One New Royleanumoate from Teucrium royleanum Wall. ex Benth

One new royleanumoate, a benzene ester (1), has been isolated from T. royleanum Wall. ex Benth along with two known compounds, namely, 3,4-dihydroxymethyl benzoate (2) and oleanolic acid (3). The structure elucidation of the isolated compounds was established on two-dimensional (2D) NMR techniques including heteronuclear multiple bond correlation (HMBC), heteronuclear multiple quantum Coherence (HMQC), and correlation spectroscopy (COSY) experiment.


Introduction
The family Lamiaceae is a large family of order Lamiales [1]. It contains about 170 genera and 300 species of worldwide distribution, growing under great variety of soils and climates but more abundant in Mediterranean and mountainous region [2]. Several genera of the family Lamiaceae contain biologically active compounds [3]. Teucrium is one of the important genera of this family [4]. The genus Teucrium comprises mainly herbaceous plants. It contains about 7,000 species in temperate regions, only four species of which are reported in Pakistan, namely, Teucrium stocksianum, Teucrium scordium, Teucrium royleanum, and Teucrium quadrifarium [5]. Many biological activitieshave been attributed to the genus Teucrium. Some of the species have been used as medicinal plants since time immemorial and are still being used in folk medicine as antispasmodics, tonics, antipyretics, and antiseptics [6]. The literature survey reveals that the terpenoids in these plants have also shown insect antifeedant activity [6][7][8]. These medicinal properties prompted us to carry out phytochemical investigation on T. royleanum in continuation to our ongoing research on this species [9][10][11]. Our current study has led to the isolation of one new royleanumoate, abenzene ester 1. In addition to the new compound 1, some known compounds 3,4-dihydroxymethyl benzoate 2 and oleanolic acid 3 have been isolated for the first time from this species (see Figures 2, 3, and 4).   get a thick gummy extract (850 g). The resultant concentrated extract was then dissolved in water and was subjected to solvent-solvent extraction process using n-hexane, chloroform, and n-butanol.

Material and Methods
The fraction Tb-SA1 was eluted on a silica gel column loaded with initial chloroform-hexane (1 : 1) which on further column chromatography in chloroform-hexane (6.5 : 3.5) provided compound 1 as amorphous solid (7 mg).  The 1 H-NMR spectrum corroborated the presence of one methyl, thirteen methylene, and aromatic groups in the highfield region. In the downfield region of the spectrum two doublets at 6.75 and 7.05 each of two protons integration were assigned to C-2 , C-6 and C-3 , C-5 aromatic protons.  The 13 C-NMR spectrum (BB, DEPT) ( Table 1) showed twenty-one signals, including one methyl, thirteen methylene, four methine, and three quaternary carbons. In the downfield region signals appeared at 130.2, 115.4, 130.04, and 153.8 which were assigned to the C-1 , C-2 , C-6 , C-3 , C-5 , and C-4 of aromatic carbons, while a signal at 173.7 indicated the presence of a carbonyl carbon in the form of ester in the molecule.

Results and Discussion
Similarly, two signals at 34.4 and 64.9 were assigned to the methylene carbons present in between ether oxygen and aromatic ring, while in the upfield region a signal at 14.1 was assigned to the methyl carbon attached at terminal position of the aliphatic chain. The long-range 1 H-13 C connectivities were established through HMBC technique.
On the basis of all the above spectral data and comparison with the analogous structures in the literature [12] the compound 1 was named as royleanumoate. 3,4-Dihydroxymethyl benzoate 2 and oleanolic acid 3 were also isolated for the

Conclusion
One new compound (benzene ester 1) and two known compounds (3,4-dihydroxymethyl benzoate 2 and oleanolic acid 3) have been isolated from T. royleanum Wall. ex Benth. The isolated compounds were confirmed by two-dimensional NMR technique, IR, and mass spectra.