98-55-5
Chemical Structure
α-Terpineol
- CAS No.: 98-55-5
- Formula:C10H18O
- Molecular Weight:154.25
IUPAC Name: 2-(4-methylcyclohex-3-en-1-yl)propan-2-ol
InChIKey: WUOACPNHFRMFPN-UHFFFAOYSA-N
SMILES: OC(C)(C)C1CC=C(C)CC1
Biological Activity: α-Terpineol (with oral activity) can be found in Eucalyptus globulus Labill. α-Terpineol exhibits strong antimicrobial activity against periodontopathic and cariogenic bacteria.α-Terpineol possesses antifungal activity against T. mentagrophytes, and the activity might lead to irreversible cellular disruption. In addition, α-Terpineol exhibits antineuropathic and anti-inflammatory activities. α-Terpineol can be utilized in research related to diarrhea, neuropathic pain, infections, and inflammation[1][2][3][4][5][6][7].
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α-Terpineol | 99.74% | α-Terpineol (with oral activity) can be found in Eucalyptus globulus Labill. α-Terpineol exhibits strong antimicrobial activity against periodontopathic and cariogenic bacteria.α-Terpineol possesses antifungal activity against T. mentagrophytes, and the activity might lead to irreversible cellular disruption. In addition, α-Terpineol exhibits antineuropathic and anti-inflammatory activities. α-Terpineol can be utilized in research related to diarrhea, neuropathic pain, infections, and inflammation. | ||||||||||||||||||||
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α-Terpineol (Standard) | ≥98% | α-Terpineol (Standard) is the analytical standard of α-Terpineol. This product is intended for research and analytical applications. α-Terpineol is isolated from Eucalyptus globulus Labill, exhibits strong antimicrobial activity against periodontopathic and cariogenic bacteria. α-Terpineol possesses antifungal activity against T. mentagrophytes, and the activity might lead to irreversible cellular disruption. | ||||||||||||||||||||
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α-Terpineol-d6 | α-Terpineol-d6 is deuterated labeled α-Terpineol (HY-N5142). α-Terpineol (with oral activity) can be found in Eucalyptus globulus Labill. α-Terpineol exhibits strong antimicrobial activity against periodontopathic and cariogenic bacteria.α-Terpineol possesses antifungal activity against T. mentagrophytes, and the activity might lead to irreversible cellular disruption. In addition, α-Terpineol exhibits antineuropathic and anti-inflammatory activities. α-Terpineol can be utilized in research related to diarrhea, neuropathic pain, infections, and inflammation. | |||||||||||||||||||||
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α-Terpineol-d3 | 98.14% | α-Terpineol-d3 is the deuterium labeled α-Terpineol. α-Terpineol is isolated from Eucalyptus globulus Labill, exhibits strong antimicrobial activity against periodontopathic and cariogenic bacteria.α-Terpineol possesses antifungal activity against T. mentagrophytes, and the activity might lead to irreversible cellular disruption. | ||||||||||||||||||||
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- [1]. Park SN, et al. Antimicrobial effect of linalool and α-terpineol against periodontopathic and cariogenic bacteria. Anaerobe. 2012 Jun;18(3):369-72. [Content Brief]
- [2]. Park MJ, et al. Effect of citral, eugenol, nerolidol and alpha-terpineol on the ultrastructural changes of Trichophyton mentagrophytes. Fitoterapia. 2009 Jul;80(5):290-6. [Content Brief]
- [3]. Held S, et al. Characterization of alpha-terpineol as an anti-inflammatory component of orange juice by in vitro studies using oral buccal cells. J Agric Food Chem. 2007 Oct 3;55(20):8040-6. [Content Brief]
- [4]. Trinh HT, et al. Artemisia princeps Pamp. Essential oil and its constituents eucalyptol and α-terpineol ameliorate bacterial vaginosis and vulvovaginal candidiasis in mice by inhibiting bacterial growth and NF-κB activation. Planta Med. 2011 Dec;77(18):1996-2002. [Content Brief]
- [5]. Dos Santos Negreiros P, et al. Antidiarrheal activity of α-terpineol in mice. Biomed Pharmacother. 2019 Feb;110:631-640. [Content Brief]
- [6]. Bilbrey JA, et al. Evaluation of the terpenes β-caryophyllene, α-terpineol, and γ-terpinene in the mouse chronic constriction injury model of neuropathic pain: possible cannabinoid receptor involvement. Psychopharmacology (Berl). 2022 May;239(5):1475-1486. [Content Brief]
- [7]. Choi YJ, et al. α-Terpineol induces fatty liver in mice mediated by the AMP-activated kinase and sterol response element binding protein pathway. Food Chem Toxicol. 2013 May;55:129-36. [Content Brief]