Name: | salvia officinalis l. |
FDA internal no.: | 977002-44-0 |
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Category: spices, other natural seasonings and flavorings
US / EU / FDA / JECFA / FEMA / FLAVIS / Scholar / Patent Information:
Physical Properties:
Food Chemicals Codex Listed: | No |
Organoleptic Properties:
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Odor Type: herbal |
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Odor Strength: | medium |
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| sage |
Odor Description: at 100.00 %. | sage |
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Flavor Type: herbal |
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| sage |
Taste Description:
| sage |
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Odor and/or flavor descriptions from others (if found). |
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Cosmetic Information:
Suppliers:
Safety Information:
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Hazards identification |
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Classification of the substance or mixture |
GHS Classification in accordance with 29 CFR 1910 (OSHA HCS) |
None found. |
GHS Label elements, including precautionary statements |
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Pictogram | |
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Hazard statement(s) |
None found. |
Precautionary statement(s) |
None found. |
Oral/Parenteral Toxicity: |
Not determined
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Dermal Toxicity: |
Not determined
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Inhalation Toxicity: |
Not determined
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Safety in Use Information:
Category: | spices, other natural seasonings and flavorings |
Recommendation for sage usage levels up to: | | not for fragrance use.
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Use levels for FEMA GRAS flavoring substances on which the FEMA Expert Panel based its judgments that the substances are generally recognized as safe (GRAS). |
The Expert Panel also publishes separate extensive reviews of scientific information on all FEMA GRAS flavoring substances and can be found at FEMA Flavor Ingredient Library |
publication number: 3 |
Click here to view publication 3 |
| average usual ppm | average maximum ppm |
baked goods: | - | 170.00000 |
beverages(nonalcoholic): | - | 300.00000 |
beverages(alcoholic): | - | - |
breakfast cereal: | - | - |
cheese: | - | - |
chewing gum: | - | - |
condiments / relishes: | - | - |
confectionery froastings: | - | - |
egg products: | - | - |
fats / oils: | - | - |
fish products: | - | - |
frozen dairy: | - | - |
fruit ices: | - | - |
gelatins / puddings: | - | - |
granulated sugar: | - | - |
gravies: | - | - |
hard candy: | - | - |
imitation dairy: | - | - |
instant coffee / tea: | - | - |
jams / jellies: | - | - |
meat products: | - | 1500.00000 |
milk products: | - | - |
nut products: | - | - |
other grains: | - | - |
poultry: | - | - |
processed fruits: | - | - |
processed vegetables: | - | - |
reconstituted vegetables: | - | - |
seasonings / flavors: | - | - |
snack foods: | - | - |
soft candy: | - | - |
soups: | - | - |
sugar substitutes: | - | - |
sweet sauces: | - | - |
Safety References:
References:
| salvia officinalis l. |
Pubchem (sid): | 135311475 |
Other Information:
FDA Substances Added to Food (formerly EAFUS): | View |
FDA Listing of Food Additive Status: | View |
Wikipedia: | View |
Potential Blenders and core components note
Potential Uses:
Occurrence (nature, food, other): note
Synonyms:
| plant material derived from the dried, crushed leaves of the sage, salvia officinalis l., lamiaceae | | sage | | sage bulgaria organic | | sage medium | | sage small | | sage whole, ground or rubbed, available as 100% certified organic | | salvia officinalis leaf |
Articles:
PubMed: | Improved glycemic control and lipid profile in hyperlipidemic type 2 diabetic patients consuming Salvia officinalis L. leaf extract: a randomized placebo. Controlled clinical trial. |
PubMed: | Kinetin applications alleviate salt stress and improve the antioxidant composition of leaf extracts in Salvia officinalis. |
PubMed: | Antihyperlipidemic effects of Salvia officinalis L. leaf extract in patients with hyperlipidemia: a randomized double-blind placebo-controlled clinical trial. |
PubMed: | Ecophysiological and antioxidant traits of Salvia officinalis under ozone stress. |
PubMed: | A simple and efficient DNA isolation method for Salvia officinalis. |
PubMed: | The antinociceptive and anti-inflammatory effects of Salvia officinalis leaf aqueous and butanol extracts. |
PubMed: | Seasonal variations of phenolic compounds and biological properties in sage (Salvia officinalis L.). |
PubMed: | Influence of ionic interactions on essential oil and phenolic diterpene composition of Dalmatian sage (Salvia officinalis L.). |
PubMed: | Influence of gibberellin and daminozide on the expression of terpene synthases and on monoterpenes in common sage (Salvia officinalis). |
PubMed: | Laser ablation atmospheric pressure photoionization mass spectrometry imaging of phytochemicals from sage leaves. |
PubMed: | Antioxidant and inhibitory effects of aqueous extracts of Salvia officinalis leaves on pro-oxidant-induced lipid peroxidation in brain and liver in vitro. |
PubMed: | A direct liquid, non-equilibrium solid-phase micro-extraction application for analysing chemical variation of single peltate trichomes on leaves of Salvia officinalis. |
PubMed: | Catabolism of camphor in tissue cultures and leaf disks of common sage (Salvia officinalis). |
PubMed: | Relationship of Camphor Biosynthesis to Leaf Development in Sage (Salvia officinalis). |
PubMed: | Effects of cholinesterase inhibiting sage (Salvia officinalis) on mood, anxiety and performance on a psychological stressor battery. |
PubMed: | [Quantitative change of terpenoids in germ-bud and leaf of Salvia officinalis L. under different conditions. 21. Contents of Salvia off. L]. |
PubMed: | [Possibility of admittance of plant drugs Melissa officinalis, Mentha piperita and Salvia officinalis to the place of leaf drugs in the pharmacopeia]. |
PubMed: | Application of non-linear models to predict inhibition effects of various plant hydrosols on Listeria monocytogenes inoculated on fresh-cut apples. |
PubMed: | Plant performance on Mediterranean green roofs: interaction of species-specific hydraulic strategies and substrate water relations. |
PubMed: | Dynamics of yield components and essential oil production in a commercial hybrid sage (Salvia officinalis x Salvia fruticosa cv. Newe Ya'ar no. 4). |
PubMed: | Geranyl pyrophosphate synthase: characterization of the enzyme and evidence that this chain-length specific prenyltransferase is associated with monoterpene biosynthesis in sage (Salvia officinalis). |
PubMed: | Metabolism of Monoterpenes : Metabolic Fate of (+)-Camphor in Sage (Salvia officinalis). |
PubMed: | Partial purification and characterization of two sesquiterpene cyclases from sage (Salvia officinalis) which catalyze the respective conversion of farnesyl pyrophosphate to humulene and caryophyllene. |
PubMed: | Metabolism of monoterpenes: demonstration of the hydroxylation of (+)-sabinene to (+)-cis-sabinol by an enzyme preparation from sage (Salvia officinalis) leaves. |
PubMed: | Isolation and structural elucidation of two new glycosides from sage (Salvia officinalis L.). |
PubMed: | Chemical composition of essential oil and leaf anatomy of Salvia bertolonii Vis. and Salvia pratensis L. (Sect. Plethiosphace, Lamiaceae). |
PubMed: | Antioxidant properties of biohybrids based on liposomes and sage silver nanoparticles. |
PubMed: | Specific leaf mass, fresh: dry weight ratio, sugar and protein contents in species of Lamiaceae from different light environments. |
PubMed: | Determination of water-soluble polyphenolic compounds in commercial herbal teas from Lamiaceae: peppermint, melissa, and sage. |
PubMed: | [Plant anatomical and phytochemical evaluation of Salvia species]. |
PubMed: | Clomazone does not inhibit the conversion of isopentenyl pyrophosphate to geranyl, farnesyl, or geranylgeranyl pyrophosphate in vitro. |
PubMed: | Regulation of simultaneous synthesis of floral scent terpenoids by the 1,8-cineole synthase of Nicotiana suaveolens. |
PubMed: | Drought-induced changes in the redox state of alpha-tocopherol, ascorbate, and the diterpene carnosic acid in chloroplasts of Labiatae species differing in carnosic acid contents. |
PubMed: | Isolation and characterization of an active-site peptide from a monoterpene cyclase labeled with a mechanism-based inhibitor. |
PubMed: | Biosynthesis of monoterpenes: inhibition of (+)-pinene and (-)-pinene cyclases by thia and aza analogs of the 4R- and 4S-alpha-terpinyl carbocation. |
PubMed: | Biosynthesis of monoterpenes. Enantioselectivity in the enzymatic cyclization of (+)- and (-)-linalyl pyrophosphate to (+)- and (-)-pinene and (+)- and (-)-camphene. |
PubMed: | Biosynthesis of monoterpenes. Enantioselectivity in the enzymatic cyclization of (+)- and (-)-linalyl pyrophosphate to (+)- and (-)-bornyl pyrophosphate. |
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