Typhasterol Analysis Service
- Absolute quantification of typhasterol
- Differential metabolites screening
- Optimal analyses such as KEGG pathway analysis and hierarchical clustering
Gibberellins are a class of essential plant hormones that regulate plant growth, development, and various physiological processes, such as seed germination, stem elongation, leaf expansion, and fruit development. Typhasterol is a naturally occurring phytosterol and an intermediate metabolite of gibberellins. The chemical structure of typhasterol is similar to other gibberellin-related compounds, featuring a multi-ring sterol backbone and multiple hydroxyl groups. In plants, typhasterol is produced through the biosynthesis pathway of gibberellins and eventually converted into biologically active gibberellins, such as GA1 and GA4. Although typhasterol itself has low biological activity, it plays a crucial role as an intermediate in the biosynthesis of gibberellins, which are vital for plant growth and development. The accumulation and conversion rate of typhasterol can influence the final gibberellin content, thereby regulating plant height, flowering time, and fruit development. Research on typhasterol and its related gibberellins is of significant importance in agriculture and horticulture. By regulating the gibberellin biosynthesis pathway, it is possible to promote crop growth, increase yields, and improve fruit quality. Additionally, the study of typhasterol's metabolic pathway provides a theoretical basis for developing new plant growth regulators.
Figure 1. The Structure of Typhasterol
MtoZ Biolabs offers an exceptional Typhasterol Analysis Service, backed by our leading-edge ultra-performance liquid chromatography-tandem mass spectrometry (UPLC-MS/MS) platform and expert metabolomics team. Our service provides a complete typhasterol analysis, ensuring high sensitivity and precision.
Analysis Workflow
Figure 2. Workflow for Typhasterol by UPLC-MS/MS Analysis
Service Advantages
1. Expert Team: Our team scientists have deep understanding and extensive experience in MS and metabolomics.
2. Advanced Techniques: We employ state-of-the-art UPLC-MS/MS platforms that ensure high sensitivity and specificity of detection.
3. Customizable Service: Our service is flexible to accommodate specific research needs and goals.
4. Fast Turnaround Time: We strive to deliver results in a timely manner without compromising on the quality.
5. Data Confidentiality: We strictly adhere to data security and confidentiality protocols.
Applications
Sample Submission Requirements
1. Fresh plant tissues >2 g. Samples should be frozen in liquid nitrogen immediately after collection, and then transferred to -80°C for storage.
2. Plant seeds >2 g.
At least 3 biological replicates.
Deliverables
1. Experimental Procedures
2. Relevant Liquid Chromatography and Mass Spectrometry Parameters
3. Detailed Information on Typhasterol
4. Raw Data
5. Custom Analysis Report
Through our typhasterol analysis service, we aim to accelerate your research and product development processes by providing accurate and reliable data.
How to order?