Carbon tomato
Selected indexed studies
- Engineering source-sink relations by prime editing confers heat-stress resilience in tomato and rice. (Cell, 2025) [PMID:39674177]
- Functional carbon nanodots improve soil quality and tomato tolerance in saline-alkali soils. (Sci Total Environ, 2022) [PMID:35341861]
- Alleviation role of functional carbon nanodots for tomato growth and soil environment under drought stress. (J Hazard Mater, 2022) [PMID:34844369]
_Worker-drafted node — pending editorial review._
Connections
No connections recorded yet.
Sources
- Engineering source-sink relations by prime editing confers heat-stress resilience in tomato and rice. (2025) pubmed
- Functional carbon nanodots improve soil quality and tomato tolerance in saline-alkali soils. (2022) pubmed
- Alleviation role of functional carbon nanodots for tomato growth and soil environment under drought stress. (2022) pubmed
- Impact of Carbon Nanomaterials on the Antioxidant System of Tomato Seedlings. (2019) pubmed
- Elevated carbon assimilation and metabolic reprogramming in tomato high pigment mutants support the increased production of pigments. (2022) pubmed
- Nitrogen-Doped Carbon Dots Alleviate Pesticide Toxicity in Tomato by Regulating Antioxidant Systems. (2025) pubmed
- Carbon nanotubes affect early growth, flowering time and phytohormones in tomato. (2020) pubmed
- Multi-walled Carbon Nanotubes Remediate the Phytotoxicity of Quinclorac to Tomato. (2022) pubmed
- Functional carbon nanodots enhance tomato tolerance to zinc deficient soils: Mechanisms and structure-function relationships. (2024) pubmed
- The Responses of Sucrose Metabolism and Carbon Translocation in Tomato Seedlings under Different Light Spectra. (2023) pubmed