Antibacterial Activities of Ginkgo biloba L. Leaf Extracts

The antibacterial activity of methanol, ethanol, chloroform, and hexane extracts of the leaves of Himalayan gymnospermous plant Ginkgo biloba L. was assessed against five animal and plant pathogenic strains (Agrobacterium tumefaciens, Bacillus subtilis, Escherichia coli, Erwinia chrysanthemi, and Xanthomonas phaseoli) employing disc-diffusion and broth-dilution assays. The methanol extract showed the highest activity (zone of inhibition of 15–21 mm) followed by ethanol (14–19 mm), chloroform (15–20 mm), and hexane (14–19 mm) extracts at 250 μg/mL. A minimum inhibitory concentration (MIC) of 7.8 μg/mL was found for the methanol extract against most of the pathogens tested.


INTRODUCTION
Ginkgo biloba L. is considered a living fossil due to its survival over millions of years [1,2]. One of the greatest properties of Ginkgo is its resistance to serious plant diseases. Ginkgo contains a number of biologically active compounds for its defence against insects, bacteria, and fungi [3]. An extract from the leaves of G. biloba, used in the treatment of cerebral insufficiency, was developed in the 1960s [4] and designated EGb 761. This preparation is an acetone-water (60 : 40) extract from the dried leaves [5]. A number of secondary metabolites, like terpenoids, polyphenols, organic acids, and amino acids have been isolated from the plant. However, the main bioactive constituents are terpene trilactones and flavonoid glycosides which are considered responsible for the pharmacological activities of the standardized leaf extract [6]. Ginkgo leaves have attracted much attention as agents for improving cerebral circulation and they possess antitumor, antiparasitic, and antiviral activities [7][8][9]. The role of the extract in the treatment of diseases involving free radicals and oxidative damage has also been suggested [10,11].
However, little is known about the antimicrobial activity of gymnospermous plants including G. biloba [12]. Therefore, the antibacterial potential of various crude organic extracts of leaves of G. biloba collected at high altitude in Kumaun Himalaya, India was evaluated against a wide range of pathogenic bacterial strains.

Collection of Plant Material
The tree of Ginkgo biloba (Ginkgoaceae) or maidenhair tree (Figure 1(a)) is characterized by fan-shaped leaves and fleshy, yellow, foul-smelling seeds, enclosing a silvery, edible inner kernel. The green leaves of G. biloba (Ginkgoaceae) were collected in the month of June 2010 from Nainital, Kumaun Himalaya, India and authenticated by the Department of Botany, Kumaun University, Nainital. A voucher specimen was deposited in the herbarium of the department (KU 203).

Extraction Procedure
Leaves of the plant were thoroughly washed and dried at room temperature. The dried material was powdered in an electric grinder (Figure 1(b)). To prepare a stock solution, 50 g of this powder was added to 200 mL of solvents (w/v, 50 g/200 mL). Solvents used for extraction were methanol, ethanol, chloroform, hexane, and water. Each extract was shaken for at least 6 h and after that each extract was passed through Whatman filter paper no.1. The final filtrate was concentrated on a rotary evaporator under vacuum at 20 • C and was utilized for the experiments.

Screening of Antibacterial Activity
Antibacterial tests of selected microorganisms were carried out using a disc-diffusion method [13]. A small sterile cotton swab was dipped into the 24-hour-old culture of bacteria and was inoculated by streaking the swab over the entire agar surface. After inoculation the plates were allowed to dry at room temperature in laminar chamber. The filter paper discs (5 mm) loaded with 40 µL of extract were placed on the surface of

Results
The antibacterial activity of G. biloba methanol, ethanol, chloroform, and hexane extracts against microorganisms were examined in the present study and their potency were quantitatively assessed by ZOI (Table 1), MIC, and MBC values ( Table 2). The results indicated that the methanol extract showed the highest activity among all the tested extracts and inhibited the growth of all the bacterial strains ( It was interesting to note that all the fractions were found more active than the used standard antibiotics (Figure 2).

Discussion
G. biloba, a high altitude grown Kumaun Himalayan plant has not been studied for its antibacterial activity. Therefore, the present study highlights for the first time the in vitro antibacterial activities of different solvent fractions of this plant.  The present data show that there is no uniform response between bacterial strains studied in terms of susceptibility in all these crude extract of G. biloba (Table 1). Our findings show that small amounts of crude extracts of Ginkgo leaves (7.8 µg/mL) possess inhibitory activity against Gram-positive and Gramnegative bacteria. The present investigation supports the ethnobotanical uses of G. biloba. Relying upon [6] terpene trilactones and flavonoid glycosides, the active compounds of Ginkgo biloba might be responsible for its antimicrobial potential.
This study also provides new leads as there are no previous records on the antibacterial activity of G. biloba extracts against the plant pathogenic strains X. phaseoli, A. tumefaciens, and E. chrysanthemi. This is the first report to demonstrate the antibacterial potential of ethanol, chloroform, and hexane extracts of G. biloba. These results also confirm the evidences in previous studies that methanol is a better solvent to extract antimicrobial substances from medicinal plants [14][15][16]. This study provides a strong scientific basis for the ethnomedical use of G. biloba against bacterial diseases of animals and plants.