Physiological and molecular adaptations of Citrus grandis roots to long-term copper excess revealed by physiology, metabolome and transcriptome
QQ Ren, ZR Huang, WL Huang, WT Huang… - Environmental and …, 2022 - Elsevier
Little information is available on the physiological and molecular adaptations of plant roots
to long-term copper (Cu) excess revealed by combined analysis of physiology, widely …
to long-term copper (Cu) excess revealed by combined analysis of physiology, widely …
Physiological and molecular adaptations of Citrus grandis roots to long-term copper excess revealed by physiology, metabolome and transcriptome
QQ Ren, ZR Huang, WL Huang… - Environmental and …, 2022 - ui.adsabs.harvard.edu
Little information is available on the physiological and molecular adaptations of plant roots
to long-term copper (Cu) excess revealed by combined analysis of physiology, widely …
to long-term copper (Cu) excess revealed by combined analysis of physiology, widely …
Physiological and molecular adaptations of Citrus grandis roots to long-term copper excess revealed by physiology, metabolome and transcriptome.
QQ Ren, ZR Huang, WL Huang, WT Huang, HH Chen… - 2022 - cabidigitallibrary.org
Little information is available on the physiological and molecular adaptations of plant roots
to long-term copper (Cu) excess revealed by combined analysis of physiology, widely …
to long-term copper (Cu) excess revealed by combined analysis of physiology, widely …