THE PORIFERASTA COMPOUND-5,22E,25-TRIEN-3-Oβ FROM Clerodendrum paniculatum LEAF AS INDUCER AGENT OF SYSTEMIC RESISTANCE ON RED CHILLI PLANT Capsicum annuum L FROM CUCUMBER MOSAIC VIRUS (CMV)

https://doi.org/10.22146/ijc.21521

Weny Musa(1*), Hersanti Hersanti(2), Achmad Zainuddin(3), Roekmi-ati Tjokronegoro(4)

(1) Department of Chemistry, Faculty of Mathematics and Science, State University of Gorontalo, 96114, Kotamadya Gorontalo
(2) Department of Pest and Plant Disease, Faculty of Farming, Padjadjaran University, Jatinangor 45643, Sumedang
(3) Department of Chemistry, Faculty of Mathematics and Science, Padjadjaran University, Jatinangor 45643, Sumedang
(4) Department of Chemistry, Faculty of Mathematics and Science, Padjadjaran University, Jatinangor 45643, Sumedang
(*) Corresponding Author

Abstract


The poriferasta-5.22E.25-trien-3β-ol compound of leaves of this plant Clerodendrum paniculatum has activity as an inducer agent of plant systemic resistance of red plant toward Cucumber Mosaic Viruses (CMV), the inhibition activity compound shows 82% inhibition activity at 300 ppm. The structure of these compound were determined on the basis of spectroscopic data including UV, IR, 1H-NMR, 13C-NMR and 2D-NMR


Keywords


Poriferasta-5.22E.25-trien-3β-ol; Clerodendrum paniculatum; induction of systemic resistance; CMV

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References

[1] Hsu, Y.C., Chen, C., Yuh, P., and Hsu, H.Y., 1983, albiflorum Hemsl., 21, 26.

[2] Hersanti, 2004, Bionatura, 6, 3, 285-293.

[3] Verma, H.N., Shalini, S., Varsha, and Dhirendra, K., 1996, Phytopathology, 86, 5, 485-492.

[4] Vivek, P., Shalini, S., Varsha., and Verma, H.N., 1995, Plant Sci., 110, 73-82.

[5] Fabiola, O., Vivek, P., Paola, Valbonesi, and Shalini, S., 1996, FEBS Lett., 396, 132-134.

[6] Shelly, P., Savarni, T., and Anupam, V., 2001, Plant Sci., 161, 453-459.

[7] Dolores, L.M., 1996, Management of Pepper Viruses, AVNET–II Final Workshop Proceedings, AVDRC, Tainan, Taiwan, 334-342.

[8] Louws, F. J., Mary, K.H., John, F.K., and Cristine, T.S., 1996, Plant Dis., 80, 1251-1256.

[9] Sribash, R., Sadhana, P., Begum, M., Kumar, S., Lodha, M.L., and Kapoor, H.C., 2006, Phytochem., 67, 17, 1865-1873.

[10] Tian-ying, An., Run-qiu, H., Zhao, Y., Dian-kun, Z., Guang-ren, L., Yu-cheng, Y., and Jun, G., 2001, Phytochem., 57, 7, 1135-1139.

[11] Joaquin, F., Maria, B.J., Pilar, L-G.M., Jaime, P., and Vicente, C., 2006, Phytochem., 67, 142-148.

[12] Xiaoming, Z., Xiaoping, S., Yuguang, D., and Xinmiao, L., 2007, Pestic. Biochem. Physiol., 87, 78-84.

[13] Pratul, G., Jibon, K., Ze-Nai, C., and Yang, L., 1995, Phytochem., 41, 1, 279-281.



DOI: https://doi.org/10.22146/ijc.21521

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