene for functional, mature clusters and is, together with its close homolog LaMATE3, a candidate for the citrate release. Both were highest expressed in mature clusters and when expressed in oocytes, induced inward-rectifying currents that were likely carried by endogenous channels. No citrate efflux was associated with LaMATE and LaMATE3 expression in oocytes. Furthermore, citrate secretion was largely unaffected in P-deficient composite mutant plants with genome-edited or RNAi-silenced LaMATE in roots. Moderately lower concentrations of citrate and malate in the root tissue and consequently less organic acid anion secretion and lower malate in the xylem sap were identified. Interestingly, however, less genistein was consistently found in mutant exudates, opening the possibility that LaMATE is involved in isoflavonoid release.
在磷缺乏条件下,白 Lupinus albus L. 形成刷状根结构,称为簇根。簇分泌柠檬酸和其他有机化合物来动员土壤中难溶性磷酸盐。在其他物种铝毒耐受机制的背景下,柠檬酸通过 MATE/DTX 蛋白(多药和毒性化合物外排/解毒)的一个亚组释放。白 Lupinus 含有 56 个 MATE/DTX 基因。其中许多与其他物种中具有已知底物的基因直系同源物密切相关。LaMATE 是功能性成熟簇的标记基因,与其密切同源物 LaMATE3 一起,是柠檬酸释放的候选基因。两者在成熟簇中表达最高,当在卵母细胞中表达时,诱导的内向整流电流可能由内源性通道携带。在卵母细胞中表达 LaMATE 和 LaMATE3 与柠檬酸外排无关。此外,在根中具有基因组编辑或 RNAi 沉默 LaMATE 的 P 缺陷复合突变体植物中,柠檬酸分泌的大部分不受影响。根组织中柠檬酸和苹果酸的浓度略低,因此有机阴离子分泌减少,木质部汁液中的苹果酸减少。然而,有趣的是,在突变体分泌物中始终发现较少的染料木黄酮,这表明 LaMATE 可能参与异黄酮的释放。
