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IAJPS 2018, 05 (04), 2191-2197 Ali Esmail Al-Snafi ISSN 2349-7750
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CODEN [USA]: IAJPBB ISSN: 2349-7750
INDO AMERICAN JOURNAL OF
PHARMACEUTICAL SCIENCES
http://doi.org/10.5281/zenodo.1214994
Article Review http://www.iajps.comAvailable online at:
PHARMACOLOGY AND MEDICINAL PROPERTIES OF
JASMINUM OFFICINALE- A REVIEW
Ali Esmail Al-Snafi
Department of Pharmacology, College of Medicine, University of Thi qar, Iraq.
Cell: +9647801397994. E mail: aboahmad61@yahoo.com
Abstract:
The phytochemical analysis of Jasminum officinale indicated the presence of alkaloids, coumarins, flavonoids,
tannins, terpenoids, glycosides, emodine, leucoanthcyanins, steroids, anthocyanins, phlobatinins, essential oil and
saponins. Pharmacological studies revealed that the plant exerted antimicrobial, insecticidal, antioxidant,
antifertility and dermatological effects. This review described and discussed the chemical constituents and
pharmacological effects of Jasminum officinale.
Keywords: chemical constituents, pharmacology, Jasminum officinale.
Corresponding author:
Ali Esmail Al-Snafi
Department of Pharmacology,
College of Medicine,
University of Thi qar, Iraq
Cell: +9647801397994.
E mail: aboahmad61@yahoo.com
Please cite this article in press Ali Esmail Al-Snafi., Pharmacology and Medicinal Properties of Jasminum
Officinale- A Review, Indo Am. J. P. Sci, 2018; 05(04).
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IAJPS 2018, 05 (04), 2191-2197 Ali Esmail Al-Snafi ISSN 2349-7750
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INTRODUCTION:
The pharmacological treatment of disease began long
ago with the use of herbs. Subsequently, herbs
became the sources of many important drugs because
of its wide range of pharmacological and therapeutic
effects[1-10]. The phytochemical analysis of
Jasminum officinale indicated the presence of
alkaloids, coumarins, flavonoids, tannins, terpenoids,
glycosides, emodine, leucoanthcyanins, steroids,
anthocyanins, phlobatinins, essential oil and
saponins. Pharmacological studies revealed that the
plant exerted antimicrobial, insecticidal, antioxidant,
antifertility and dermatological effects. In this review
we describe and discuss the chemical constituents and
pharmacological effects of Jasminum officinale.
Plant profile:
Synonyms:
Jasminum affine Royle ex Lindl., Jasminum
officinale var. acutum Stokes, Jasminum officinale
var. affine [Royle ex Lindl.] G. Nicholson, Jasminum
officinale f. affine [Royle ex Lindl.] Rehder,
Jasminum officinale var. argenteovariegatum
Weston, Jasminum officinale var. aureovariegatum
Weston, Jasminum officinale f. aureovariegatum
Weston Rehder, Jasminum officinale var. aureum
Bean, Jasminum officinale var. bosphoricum K.
Koch., Jasminum officinale var. officinale, Jasminum
officinale var. piliferum P.Y.Pai, Jasminum officinale
var. pumilum Stokes, Jasminum officinale var.
tenuifolium Stokes and Jasminum officinale var.
tibeticum C. Y. Wu[11]
Taxonomic classification:
Kingdom: Plantae, Subkingdom: Viridiplantae,
Infrakingdom: Streptophyta, Superdivision:
Embryophyta, Division: Tracheophyta, Subdivision:
Spermatophytina, Class: Magnoliopsida,
Superorder: Asteranae, Order: Lamiales, Family:
Oleaceae, Genus: Jasminum, Species:
Jasminum
officinale[12].
Common names:
Arabic: Yasamin, Yasamin Abiadh, Yasamin Adi,
Yasamin Turki; Bengali: Umbustha, Gunica,
Yothica; Chinese: Su fang hua; English: Common
jasmine, Jasmine, Jessamine, Poet's jasmine, Summer
jasmine, White jasmine; French: Jasmin commun,
Jasmin officinal; German: Echter Jasmin, Weißer
jasmin; Hindi: Juhi, Chameli; Italian: Gelsomino,
Gersuminu; Portuguese: Jasmin, Jasmim; Spanish:
Jazmín blanco; Swedish: Parfymjasmin; Unani:
Yaasmin[13-14].
Distribution:
It was native to Asia: Georgia, China, Tajikistan,
Afghanistan, Iran, Iraq, Turkey, Bhutan, India, Nepal
and Pakistan[13]. It was widely cultivated in
Mediterranean, Caucasus, Northern Persia, Eastern
Afghanistan, Hindukush, India, China and Pakistan
for its attractive fragrant flowers[15].
Description:
Shrubs scandent, 0.4-5 m. Branchlets angular or
grooved, glabrous, sparsely pubescent, or appressed
hairy. Leaves opposite, imparipinnate, 5-12.5cm
long, petiole and rhachis margined. Leaflets 7-11, the
terminal 2.5 – 3.8 by 1.3 – 1.8 cm, rhomboid-ovate
or lanceolate, acute or acuminate; the lateral ovate,
usually obtuse, mucronate, the intermediate sessile.
Flowers 3-3.8cm across, white, often tinged [or
streaked] with pink outside, in lax, axillary and
terminal cymes longer than the leaves; pedicels 1.3-
2.5 cm long; bracts, the lower often large, ovate to
spathulate-oblong, foliaceous, the upper small, linear.
Calyx 5-10 mm. long, Glabrous, tube 2.5mm long or
less; lobes 5, subulate2-8 times long as the tube.
Corolla - tube 1.8-2.5 cm long; lobes 5; elliptic or
obovate[14,16].
Traditional uses:
Leaves were chewed in aphthous, stomatitis,
toothache and ulcer in the mouth. Leaf juice or oil
obtained from it was dropped into the ear. Fresh juice
of the leaves was used for sort corns between the
toes, for ulceration in the mouth, throat and gums[14,
17].
Jasminum officinale was also used traditionally for
the treatment of urinary tract infections[18], as CNS
depressant, sedative, mild anesthetic and
astringent[17, 19].
In addition, it was used in depression, nervous
exhaustion and stress related conditions, It was said
that the plant was also used to produce the feeling of
optimism, confidence, euphoria, and it was good in
cases of apathy, indifference, or listlessness. It was
also used for catarrh, coughs, laryngitis,
dysmenorrhoea, labor pains, uterine disorders, skin
problem such as dry, greasy, irritated, sensitive skin,
and for muscular spasms and sprains[20].
The buds of Jasminum officinale L. var. grandiflorum
[L.] were used as a folk remedy for the treatment of
hepatitis, dysmenorrhea, stomatitis, and duodenitis in
South China[21].
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Part used medicinally: Leaves, juice, buds and oil
[14, 17].
Physicochemical characteristics:
The physicochemical characteristics [%] were total
ash 10.89, acid insoluble ash 1.29, water soluble ash
2.92, loss on drying 4.25, petroleum ether extractive
value 2.61, chloroform extractive value 3.58, acetone
extractive value 8.72, alcohol extractive value 11.57
and water extractive value 12.14[14, 22].
Chemical constituents:
The preliminary phytochemical analysis of the
aqueous extract of Jasminum officinale leaves
indicated the presence of alkaloids, coumarins,
flavonoids, tannins, terpenoids, glycosides, emodine,
leucoanthcyanins, steroids, anthocyanins,
phlobatinins, essential oil and saponins[15, 23-25].
Chemical analysis of the bud of the flowers of
Jasminum officinale var. grandiflorum revealed the
presence of six triterpenoid saponins [ as 3-O-α-L-
rhamnopyranosyl [1→2]-β-D-xylopyranosyl-
hederagenin28-O-β-D-galactopyranosyl[1→6]-β-D-
galactopyranosyl ester; hederagenin-3-O-β-D-
glucopyranosyl[1→3]α-L-arabino pyranoside;
2α,3β,23-trihydroxyolean-12-en-28-oic-O-β-D-
glucopyranosyl ester; hederagenin-3-O-β-D-
xylopyranosyl[1→3]-α-Lrhamnopyranosyl[1→2]-α-
L-arabino pyranoside; 2α,3β,23-trihydroxyolean-12-
en-28-oic-O-α-L-rhamnopyranosyl[1→4]-β-D-
glucopyranosyl[1→6]-β-D-glucopyranosyl ester and
hederagenin-3-O-α-L-rhamnopyranosyl[1→2]-α-L-
arabinopyranoside[26].
Cell-free extracts from callus of Jasminum officinale
contained epoxidase activities with isopentyl
pyrophosphate, isopentenol, geraniol and nerol as
substrates and also hydratase activities towards the
resulting terpene oxides[27].
Six iridoid glycosides were identified from the buds
of Jasminum officinale var. grandiflorum:
jasgranoside B, 6-O-methy-catalpol, deacetyl
asperulosidic acid, aucubin, 8-dehydroxy shanzhiside
and loganin[28].
Secoiridoid glucosides: [20R]-20-methoxyoleuropein,
[20S]-20-methoxyoleuropein, oleuropein, ligstroside,
demethyloleuropein and oleoside dimethyl ester, a
lignan, [2]-olivil and p-hydroxyphenethyl alcohol
were isolated from the dried leaves of Jasminum
officinale var. grandiflorum[29].
Six secoiridoids were identified in the flowers of
Jasminum officinale L. var. grandiflorum included
jasgranoside, jaspolyoside, 8-epi-kingiside, 10-
hydroxy-oleuropein, 10-hydroxy-ligstroside and
oleoside-7, 11-dimethyl ester[30].
Seven glycosides were isolated from the flower of
Jasminum officinale var. grandiflorum included
kaempferol-3-O-alpha-L-rhamnopyranosyl [1→3]-
[alpha-L-rhamno pyranosyl [1→6]]-beta-D-
galactopyranoside, kaempferol-3-O-rutinoside, 7-
ketolo ganin, oleoside-11-methyl ester, 7-glucosyl-l1-
methyl oleoside, ligstroside and oleuropein[31].
Thirty compounds were identified in the essential oil
of Jasminum officinale L. var. grandifloroum. The
major volatile components were phytol [25.77 %],
3,7,11-trimethyldodeca -1,6,10-trien-3-ol [12.54%]
and 3,7,11- trimethyldodeca-6,10-dien-3-ol [12.42%].
However, the compounds identified in the Jasminum
officinale L. var. grandifloroum oil [%] were: benzyl
acetate 0.33; nerolidol 0.11; methyl myristate 0.75;
7-tetradecene 0.20; benzyl benzoate 4.84;
neophytadiene 0.23; perhydrofarnesyl acetone 4.85;
phytol acetate 0.22; nonadecane 0.14; geranyl
linalool 0.12; methyl palmitate 1.57; 3,7,11,15-
tetramethyl -1-hexadecen-3-ol 12.42; hexadecanoic
acid 9.16; 3,7,11-trimethyl-1,6,10-dodecatrien-3-ol
12.54; 3,7,11,15-tetramethylhexadecanoic acid
methyl ester 0.60; 9,12,15-octadecatrienoic acid
methyl ester 1.33; heneicosane 3.12; Phytol 25.77;
octadecanoic acid methyl ester 0.56; 9,12,15-
octadecatrienoic acid 4.82; docosane 0.25; tricosane
4.00; tetracosane 0.58; pentacosane 1.51; hexacosane
2.54; heptacosane 1.86; octacosane 1.26; squalene
0.46 and nonacosane 3.00[25].
The total phenolic contents of the aqueous extract of
Jasminum officinale leaves was
104.02 ± 1.28 mg/g gallic acid equivalent, the total
flavonoids content was 10.76 ± 0.83 mg/g quercetin
equivalent and the total flavonols content was 5.65 ±
0.45 mg/g quercetin equivalent[23].
Pharmacological effect:
Antimicrobial effect:
The in vitro anti-bacterial activity of ethanolic
extracts of different parts [flowers, stems plus leaves
and roots] of Jasminum officinale was evaluated
against four reference bacteria [Staphylococcus
aureus ATCC 29213, Enterococcus faecalis ATCC
29212, Escherichia coli ATCC 25922 and
Pseudomonas aeruginosa ATCC 27853]. The
ethanolic extracts of all parts of the plant showed
considerable activity against all the tested bacteria.
The MIC of the ethanolic extracts of flowers and
stems plus leaves against all the tested bacteria was 2
mg/ml and the MIC of roots against S. aureus, E.
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faecalis and E. coli was 4 mg/ml, while the MIC of
root extract against P. aeruginosa was 2 mg/ml[18].
The Jasminum officinale flowers extracts were
evaluated for antifungal activity against Candida
albicans and Aspergillus niger, and antibacterial
activity against Pseudomonas aeruginosa,
Staphylococcus aureus, Klebsiella pneumoniae,
Bacillus pumilis, P. vulgaris and E.coli. In antifungal
effect, n-butanol fraction showed more activity than
the standard drug with zone of inhibition of 20.9
±1.2mm for Candida albicans and almost equal to the
effect of the standard drug against Aspergillus niger
with zone of inhibition of 18.2±1.1mm. Chloroform
fraction showed moderate activity against both
organism Candida albicans, Aspergillus niger with
zone of inhibition of 13.1±1.3 and 12.3±0.6mm
respectively, and n-hexane fraction showed very
poor antifungal activity 2.1±1.3 3.2±1.8mm. In
antibacterial study, the n-butanol fraction displayed
antibacterial activity more than the standard drug
[ampicillin] against Pseudomonas aeruginosa,
Staphylococcus aureus, Klebsiella pneumoniae,
Bacillus pumilis, P.vulgaris and E.coli with zone of
inhibition of 19.2±0.8, 20.1±1.2, 20.1±1.5, 22.0±1.2,
19.4±1.0 and 24.0±0.8mm respectively, on the other
hand, chloroform faction displayed significant
antibacterial activity with zone of inhibition of
14.8±1.3, 16.2±1.4, 16.2±1.9, 17.4±1.3, 14.2±1.2 and
18.2±1.6 respectively, while n-hexane fraction
displayed very low activity[32].
The antimicrobial activity of different solvent
extracts [methanol, DCM] of the flowers and whole
plant [leaves, barks and roots] was studied against
both Gram positive strains [Staphylococcus aureus,
Bacillus pumilus, Streptococcus pneumoniae] and
Gram negative strains [Escherichia coli, Citrobacter
freundii and Klebsiella pneumoniae] and two fungal
species [Candida albicans, Aspergillus niger]. Whole
plant extract [methanol] showed significant
antimicrobial activity with relative percentage of
inhibition [mm] of 83.60 [G +ve], 70.25 [G-ve] and
61.15 [fungi], while flowers extract [methanol]
showed 64.30, 51.88 and 51.97 relative percentage of
inhibition against G +ve, G-ve and fungi respectively.
The diameters of growth inhibition were 11.00-15.15,
9.90-11.95 and 10.95-11.95mm against G+ve, G-ve
and fungi for DCM flowers extract, and 13.35-16.35,
10.45-12.50 and 11.45-12.25mm against G+ve, G-ve
and fungi for methanol flowers extract respectively,
whereas, the diameters of growth inhibition were
18.00-20.00, 14.10-16.80 and 15.45-16.60 mm
against G+ve, G-ve and fungi for DCM whole plant
extract, and 18.55-20.35, 14.50-17.00 and 16.15-
17.00 mm against G+ve, G-ve and fungi for methanol
whole plant extract respectively[15].
The antibacterial effect of different extracts of
leaves of Jasminum officinale were studied against
E. coli, Bacillus sp., Streptococcus sp., Salmonella
sp., Pseudomonas sp., Serratia marcescens,
Klebsiella pneumonia and Staphylococcus aureus.
Methanol extract exhibited the maximum activity
against Klebsiella pneumonia, chloroform extract
against Bacillus subtillis and Staphylococcus aureus,
and hexane extract against Serratia marcescens and
E. coli, while minimal activity was recorded for the
ethanol extract against Staphylococcus aureus, for
chloroform extract against Salmonella and
pseudomonas aeruginosa, and for diethyl ether
extract against Streptococcus sp[33].
Jasminum officinale extracts of flowers powder
macerated in ethanol, were tested against
Propionibacterium acnes and Staphylococcus
epidermidis, as pus-forming bacteria triggering an
inflammation in acne, using disc diffusion and broth
dilution methods. MIC and MBC against
Propionibacterium acnes was 5 and >5 mg/ml
respectively, and MIC and MBC against
Staphylococcus epidermidis was >5 mg/ ml[34].
The antiviral effect of oleuropein derived from the
flowers of Jasminum officinale was studied on
hepatitis B virus [HBV] replication in HepG2 2.2.15
cell line in vitro and duck hepatitis B virus [DHBV]
replication in ducklings in vivo. Oleuropein blocked
effectively HBsAg secretion in HepG2 2.2.15 cells in
a dose-dependent manner [IC50 =23.2 microg/ml].
Oleuropein [80 mg/kg, intraperitoneally, twice daily]
also reduced viremia in DHBV-infected ducks[35].
The effect of 8-epi-kingiside [8-Epik] derived from
the buds of Jasminum officinale var. grandiflorum
[JOG] was evaluated on hepatitis B virus [HBV]
replication in HepG2 2.2.15 cell line in vitro and
duck hepatitis B virus [DHBV] replication in
ducklings in vivo. 8-Epik effectively blocked HBsAg
secretion in HepG2 2.2.15 cells in a dose-dependent
manner [IC50 = 19.4 ± 1.04 μg/ml]. 8-Epik [40 or 80
mg/kg, ip, twice daily] also reduced viremia in
DHBV-infected ducks[36].
Insecticidal effect:
Jasminum officinale were tested for the larvicidal
efficacy against the third instar larvae of Culex
quinquefasciatus at concentrations of 62.5, 125, 250,
500, 1000, 2000, 4000 and 8000 mg/l. Mortality was
recorded after 24 and 48 h. The hexane and
chloroform extract possessed 14 and 13.3%
mortality at 4000 mg/l after 24 h, and 18.66 and 18%
mortality at 4000 mg/l after 48 h. LC50 was 3136.68
after 24 h and 6231.08 after 48 h[37].
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The crude chloroform, methanol and aqueous flower
extracts of Jasminum officinale, were tested for the
larvicidal efficacy against the third instar larvae of
Aedes aegypti at concentrations of 62.5, 125, 250,
500, 1000, 2000, 4000 and 8000 mg/l. Mortality was
recorded after 24 and 48 h. The crude methanolic
flower extracts of Jasminum officinale caused 20%
mortality after 48 h at concentration of 8000
mg/l[38].
Antioxidant effect:
The antioxidant potential of the aqueous extract of
Jasminum officinale leaves was evaluated in vitro
using free radical scavenging assays for DPPH, NO,
superoxide and ABTS radicals in addition to reducing
power assessment. The extract possessed significant
antioxidant potential. The IC50 values for DPPH,
NO, superoxide and ABTS radicals were 41.16,
30.29, 20.19, and 29.48 μg/ml respectively as
compared to the standard, ascorbic acid, which
showed 42.79, 36.74, 38.22, and 45.57 μg/ml, for the
same radicals [23].
The antioxidant property of Jasminum officinale
methanol and ethanol extracts was determined by
hydrogen peroxide method. Both extracts possessed
antioxidant activity, but the ethanolic extract showed
the more potent activity[39].
The antioxidant activity of Jasminum officinale
methanol and ethanol extracts was analysed using
DPPH scavenging compared with a standard
compound, ascorbic acid. The antioxidant activity in
both methanolic and ethanolic extracts showed
increase in activity with increase in sample
concentration. The ethanolic extract showed better
antioxidant activity when compared to the methanolic
extract[40].
Antifertility effect:
The antifertility effect of an aqueous extract of fresh
floral buds of Jasminum officinale var. grandiflorum
was studied in female rats. The extract at oral doses
of 250 and 500 mg/kg produced a dose dependent
significant antiimplantation effect, but didn't produce
complete infertility. Treatment of animals during day
8 to day 12 to day 20 of pregnancy did not produce
any significant abortifacient activity. There was no
significant change in the weight and length of the
fetuses delivered by rats treated with extract and no
abnormalities were seen in the organs of the
offspring. The extract produced a significant decrease
in serum progesterone levels on day 5 of pregnancy
which may be responsible for the antiimplantation
effect[41].
Dermatological effect:
Ampucare was a topical oil-based preparation
containing Azadirachta indica, Berberis aristata,
Curcuma longa, Glycyrrhiza glabra, Jasminum
officinale, Pongamia pinnata,Rubia cordifolia,
Terminalia chebula, Trichosanthes dioica, Symplocos
racemosa, Ichnocarpus frutescens, Capsicum
abbreviata, Nymphaea lotus etc. Application of
ampucare in second-degree burn showed burn healing
effect with enhancement of antioxidant function. It
increased wound contraction, decreased NO,
decreased xanthine oxidase activity, increased protein
level, increased vitamin C, reduced glutathione and
decreased MDA in blood samples[42-44].
CONCLUSION:
This review discussed the chemical constituent,
pharmacological and therapeutic effects of Jasminum
officinale as promising herbal drug because of its
safety and effectiveness.
REFERENCES:
1. Al-Snafi AE. Chemical constituents and medical
importance of Galium aparine - A review. Indo
Am J P Sc 2018; 5[3]: 1739-1744.
2. Al-Snafi AE. The pharmacological effects of
Helianthus annuus- A review. Indo Am J P Sc
2018; 5[3]:1745-1756.
3. Al-Snafi AE. Therapeutic importance of Ephedra
alata and Ephedra foliata- A review. Indo Am
J P Sci 2017; 4[2]: 399-406.
4. Al-Snafi AE. Therapeutic potential of Erodium
cicutarium - A review. Indo Am J P Sci 2017;
4[2]: 407-413.
5. Al-Snafi AE. Chemical constituents and
pharmacological effects of Hypericum
triquetrifolium. Indo Am J P Sc 2018; 5[3]:
1757-1765.
6. Al-Snafi AE. Pharmacological and therapeutic
effects of Jasminum sambac- A review. Indo Am
J P Sc 2018; 5[3]: 1766-1778.
7. Al-Snafi AE. Medical importance of Juniperus
communis - A review. Indo Am J P Sc 2018;
5[3]: 1979-1792.
8. Al-Snafi AE. Pharmacological and therapeutic
importance of Echium italicum- A review. Indo
Am J P Sci 2017; 4[2]: 394-398.
9. Al-Snafi AE. Chemical constituents and
pharmacological effects of Fraxinus ornus- A
review. Indo Am J P Sc 2018; 5[3]: 1721-1727.
10. Al-Snafi AE. Fumaria parviflora- A review. Indo
Am J P Sc 2018; 5[3]: 1728-1738.
11. The plant list, Jasminum officinale, http://www.
theplantlist. org/tpl1. 1/ record / kew-351433
IAJPS 2018, 05 (04), 2191-2197 Ali Esmail Al-Snafi ISSN 2349-7750
w w w . i a j p s . c o m
Page 2196
12. ITIS report, Jasminum officinale, https:// www.
itis. gov/ servlet/ SingleRpt/ SingleRpt?
search_topic=TSN&search_value=503238#null
13. US National plant Germplasm System,
Jasminum officinale, https://npgsweb.ars-
grin.gov/gringlobal/taxonomydetail.aspx?20668
14. Shukla RR. Jasminum officinale Linn-
Ayurvedic aproach. International Journal of
Ayurvedic and Herbal Medicine 2013; 3[1]:
1114-1119.
15. Hussain M, Bakhsh H, Abdul Majeed A, Abdul
Mujeeb KIA and Farooq U. Comparative in
vitro study of antimicrobial activities of flower
and whole plant of Jasminum officinale against
some human pathogenic microbes. Journal of
Pharmacy and Alternative Medicine 2013; 2[4]:
33-44.
16. Flora of China, Jasminum officinale,
http://www.efloras.org/florataxon.aspx?
flora_id=2&taxon_id=200017787
17. Khare CP. Indian Medicinal Plants, An
Illustrated Dictionary. Springer, Berlin/
Heidelberg, New Delhi, India 2007: 333-334.
18. Al-Khazraji SM. Evaluation of antibacterial
activity of Jasminum officinale. IOSR Journal of
Pharmacy and Biological Sciences 2015; 10[1]:
121-124.
19. Duke JA, Godwin MJ and duCelleir J. Handbook
of Medicinal Herbs, 2nd ed., UK 2002: 522- 523.
20. Binti Che Din NS. Extraction of essential oils
from Jasmine flower using supercritical CO2- Co
solvent extraction. Thesis for Bachelor of
Chemical Engineering. Faculty of Chemical &
Natural Resources Engineering University
College of Engineering & Technology, Malaysia
2006.
21. Nanjing University of Chinese Medicine,
Dictionary of Chinese Materia Medica. 2nd ed.
Shanghai Science & Technology Press, Shanghai
2006: 2476.
22. Sakshi K, Vishwanath and Shamsa F.
Standardization of an ayurvedic herbal eye drops
for allergic conjunctivitis. International Journal
of Advanced Research 2015; 3[10]: 494 - 499.
23. Dubey P, Tiwari A, Gupta SK and Watal G.
Phytochemical and biochemical studies of
Jasminum officinale leaves. International
Journal of Pharmaceutical Sciences and Research
2016; 7[6]: 2632-2640.
24. Patil KJ, Patil VA, Patil SV and Bhuktar AS.
Comparative preliminary phytochemical studies
of Jasminum multiflorum and Jasminum
officinale. Trends in Life Sciences 2012; 1[3]:
43-45.
25. Wei FH, Chen FI and Tan XM. Gas
chromatographic-mass spectrometric analysis of
essential oil of Jasminum officinale L var
grandiflorum flower. Tropical Journal of
Pharmaceutical Research 2015; 14 [1]: 149-152.
26. Zhao GQ and Dong JX . Triterpenoid saponins
from flower bud of Jasminum officinale var.
grandiflorum. Zhongguo Zhong Yao Za Zhi -
Zhongguo Zhongyao Zazhi [ China Journal of
Chinese Materia Medica] 2008; 33[1]:38-42.
27. Banthorpe DV and Osborne MJ. Terpene
epoxidases and epoxide hydratases from cultures
of Jasminum officinale. Phytochemistry 1984;
23[4]: 905-907.
28. Zhao GQ, Yin ZF, Liu YC and Li HB. Iridoid
glycosides from buds of Jasminum officinale L.
var. grandiflorum. Yao Xue Xue Bao 2011;
46[10]: 1221-1224.
29. Tanahashi T, Sakai T, TakenakaY, Nagakura N
and Chen CC. Structure elucidation of two
secoiridoid glucosides from Jasminum officinale
L. var. grandiflorum [L.] Kobuski. Chem Pharm
Bull 1999; 47[11]: 1582-1586
30. Zhao GQ, Yin ZF, Dong JX. A new secoiridoid
from the flowers of Jasminum officinale L. var.
grandiflorum. Acta Pharm Sin 2008; 43[5]: 513-
517.
31. Zhao GQ, Xia JJ and Dong JX. Glycosides from
flowers of Jasminum officinale L. var.
grandiflorum. Yao Xue Xue Bao 2007; 42[10]:
1066-1069.
32. Rama G and Ampati S. Evaluation of flowers of
Jasminum officinale antibacterial activity. JAPS
2013; 3[1]: 428-431.
33. Shekhar S and Prasad MP. Evaluation of
antimicrobial activity of Jasminum officinale
using solvent extracts against clinical
pathogenes. World Journal of Pharmacy and
Pharmaceutical Sciences 2015; 5[4]: 1247-1256.
34. Kumar GS, Jayaveera KN, Kumar CKA, Sanjay
UP, Swamy BMV and Kumar DVK.
Antimicrobial effects of Indian medicinal plants
against acne-inducing bacteria. Tropical Journal
of Pharmaceutical Research 2007; 6 [2]: 717-
723.
35. Zhao GQ, Yin ZF and Dong JX. Antiviral
efficacy against hepatitis B virus replication of
oleuropein isolated from Jasminum officinale L.
var. grandiflorum. J Ethnopharmacol 2009;
125[2]: 265-268.
36. Zhao GQ, Yin ZF, Liu LY, Mao XX and Su ZH.
Anti-hepatitis B Virus Activity of 8-epi-
Kingiside in Jasminum officinale var.
grandiflorum. Chinese Herbal Medicines 2013;
5[1]: 53-57.
37. Raveen R, Samuel T, Arivoli S and
Madhanagopal R. Evaluation of mosquito
larvicidal activity of Jasminum species
IAJPS 2018, 05 (04), 2191-2197 Ali Esmail Al-Snafi ISSN 2349-7750
w w w . i a j p s . c o m
Page 2197
[Oleaceae] crude extracts against the filarial
vector Culex quinquefasciatus Say [Diptera:
Culicidae]. American Journal of Essential Oils
and Natural Products 2015; 3[1]: 24-28.
38. Preethi EA, Raveen R, Arivoli S, Tennyson S
and Madhanagopal R. Larvicidal efficacy of
jasminum sp. [Oleaceae] flower extracts against
the Dengue and Chikungunya vector Aedes
aegypti L. [Diptera: Culicidae]. Med Chem 2014;
4: 672-675.
39. Shekhar S and Prasad MP. Comparative analysis
of antioxidant properties of jasmine species by
hydrogen peroxide assay. European Journal of
Biotechnology and Bioscience 2015; 3 [2]: 26-
29.
40. Shekhar S and Prasad MP. Evaluation of
antioxidant activity determination in Jasminum
species by DPPH method. World Journal of
Pharmaceutical Research 2015; 4[3]: 1529-1540.
41. Iqbal M, Ghosh AKM and Saluja AK.
Antifertility activity of the floral buds of
Jasminum officinale var. grandiflorum in rats.
Phytotherapy Res 1993; 7[1]: 5-8.
42. Sehgal R, Manu C, Vivek D et al. Efficacy
evaluation of ampucare in comparison with silver
sulfadiazine in burn wound healing in rats. Int J
Drug Dev Res 2010; 2[1]: 85–88.
43. Dwivedi VK, Chaudhary M, Ahmad A et al.
Comparative efficacy of ampucare and silver
sulfadiazine against burn wound rat. J Appl Sci
Res 2010; 6[6]:674–682.
44. Bahramsoltani R and Farzaei MH. Medicinal
plants and their natural components as future
drugs for the treatment of burn wounds: an
integrative review. Arch Dermatol Res 2014;
306: 601–617.
