Overexpression of NtLHT1 affects the development of leaf morphology and abiotic tolerance in tobacco

LYSINE HISTIDINE TRANSPORTER1 (LHT1) is a crucial broad-specificity and high-affinity amino acid transporter affecting the uptake of nitrogen and probably the tolerance to abiotic stress in plants. However, little is known about the phenotypic functions of LHT1 in plant growth and development and abiotic stress tolerance. In this study, we identified the NtLHT1 gene from the tobacco variety Honghuadajinyuan (HD) and determined its important roles in leaf morphological development and plant resistance to abiotic stress. Comprehensive func-tional analyses using knockout and overexpression transgenic lines (ntlht1 and OE) revealed overexpression of NtLHT1 accelerated leave senescence and increased plant height, leaf number and plant tolerance under cold, salt and drought stresses. In addition, NtLHT1 overexpression significantly decreased the leaf elongation of HD, causing the leaves to change from a long-elliptical shape to an elliptical shape. However silencing NtLHT1 decreased the seed germination rate under NaCl and PEG stresses. Moreover, NtLHT1 significantly affected the contents of various amino acids, such as the neutral, acidic, non-polar and aromatic amino acids, ethylene precursor (ACC), GA3 and IAA in tobacco. These results suggested that the amino acid and ethylene precursor ACC transport activities of NtLHT1 provide fine regulatory function for plant growth and development and plant tolerance to abiotic stress.