Celangulin A
Also known as: Celangulin A
Overview
Celangulin A is a plant-derived compound likely associated with *Celastrus angulatus*, a species known for producing similar compounds such as Celangulin V. While Celangulin A itself lacks specific research data, its potential applications mirror those of its relatives, particularly in insecticidal contexts. Celangulin V has demonstrated efficacy in targeting the V-ATPase H subunit in lepidopteran larvae. The overall research on Celangulin A appears to be at an early stage, with limited available evidence regarding its properties and applications. Therefore, further investigation is necessary to clarify its characteristics and uses.
Benefits
Currently, no specific benefits are documented or confirmed for Celangulin A due to the absence of focused research. Without well-established studies, it is not possible to identify any primary or secondary effects or determine which populations may benefit from its use. Future research is required to evaluate its benefits and any potential applications.
How it works
If Celangulin A functions similarly to Celangulin V, its mechanism of action may involve inhibition of the V-ATPase enzyme in insect midgut cells, disrupting energy production and influencing cellular processes in targeted insect species. However, specific details regarding Celangulin A’s interaction with biological pathways remain unspecified.
Side effects
At this time, no side effects for Celangulin A have been documented, as there is a lack of comprehensive safety data. Due to the absence of studies, there are no recorded common, uncommon, or rare adverse effects. Additionally, potential drug interactions, contraindications, and considerations for special populations have not been established. Without defined data, the safety profile of Celangulin A remains unknown.
Dosage
Currently, there are no established dosing guidelines or references for Celangulin A, as specific effective doses, optimal ranges, and safety thresholds remain undiscovered. There are no recommendations on timing, forms, or absorption factors, making it impossible to provide dosing information at this time.
FAQs
What are the practical uses of Celangulin A?
There is currently no practical usage information available for Celangulin A, as specific research has not yet been conducted.
Is Celangulin A safe to use?
Safety cannot be assessed without specific data or studies on Celangulin A. No safety data is available at this time.
What are the expected results from using Celangulin A?
Without research to indicate its effects, there are no expected results documented for Celangulin A.
Are there any known misconceptions about Celangulin A?
Due to the lack of information available about Celangulin A, there are no misconceptions that can be specifically addressed at this time.
Research Sources
- https://pubmed.ncbi.nlm.nih.gov/29210984/ – This study explores the characteristics and applications of related compounds, specifically Celangulin V, highlighting its targeted action on specific enzymes within insects, underlining its insecticidal properties.
- https://pubmed.ncbi.nlm.nih.gov/32293681/ – This research focused on the biosynthetic pathways in *Celastrus angulatus*, providing insights into the mechanisms that may underlie the effects of its derived compounds, which include insecticidal potential.
- https://www.mdpi.com/2304-8158/13/17/2762 – This article reviews the V-ATPase as an important target in pest control, indirectly linking research on Celangulin V's efficacy to its impact on insect gut physiology, which could suggest up-to-date strategies for Celangulin A.
- https://www.mdpi.com/1422-0067/12/12/9576 – Focusing on the chemical components extracted from *Celastrus angulatus*, this study provides context on the biological activity of related compounds in the plant, paving the way for future focus on Celangulin A.
- https://www.researchgate.net/publication/330174454_De_novo_leaf_and_root_transcriptome_analysis_to_explore_biosynthetic_pathway_of_Celangulin_V_in_Celastrus_angulatus_maxim – This research presents a thorough analysis of the biosynthetic pathways involved in producing Celangulin V, contributing to overall understanding relevant in exploring similar compounds within *Celastrus angulatus*, including Celangulin A.
