Nomenclature
Hypericum perforatum L. Clusiaceae
Standardized common name (English): St John's wort
Botanical Voucher Specimen
Organoleptic Characteristics
Color: Stem greenish-yellow to brownish-yellow; leaves greenish-grey; flowers, green sepals, golden-yellow petals
Aroma/Odor: Weak, aromatic, balsamic Flavor/Taste: Bitter, acrid
Source: WHO monographs on selected medicinal plants, Vol.2, World Health Organization, Geneva, 1999 [3]
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Macroscopic Characteristics
"...Stem glabrous greenish-yellow to brownish-yellow branching, 2-winged, cylindrical with 2 equidistant longitudinal bands. Leaves glabrous, generally sessile, opposite, greenish-grey, oval, 8–35mm long, with entire margins; laminal margin often more or less revolute-marginated. Brown-black glandular dots sometimes present along the edges; numerous pellucid glands on the entire surface. Flowers, 2 cm in diameter, regular, forming a broadly paniculate, compound cymose inflorescence at top of stem, composed of: 5 green, lanceolate sepals, containing punctiform, black glandular dots on the edges; 5 golden-yellow petals, with numerous glandular dots along margins; and 3 staminal blades, each divided into multiple golden-yellow stamens. Anthers with single, terminal, dark pigment dot. Ovary elongated and conical, parietal placentation, carries 3 styles."
Source: WHO monographs on selected medicinal plants, Vol.2, World Health Organization, Geneva, 1999 [4]
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Microscopic Characteristics
Transverse section: "...stem circular and presents 2 lateral edges corresponding to the 2 longitudinal bands. From the exterior inwards are seen: epidermal layer formed of large polygonal cells; continuous collenchymal layer, slightly more developed at the 2 lateral edges; a cortical parenchyma containing crystals of calcium oxalate in the shape of a sea urchin; a ring of continuous phloem, distinct from the xylem, which consists of large vessels and a lignified parenchyma with a visible cambium; and a lacunose medullary parenchyma. Secretory pockets, almost invisible, rarely present in the endoderm. Upper surface of leaf section shows polygonal cells with sinuous, slightly beaded, anticlinal walls; cells of lower surface smaller, anticlinal walls more wavy with frequent paracytic, sometimes anomocytic, stomata; smooth cuticle, thicker on upper surface; straight-walled, elongated epidermal cells of veins occasionally beaded. Dorsoventral surface of leaf consists of a single palisade layer and large oil glands. Midrib shows single, collateral bundle with small area of lignified xylem. Microscopic characteristics of the sepal resemble those of the leaf. Petal narrow, elongated, thin-walled, epidermal cells with straight anticlinal walls on outer surface and wavy on inner surface. Stamen lignified fibrous layer of anther wall; elongated, thin-walled cells of filament with striated cuticle. Pollen grains spherical or elliptical, 20–28mm in diameter, with 3 germinal pores and smooth exine."
Powder: "...Yellowish-green or brownish-green. Leaf fragments abundant, most containing large characteristic hypericin oil glands with brown to red contents. Fragments of leaf epidermis, the adaxial side with thick-walled punctate, slightly sinuate cells, and abaxial side with sinuate cells and paracytic stomata; mesophyll fragments with large secretory pockets which are spherical, bright, containing strongly refractive oil droplets; fragments of palisade parenchyma; stem fragments with reticulate spiral vessels, areolate punctation, long fibres with thick walls, ligneous parenchyma, and small number of thick-walled, characteristically punctate medullary cells; fragments of petals made of elongated rectangular cells with irregular nodulous thickenings, containing numerous yellow droplets and large, round to oval secretory pockets; fragments of anthers; pollen grains 20–28mm in diameter, smooth spherical or elliptical with 3 germinal pores; clusters of calcium oxalate crystals."
Source: WHO monographs on selected medicinal plants, Vol.2, World Health Organization, Geneva, 1999 [9]
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High Performance Liquid Chromatographic Identification
HYPERICUM PERFORATUM DRY EXTRACT - Total hypericins HPLC assay
'Method for Hypericins
Column: 15-cm x 4.6 mm, 5-um, Waters Atlantis C18
Mobile Phase: A mix of 39 volumes of ethyl acetate, 41 volumes of a 15.6 g/L solution of sodium dihydrogen phosphate adjusted to pH 2 with phosphoric acid and 160 volumes of methanol.
Elution: Isocratic
Column Temperature: 40°C
Flow rate: 1.0 mL/min
Detection: Vis, 590 nm
Injection volume: 20 uL
Method for Hyperforins and Flavonoids
Column: 15-cm x 4.6 mm, 3-um, YMC-Pack ODS-A
Mobile Phase: Water, containing 0.3 % (v/v) phosphoric acid 85% (Solution A) and acetonitrile containing 0.3 % (v/v) phosphoric acid 85% (Solution B)
Elution: Gradient, see table below
Column Temperature: 25°C
Detection: UV, 360 nm, then at 275 nm after the elution of biapigenin (about 22 min)
Injection volume: 10 uL
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HYPERICUM PERFORATUM DRY EXTRACT - Total hypericins HPLC assay
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HYPERICUM PERFORATUM DRY EXTRACT - Hyperforin and Flavonoids HPLC assay
Source: Indena S.p.A. [16]
Table: Gradient program
Time (min) |
Solution A (%) |
Solution B (%) |
Flow Rate (mL/min) |
0-8 |
82 |
18 |
0.8 |
8-18 |
82-47 |
18-53 |
0.8 |
18-18.1 |
47-3 |
53-97 |
0.8 |
18.1-19 |
3 |
97 |
1.2 |
19-29 |
3 |
97 |
1.2 |
29-30 |
82 |
18 |
1.2 |
30-31 |
82 |
18 |
0.8 |
31-35 |
82 |
18 |
0.8 |
High Performance Thin Layer Chromatographic Identification
Hypericum perforatum HPTLC ID - Natural Product Reagent + PEG UV 365 nm
St. John's Wort (herb) (Hypericum perforatum)
Lane Assignments Lanes, from left to right (Track, Volume, Sample):
- 3 μL Hypericin ~ 0.1% in Methanol
- 3 μL Hypericum perforatum-1 (herb)
- 3 μL Hypericum perforatum-2 (herb)
- 3 μL Hypericum perforatum-3 (herb)
- 3 μL Hypericum perforatum-3 (herb)
- 3 μL Hypericum perforatum-4 (herb)
- 3 μL Hypericum perforatum-5 (herb)
- 1 μL Rutin, Caffeic Acid, Hyperoside, Chlorogenic Acid ~ 0.1% in Methanol
Reference materials used here have been authenticated by macroscopic, microscopic &/or TLC studies according to the reference source cited below held at Alkemists Laboratories, Costa Mesa, CA.
Stationary Phase Silica gel 60, F254, 10 x 10 cm HPTLC plates
Mobile Phase ethyl acetate: Acetic acid: HCOOH: H2O [10/1.1/1.1/2.4]
Sample Preparation Method 0.3 g + 3 ml 70% grain EtOH sonicated + heated @ 50° C ~ 1 hr
Detection Method Natural Product Reagent + PEG -> UV 365 nm
Reference see British Pharmacopoeia, 2003
Source: Elan M. Sudberg, Alkemist Laboratories [17]
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Supplementary Information
Sources
- ↑ Tropicos.org. Missouri Botanical Garden. 28 Feb 2014 <http://www.tropicos.org/Image/61762>
- ↑ Botanical Voucher Specimen Library, Alkemists Laboratories http://www.alkemist.com
- ↑ WHO monographs on selected medicinal plants, Vol.2, World Health Organization, Geneva, 1999
- ↑ WHO monographs on selected medicinal plants, Vol.2, World Health Organization, Geneva, 1999
- ↑ Roy Upton, American Herbal Pharmacopoeia® http://www.herbal-ahp.org/
- ↑ American Herbal Pharmacopoeia® http://www.herbal-ahp.org/
- ↑ American Herbal Pharmacopoeia® http://www.herbal-ahp.org/
- ↑ American Herbal Pharmacopoeia® http://www.herbal-ahp.org/
- ↑ WHO monographs on selected medicinal plants, Vol.2, World Health Organization, Geneva, 1999
- ↑ Elan M. Sudberg, Alkemist Laboratories http://www.alkemist.com
- ↑ Elan M. Sudberg, Alkemist Laboratories http://www.alkemist.com
- ↑ Claudia Borst, PhytoLab http://www.phytolab.com/en.html
- ↑ Claudia Borst, PhytoLab http://www.phytolab.com/en.html
- ↑ Claudia Borst, PhytoLab http://www.phytolab.com/en.html
- ↑ Claudia Borst, PhytoLab http://www.phytolab.com/en.html
- ↑ Indena S.p.A. http://www.indena.com/
- ↑ Elan M. Sudberg, Alkemist Laboratories http://www.alkemist.com