韧皮部
肉体
木质部
染色体易位
酰肼
原生质体
园艺
化学
发芽
共济体
农学
生物
色谱法
植物
质外体
细胞壁
生物化学
有机化学
基因
作者
Shaorong Luan,Danni Cai,Dandan Zhang,Hou Chao-zhen,Meng Li,Jialin Xu,Dongmei Yan,Huaiji Zheng,Qingchun Huang
标识
DOI:10.1021/acs.jafc.3c04713
摘要
In this paper, a high-performance ion exclusion chromatographic (ICE) method was developed and applied for monitoring maleic hydrazide (MH) translocation in complex potato plant tissue and tuber matrices. After middle leaf uptake, most MH was trapped and dissipated in the middle leaf, and the rest was transported to other parts mainly through the phloem. Soil absorption significantly reduced the uptake efficiency of the root system, in which MH was partitioned to dissipate in root protoplasts or transfer through the xylem and persisted in the plant. Tuber uptake enabled MH to remain in the flesh and maintain stable levels under storage conditions, but during germination, MH was translocated from the flesh to the growing buds, where it dissipated through the short-day photoperiodic regime. The results demonstrated successful application of the ICE method and provided necessary insights for real-time monitoring of MH translocation behavior to effectively improve potato edible safety.
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