A research dataset from Qilu University of Technology investigating the role of E-2-hexenal in chloroplast inner membrane structure transformation during tomato colour change. The dataset likely contains measurements of chlorophyll, lycopene, β-carotene, titratable acids, ascorbic acids, soluble solids, and malondialdehyde contents to support the proposed biochemical mechanism. It was authored by Xince Wang and is available via Open Access.
Use Cases
- Modeling the biochemical pathway of chloroplast to chromoplast transformation based on carotenoid and E-2-hexenal measurements.
- Analyzing the relationship between gene expression (LOXC, HPL) and metabolite levels (linolenic acids) mentioned in the description.
- Correlating fruit quality metrics (titratable acids, ascorbic acids, soluble solids) with structural changes in plastids.
- Investigating the interaction between ethylene and E-2-hexenal signaling pathways in inhibiting colour transformation.
Strengths
- The description references specific biochemical measurements, including chlorophyll, lycopene, β-carotene, titratable acids, ascorbic acids, soluble solids, and malondialdehyde contents.
- The dataset is derived from experimental treatments with E-2-hexenal and ethylene, suggesting a controlled study design.
- It is published under an Open Access (green) license, facilitating reuse.
Limitations
- Column-level documentation is absent; field semantics must be inferred after download.
- Row count is unknown, which may limit suitability assessment.
- Last update date is unknown; freshness unverified.
Provenance
- Source
- Qilu University of Technology
- Collection Method
- Likely contains experimental measurements from tomato treatments and electron micrograph analysis.