Derleme
BibTex RIS Kaynak Göster

A Review on Antibacterial, Antifungal and Antiviral Activities of Plants Included in the Apiaceae Lindley Family

Yıl 2020, Cilt: 10 Sayı: 2, 163 - 182, 31.12.2020

Öz

Plant extracts are known to take part in various biological activities. In addition, essential oils are widely used for medical applications, as in every century. By compound extraction from plants, terpenes and terpenoids contain various volatile molecules such as phenol-derived aromatic components and aliphatic components that are mostly isolated from aromatic plants. Depending on the type and concentration of these plant components, they exert cytotoxic effects on living cells, but are generally non-toxic. Plant extracts are known to be important in that they contain compounds that showing bioactivity. In this context, the compounds and bioactive properties of some plants included in the Apiaceae family have been investigated in the literature. The Apiacaea family, which contains about 455 genera and 3750 species, is known with its rich compounds in terms of herbal ingredients. Remarkable studies on plants included in the Apiaceae family in the literature have been combined and studies on their bioactivity, antibacterial, antiviral and antifungal properties have been revealed in this rewiev. Bioactivity of plants by included in the Apiaceae family examined in the literature; studies on antibacterial, antiviral and antifungal properties have been tried to be revealed.

Kaynakça

  • Abyshev A. (1974). Coumarin composition of the roots, stems, and fruit of Prangos lophoptera. Chem Nat Comp 10:731–3.
  • Aligiannis, N., Kalpotzakis, E., Mitaku, S., Chinou, I.B., 2001. Composition and antimicrobial activity of the essential oils of two Origanum species. Journal of Agricultural and Food Chemistry 40, 4168–4170.
  • Andrews, R. E., Parks, L. W., & Spence, K. D. (1980). Some effects of Douglas fir terpenes on certain microorganisms. Applied and Environmental Microbiology, 40(2), 301–304.
  • Ashour, M. L., El‐Readi, M., Youns, M., Mulyaningsih, S., Sporer, F., Efferth, T., & Wink, M. (2009). Chemical composition and biological activity of the essential oil obtained from Bupleurum marginatum (Apiaceae). Journal of Pharmacy and Pharmacology, 61(8), 1079-1087.
  • Avijagan, M., Hafizi, M., Saadat, M., Nilforoushzadeh, M. (2006). Antifungal effect of Echinophora platyloba’s extract against Candida albicans, Iranian J. Pharma.Res. 4, 285-289.
  • Avijgan, M., Mahbobi, M., Darabi, M., Saadat, M., Hafizi, M., Nilforshzadeh, M.A (2007). An ovverview on Echinophora platyloba as a weekly antimicrobial but potent antifungal agent, Evidence-based Commp. Altern.Med. 4 (1), 60.
  • Bakkali, F., Averbeck, S., Averbeck, D., & Idaomar, M. (2008). Biological effects of essential oils–A Review. Food And Chemical Toxicology, 46(2), 446-475.
  • Baser, K. H. C., & Kirimer, N. (2014). Essential oils of Anatolian Apiaceae-A profile. Nat. Vol. Essent Oils, 1(1), 1-50.
  • Bisht C, Badoni A. Medicinal strength of some alpine and sub-alpine zones of Western Himalaya India. New York Sci J 2009; 2: 41–46.
  • Burt, S., 2004. Essential oils: their antibacterial properties and potential applications in foods-a review. Int J Food Microbiol 2004; 94: 223-53.
  • Chaiyasit, D., Choochote, W., Rattanachanpichai, E., Chaithong, U., Chaiwong, P., Jitpakdi, A., Tippawangkosol, P., Riyong, D., Pitasawat, B., 2006. Essential oils as potential adulticides against two populations of Aedes aegypti, the laboratory and natural field strains, in Chiang Mai province, northern Thailand. Parasitol. Res. 99, 715– 721.
  • Davis P. H. (Ed.) (1972). Flora of Turkey and the East Aegean Islands, Vol.4, Edinburgh University Press, Edinburgh.
  • Davis, P. H., Mill R. R. & Kit Tan (Eds.) (1988). Flora of Turkey and the East Aegean Islands, Vol.10, Edinburgh University Press, Edinburgh.
  • Delaquis, P.J., Stanich, K., Girard, B., Mazza, G., 2002. Antimicrobial activity of individual and mixed fractions of dill, cilantro, coriander and eucalyptus essential oils. Int. J. Food Microbiol. 74, 101-109.
  • Di Napoli, M., Varcamonti, M., Basile, A., Bruno, M., Maggi, F., & Zanfardino, A. (2019). Anti Pseudomonas aeruginosa activity of hemlock (Conium maculatum, Apiaceae) essential oil. Natural product research, 33(23), 3436-3440.
  • Dick, A. J., Williams, R., Bearne, S. L., and Lidster, P. D. (1985). Quercetin glycosides and chlorogenic acid: inhibitors of apple b-galactosidase and of apple softening. J. Agric. Food Chem. 33, 798-800.
  • Duman, H. & Watson, M.F. (1999). Ekimia, A new genus of Umbelliferae and two new taxa of Prangos Lindl. (Umbelliferae) from Southern Turkey. Edinburgh Journal of Botany, 56(2) 199-209.
  • Elghwaji, W., El-Sayed, A. M., El-Deeb, K. S., & ElSayed, A. M. (2017). Chemical composition, antimicrobial and antitumor potentiality of essential oil of Ferula tingitana L. Apiaceae grow in Libya. Pharmacognosy magazine, 13(Suppl 3), s. 446.
  • Glamoclija, J. M., Sokovic, M. D., Siljegovic, J. D., Ristic, M. S., Ciric, A., & Grubisic, D. V. (2011). Chemical composition and antimicrobial activity of Echinophora spinosa L. (Apiaceae) essential oil. Records of Natural Products, 5(4), 319.
  • Guner, A., Ozhatay, N., Ekim, T. & Başer, K. H. C. (2000). Flora of Turkey and the East Aegean Islands.Supp. 2, Vol.11, Edinburgh University Press, Edinburgh.
  • Hacıoğlu, S. (2006). Bazı Heracleum L. (Umbelliferae) taksonlarında uçucu yağların antimikrobiyal aktivitelerinin incelenmesi An examination of antimicrobial activities of essential oils in some Heracleum L. (Umbelliferae) taxons.
  • Hassan, S. T., Masarčíková, R., & Berchová, K. (2015). Bioactive natural products with anti‐herpes simplex virus properties. Journal of Pharmacy and Pharmacology, 67(10), 1325-1336.
  • Iranshahi M, Fata A, Emami B, Shahri BMJ, Fazly Bazzaz BS (2008). In vitro antifungal activity of polysulfidesrich essential oil of Ferula latisecta fruits against human pathogenic dermatophytes. Nat Prod Commun.; 3:1543-6.
  • Karakaya, S., Göger, G., Kılıç, C. S., & Demirci, B. (2016). Composition of volatile oil of the aerial parts, flowers and roots of Ferulago blancheana Post. (Apiaceae) growing in Turkey and determination of their antimicrobial activities by bioautography method. Turk. J. Pharm. Sci, 13, 173-180.
  • Khaleeq-Uz-Zaman, J. B., Shafı, M., Munır, I. (2018). Phtyto-Chemical Composition, Antimicrobial and Phyto-Toxic Activity of Angelica glauca (Apiaceae). Pak. J. Bot, 50(5), 1893-1898.
  • Khoury, M., El Beyrouthy, M., Eparvier, V., Ouaini, N., & Stien, D. (2018). Chemical diversity and antimicrobial activity of the essential oils of four Apiaceae species growing wild in Lebanon. Journal of Essential Oil Research, 30(1), 25-31.
  • Kosalec, I., Pepeljnjak, S., & Kuštrak, D. (2005). Antifungal activity of fluid extract and essential oil from anise fruits (Pimpinella anisum L., Apiaceae). Acta Pharmaceutica, 55(4), 377-385.
  • Kosalec, I., Pepeljnjak, S., Kustrak, D., 2005. Antifungal activity of fluid extract and essential oil from anise fruits (Pimpinella anisum L., Apiaceae). Acta Pharm. 55, 377–385.
  • Kubo, I., Fujita, K., Kubo, A., Nihei, K., Ogura, T., 2004. Antibacterial activity of coriander volatile compounds against Salmonella choleraesuis. J. Agric. Food Chem. 52, 3329–3332.
  • Kuznetsova G, Danchul TY, Sokolova E, Kuz’mina L. (1979b). Coumarins from the roots of Prangos arcis-romanae, Chem Nat Comp 15:751–2.
  • Luseba, D., Elgorashi, E.E., Ntloedibe, D.T., Van Staden, J., 2007. Antibacterial, anti-inflammatory and mutagenic effects of some medicinal plants used in South Africa for treatment of wounds and retained placenta in livestock. South African Journal of Botany 73, 378–383.
  • Marongiu, B., Piras, A., Porcedda, S., Falconieri, D., Frau, M. A., Maxia, A., Salgueiro, L. (2012). Antifungal activity and chemical composition of essential oils from Smyrnium olusatrum L. (Apiaceae) from Italy and Portugal. Natural product research, 26(11), 993-1003.
  • Marston, A., Hostettmann, K., & Msonthi, J. D. (1995). Isolation of antifungal and larvicidal constituents of Diplolophium buchanani by centrifugal partition chromatography. Journal of Natural Products, 58(1), 128–130.
  • Matejić, J. S., Stojanović-Radić, Z. Z., Krivošej, Z. Đ., Zlatković, B. K., Marin, P. D., & Džamić, A. M. (2019). Biological activity of extracts and essential oils of two Eryngium (Apiaceae) species from the Balkan peninsula. Acta Medica Medianae, 58(3), 24-31.
  • Mulaudzi, R. B., Ndhlala, A. R., Finnie, J. F., & Van Staden, J. 2009. Antimicrobial, anti-inflammatory and genotoxicity activity of Alepidea amatymbica and Alepidea natalensis (Apiaceae). South African Journal of Botany, 75(3), 584-587.
  • Narasimhan, B., & Dhake, A. S. (2006). Antibacterial principles from Myristica fragrans seeds. Journal of Medicinal Food, 9(3), 395–399.
  • Ozhatay, N., Akalın, E., Ozhatay, E. & Unlu, S. (2009). Rare and endemic Taxa of Apiaceae in Turkey and their Conservation Significance. Journal of Faculty of Pharmacy Istanbul 40 (2008‐2009), 1-15.
  • Ozhatay, N., Kultur, Ş. & Aksoy, N. (1994), Checklist of additional taxa to the supplement flora of Turkey, Turkish Journal of Botany, 18, 497-514.
  • Ozhatay, N., Kultur, Ş. & Aksoy, N. (1999). Checklist of additional taxa to the supplement flora of Turkey II, Turkish Journal of Botany, 23, 151-169.
  • Pavlović, I., Petrović, S., Radenković, M., Milenković, M., Couladis, M., Branković, S., Niketić, M. (2012). Composition, antimicrobial, antiradical and spasmolytic activity of Ferula heuffelii Griseb. ex Heuffel (Apiaceae) essential oil. Food chemistry, 130 (2), 310-315.
  • Pimenov, M.G., Leonov, M.V. (1993). The Genera of the Umbelliferae. Royal Botanic Gardens, Kew.
  • Pitasawat, B., Champakaew, D., Choochote, W., Jitpakdi, A., Chaithong, U., Kanjanapothi, D., Rattanachanpichai, E., Tippawangkosol, P., Riyong, D., Tuetun, B., Chaiyasit, D., 2007. Aromatic plant-derived essential oil: An alternative larvicide for mosquito control. Fitoterapia 78, 205–210.
  • Rajtar, B., Skalicka-Woźniak, K., Świątek, Ł., Stec, A., Boguszewska, A., & Polz-Dacewicz, M. (2017). Antiviral effect of compounds derived from Angelica archangelica L. on Herpes simplex virüs 1 and Coxsackievirus B3 infections. Food and Chemical Toxicology, 109, 1026-1031.
  • Razavi, S. M. (2011). Plant coumarins as allelopathic agents. International Journal of Biological Chemistry, 5 (1), 86-90.
  • Rossi, P. G., Bao, L., Luciani, A., Panighi, J., Desjobert, J. M., Costa, J., et al. (2007). (E) Methylisoeugenol and elemicin: antibacterial components of Daucus carota L. Essential oil against Campylobacter jejuni. Journal of Agricultural and Food Chemistry, 55 (18), 7332–7336.
  • Sahebkar, A., Iranshahi, M. 2010. Biological activities of essential oils from the genus Ferula (Apiaceae). Asian Biomedicine, 4 (6), 835-847.
  • Sekizawa, J., Shibamoto, T., 1982. Genotoxicity of safrole related chemicals in microbial test systems. Mutat. Res. 101, 127–140.
  • Senatore, F., Napolitano, F., & Ozcan, M. (2000). Composition and antibacterial activity of the essential oil from Crithmum maritimum L. (Apiaceae) growing wild in Turkey. Flavour and fragrance journal, 15 (3), 186-189.
  • Sharopov, F. S., Khalifaev, P. D., Satyal, P., Sun, Y., Safomuddin, A., Musozoda, S., & Setzer, W. N. (2019). The Chemical Composition and Biological Activity of the Essential Oil from the Underground Parts of Ferula tadshikorum (Apiaceae). Records of Natural Products, 13 (1), 18-23.
  • Shikishima Y, Takaishi Y, Honda G, et al. (2001). Chemical constituents of Prangos tschimganica; Structure elucidation and absolute configuration of coumarin and furanocoumarin derivatives with anti-HIV activity. Chem Pharm Bull 49:877–80.
  • Shokoohinia, Y., Sajjadi, S. E., Gholamzadeh, S., Fattahi, A., & Behbahani, M. (2014). Antiviral and cytotoxic evaluation of coumarins from Prangos ferulacea. Pharmaceutical biology, 52 (12), 1543-1549.
  • Singh, G., Kapoor, I.P., Pandey, S.K., Singh, U.K., Singh, R.K., 2002. Studies on essential oils: part 10; antibacterial activity of volatile oils of some spices. Phytother. Res. 16, 680–682.
  • Syed, M., Chaudhary, F.M., Bhatty, M.K. (1989). Antimicrobial Activity of the Essential Oils of Umbelliferae Family. Part III. Seseli libanotis, Ligusticum stewartii and Pycnocycla aucheriana Oils Pak. J. Sci. Ind. Res., 32 (5), 316-319 .
  • Thiem, B., Goslinska, O., Kikowska, M., Budzianowski, J. (2010). Antimicrobial activity of three Eryngium L. species (Apiaceae). Herba polonica, 56 (4).
  • Tkachenko, K.G. (2006). Antiviral activity of the essential oils of some Heracleum L. species, Journal of Herbs, Spices and Medicinal Plants, 3, 1-12.
  • Vieira, J. N., Gonçalves, C. L., Villarreal, J. P. V., Gonçalves, V. M., Lund, R. G., Freitag, R. A., Nascente, P. S. (2019). Chemical composition of essential oils from the apiaceae family, cytotoxicity, and their antifungal activity in vitro against candida species from oral cavity. Brazilian Journal of Biology, 79 (3), 432-437.
  • Wanner, J., Bail, S., Jirovetz, L., Buchbauer, G., Schmidt, E., Gochev, V., & Stoyanova, A. (2010). Chemical composition and antimicrobial activity of cumin oil (Cuminum cyminum, Apiaceae). Natural product communications, 5 (9).
  • Zhou, P., Takaishi Y, Duan H, et al. (2000). Coumarins and bicoumarin from Ferula sumbul: Anti-HIV activity and inhibition of cytokine release. Phytochemistry 53: 689–97.

Apiaceae Lindley Familyasına Dâhil Bitkilerin Antibakteriyal, Antifungal ve Antiviral Aktiviteleri Üzerine Bir Derleme

Yıl 2020, Cilt: 10 Sayı: 2, 163 - 182, 31.12.2020

Öz

Bitki ekstraktları çeşitli biyolojik aktivitelerde görev aldığı bilinmektedir. Bunun yanında uçucu yağlar, her yüzyılda olduğu gibi tıbbi uygulamalar için yaygın olarak kullanılmaktadır. Bitkilerden bileşik ekstraksiyonu ile, terpenler ve terpenoidler, fenol türevi aromatik bileşenler ve çoğunlukla aromatik bitkilerden damıtılan alifatik bileşenler gibi çeşitli uçucu moleküller içerirler. Tipine ve konsantrasyonuna bağlı olarak, canlı hücreler üzerinde sitotoksik etkiler gösterirler, ancak genellikle toksik değildirler. Bitki ekstraktları biyolojik akitivite gösteren bileşikler içermesi bakımndan önemli olduğu bilinmektedir. Bu bağlamda literatürde Apiaceae familyasına dahil bazı bitkilerin bileşikleri ve biyoaktif özellikleri incelenmiştir. Yaklaşık 455 cins ve 3750 tür içeren Apiacaea familyası bitkisel içerikleri bakımından zengin bileşikleri ile bilinmektedir. Literatürde incelenen Apiaceae familyasına dahil bitkiler üzerine dikkat çekici çalışmalar bir araya getirilerek bu familya bitkilerinin biyoaktivitesi; antibakteriyel, antiviral ve antifungal özellikleri üzerine çalışmalar ortaya konmaya çalışılmıştır.

Kaynakça

  • Abyshev A. (1974). Coumarin composition of the roots, stems, and fruit of Prangos lophoptera. Chem Nat Comp 10:731–3.
  • Aligiannis, N., Kalpotzakis, E., Mitaku, S., Chinou, I.B., 2001. Composition and antimicrobial activity of the essential oils of two Origanum species. Journal of Agricultural and Food Chemistry 40, 4168–4170.
  • Andrews, R. E., Parks, L. W., & Spence, K. D. (1980). Some effects of Douglas fir terpenes on certain microorganisms. Applied and Environmental Microbiology, 40(2), 301–304.
  • Ashour, M. L., El‐Readi, M., Youns, M., Mulyaningsih, S., Sporer, F., Efferth, T., & Wink, M. (2009). Chemical composition and biological activity of the essential oil obtained from Bupleurum marginatum (Apiaceae). Journal of Pharmacy and Pharmacology, 61(8), 1079-1087.
  • Avijagan, M., Hafizi, M., Saadat, M., Nilforoushzadeh, M. (2006). Antifungal effect of Echinophora platyloba’s extract against Candida albicans, Iranian J. Pharma.Res. 4, 285-289.
  • Avijgan, M., Mahbobi, M., Darabi, M., Saadat, M., Hafizi, M., Nilforshzadeh, M.A (2007). An ovverview on Echinophora platyloba as a weekly antimicrobial but potent antifungal agent, Evidence-based Commp. Altern.Med. 4 (1), 60.
  • Bakkali, F., Averbeck, S., Averbeck, D., & Idaomar, M. (2008). Biological effects of essential oils–A Review. Food And Chemical Toxicology, 46(2), 446-475.
  • Baser, K. H. C., & Kirimer, N. (2014). Essential oils of Anatolian Apiaceae-A profile. Nat. Vol. Essent Oils, 1(1), 1-50.
  • Bisht C, Badoni A. Medicinal strength of some alpine and sub-alpine zones of Western Himalaya India. New York Sci J 2009; 2: 41–46.
  • Burt, S., 2004. Essential oils: their antibacterial properties and potential applications in foods-a review. Int J Food Microbiol 2004; 94: 223-53.
  • Chaiyasit, D., Choochote, W., Rattanachanpichai, E., Chaithong, U., Chaiwong, P., Jitpakdi, A., Tippawangkosol, P., Riyong, D., Pitasawat, B., 2006. Essential oils as potential adulticides against two populations of Aedes aegypti, the laboratory and natural field strains, in Chiang Mai province, northern Thailand. Parasitol. Res. 99, 715– 721.
  • Davis P. H. (Ed.) (1972). Flora of Turkey and the East Aegean Islands, Vol.4, Edinburgh University Press, Edinburgh.
  • Davis, P. H., Mill R. R. & Kit Tan (Eds.) (1988). Flora of Turkey and the East Aegean Islands, Vol.10, Edinburgh University Press, Edinburgh.
  • Delaquis, P.J., Stanich, K., Girard, B., Mazza, G., 2002. Antimicrobial activity of individual and mixed fractions of dill, cilantro, coriander and eucalyptus essential oils. Int. J. Food Microbiol. 74, 101-109.
  • Di Napoli, M., Varcamonti, M., Basile, A., Bruno, M., Maggi, F., & Zanfardino, A. (2019). Anti Pseudomonas aeruginosa activity of hemlock (Conium maculatum, Apiaceae) essential oil. Natural product research, 33(23), 3436-3440.
  • Dick, A. J., Williams, R., Bearne, S. L., and Lidster, P. D. (1985). Quercetin glycosides and chlorogenic acid: inhibitors of apple b-galactosidase and of apple softening. J. Agric. Food Chem. 33, 798-800.
  • Duman, H. & Watson, M.F. (1999). Ekimia, A new genus of Umbelliferae and two new taxa of Prangos Lindl. (Umbelliferae) from Southern Turkey. Edinburgh Journal of Botany, 56(2) 199-209.
  • Elghwaji, W., El-Sayed, A. M., El-Deeb, K. S., & ElSayed, A. M. (2017). Chemical composition, antimicrobial and antitumor potentiality of essential oil of Ferula tingitana L. Apiaceae grow in Libya. Pharmacognosy magazine, 13(Suppl 3), s. 446.
  • Glamoclija, J. M., Sokovic, M. D., Siljegovic, J. D., Ristic, M. S., Ciric, A., & Grubisic, D. V. (2011). Chemical composition and antimicrobial activity of Echinophora spinosa L. (Apiaceae) essential oil. Records of Natural Products, 5(4), 319.
  • Guner, A., Ozhatay, N., Ekim, T. & Başer, K. H. C. (2000). Flora of Turkey and the East Aegean Islands.Supp. 2, Vol.11, Edinburgh University Press, Edinburgh.
  • Hacıoğlu, S. (2006). Bazı Heracleum L. (Umbelliferae) taksonlarında uçucu yağların antimikrobiyal aktivitelerinin incelenmesi An examination of antimicrobial activities of essential oils in some Heracleum L. (Umbelliferae) taxons.
  • Hassan, S. T., Masarčíková, R., & Berchová, K. (2015). Bioactive natural products with anti‐herpes simplex virus properties. Journal of Pharmacy and Pharmacology, 67(10), 1325-1336.
  • Iranshahi M, Fata A, Emami B, Shahri BMJ, Fazly Bazzaz BS (2008). In vitro antifungal activity of polysulfidesrich essential oil of Ferula latisecta fruits against human pathogenic dermatophytes. Nat Prod Commun.; 3:1543-6.
  • Karakaya, S., Göger, G., Kılıç, C. S., & Demirci, B. (2016). Composition of volatile oil of the aerial parts, flowers and roots of Ferulago blancheana Post. (Apiaceae) growing in Turkey and determination of their antimicrobial activities by bioautography method. Turk. J. Pharm. Sci, 13, 173-180.
  • Khaleeq-Uz-Zaman, J. B., Shafı, M., Munır, I. (2018). Phtyto-Chemical Composition, Antimicrobial and Phyto-Toxic Activity of Angelica glauca (Apiaceae). Pak. J. Bot, 50(5), 1893-1898.
  • Khoury, M., El Beyrouthy, M., Eparvier, V., Ouaini, N., & Stien, D. (2018). Chemical diversity and antimicrobial activity of the essential oils of four Apiaceae species growing wild in Lebanon. Journal of Essential Oil Research, 30(1), 25-31.
  • Kosalec, I., Pepeljnjak, S., & Kuštrak, D. (2005). Antifungal activity of fluid extract and essential oil from anise fruits (Pimpinella anisum L., Apiaceae). Acta Pharmaceutica, 55(4), 377-385.
  • Kosalec, I., Pepeljnjak, S., Kustrak, D., 2005. Antifungal activity of fluid extract and essential oil from anise fruits (Pimpinella anisum L., Apiaceae). Acta Pharm. 55, 377–385.
  • Kubo, I., Fujita, K., Kubo, A., Nihei, K., Ogura, T., 2004. Antibacterial activity of coriander volatile compounds against Salmonella choleraesuis. J. Agric. Food Chem. 52, 3329–3332.
  • Kuznetsova G, Danchul TY, Sokolova E, Kuz’mina L. (1979b). Coumarins from the roots of Prangos arcis-romanae, Chem Nat Comp 15:751–2.
  • Luseba, D., Elgorashi, E.E., Ntloedibe, D.T., Van Staden, J., 2007. Antibacterial, anti-inflammatory and mutagenic effects of some medicinal plants used in South Africa for treatment of wounds and retained placenta in livestock. South African Journal of Botany 73, 378–383.
  • Marongiu, B., Piras, A., Porcedda, S., Falconieri, D., Frau, M. A., Maxia, A., Salgueiro, L. (2012). Antifungal activity and chemical composition of essential oils from Smyrnium olusatrum L. (Apiaceae) from Italy and Portugal. Natural product research, 26(11), 993-1003.
  • Marston, A., Hostettmann, K., & Msonthi, J. D. (1995). Isolation of antifungal and larvicidal constituents of Diplolophium buchanani by centrifugal partition chromatography. Journal of Natural Products, 58(1), 128–130.
  • Matejić, J. S., Stojanović-Radić, Z. Z., Krivošej, Z. Đ., Zlatković, B. K., Marin, P. D., & Džamić, A. M. (2019). Biological activity of extracts and essential oils of two Eryngium (Apiaceae) species from the Balkan peninsula. Acta Medica Medianae, 58(3), 24-31.
  • Mulaudzi, R. B., Ndhlala, A. R., Finnie, J. F., & Van Staden, J. 2009. Antimicrobial, anti-inflammatory and genotoxicity activity of Alepidea amatymbica and Alepidea natalensis (Apiaceae). South African Journal of Botany, 75(3), 584-587.
  • Narasimhan, B., & Dhake, A. S. (2006). Antibacterial principles from Myristica fragrans seeds. Journal of Medicinal Food, 9(3), 395–399.
  • Ozhatay, N., Akalın, E., Ozhatay, E. & Unlu, S. (2009). Rare and endemic Taxa of Apiaceae in Turkey and their Conservation Significance. Journal of Faculty of Pharmacy Istanbul 40 (2008‐2009), 1-15.
  • Ozhatay, N., Kultur, Ş. & Aksoy, N. (1994), Checklist of additional taxa to the supplement flora of Turkey, Turkish Journal of Botany, 18, 497-514.
  • Ozhatay, N., Kultur, Ş. & Aksoy, N. (1999). Checklist of additional taxa to the supplement flora of Turkey II, Turkish Journal of Botany, 23, 151-169.
  • Pavlović, I., Petrović, S., Radenković, M., Milenković, M., Couladis, M., Branković, S., Niketić, M. (2012). Composition, antimicrobial, antiradical and spasmolytic activity of Ferula heuffelii Griseb. ex Heuffel (Apiaceae) essential oil. Food chemistry, 130 (2), 310-315.
  • Pimenov, M.G., Leonov, M.V. (1993). The Genera of the Umbelliferae. Royal Botanic Gardens, Kew.
  • Pitasawat, B., Champakaew, D., Choochote, W., Jitpakdi, A., Chaithong, U., Kanjanapothi, D., Rattanachanpichai, E., Tippawangkosol, P., Riyong, D., Tuetun, B., Chaiyasit, D., 2007. Aromatic plant-derived essential oil: An alternative larvicide for mosquito control. Fitoterapia 78, 205–210.
  • Rajtar, B., Skalicka-Woźniak, K., Świątek, Ł., Stec, A., Boguszewska, A., & Polz-Dacewicz, M. (2017). Antiviral effect of compounds derived from Angelica archangelica L. on Herpes simplex virüs 1 and Coxsackievirus B3 infections. Food and Chemical Toxicology, 109, 1026-1031.
  • Razavi, S. M. (2011). Plant coumarins as allelopathic agents. International Journal of Biological Chemistry, 5 (1), 86-90.
  • Rossi, P. G., Bao, L., Luciani, A., Panighi, J., Desjobert, J. M., Costa, J., et al. (2007). (E) Methylisoeugenol and elemicin: antibacterial components of Daucus carota L. Essential oil against Campylobacter jejuni. Journal of Agricultural and Food Chemistry, 55 (18), 7332–7336.
  • Sahebkar, A., Iranshahi, M. 2010. Biological activities of essential oils from the genus Ferula (Apiaceae). Asian Biomedicine, 4 (6), 835-847.
  • Sekizawa, J., Shibamoto, T., 1982. Genotoxicity of safrole related chemicals in microbial test systems. Mutat. Res. 101, 127–140.
  • Senatore, F., Napolitano, F., & Ozcan, M. (2000). Composition and antibacterial activity of the essential oil from Crithmum maritimum L. (Apiaceae) growing wild in Turkey. Flavour and fragrance journal, 15 (3), 186-189.
  • Sharopov, F. S., Khalifaev, P. D., Satyal, P., Sun, Y., Safomuddin, A., Musozoda, S., & Setzer, W. N. (2019). The Chemical Composition and Biological Activity of the Essential Oil from the Underground Parts of Ferula tadshikorum (Apiaceae). Records of Natural Products, 13 (1), 18-23.
  • Shikishima Y, Takaishi Y, Honda G, et al. (2001). Chemical constituents of Prangos tschimganica; Structure elucidation and absolute configuration of coumarin and furanocoumarin derivatives with anti-HIV activity. Chem Pharm Bull 49:877–80.
  • Shokoohinia, Y., Sajjadi, S. E., Gholamzadeh, S., Fattahi, A., & Behbahani, M. (2014). Antiviral and cytotoxic evaluation of coumarins from Prangos ferulacea. Pharmaceutical biology, 52 (12), 1543-1549.
  • Singh, G., Kapoor, I.P., Pandey, S.K., Singh, U.K., Singh, R.K., 2002. Studies on essential oils: part 10; antibacterial activity of volatile oils of some spices. Phytother. Res. 16, 680–682.
  • Syed, M., Chaudhary, F.M., Bhatty, M.K. (1989). Antimicrobial Activity of the Essential Oils of Umbelliferae Family. Part III. Seseli libanotis, Ligusticum stewartii and Pycnocycla aucheriana Oils Pak. J. Sci. Ind. Res., 32 (5), 316-319 .
  • Thiem, B., Goslinska, O., Kikowska, M., Budzianowski, J. (2010). Antimicrobial activity of three Eryngium L. species (Apiaceae). Herba polonica, 56 (4).
  • Tkachenko, K.G. (2006). Antiviral activity of the essential oils of some Heracleum L. species, Journal of Herbs, Spices and Medicinal Plants, 3, 1-12.
  • Vieira, J. N., Gonçalves, C. L., Villarreal, J. P. V., Gonçalves, V. M., Lund, R. G., Freitag, R. A., Nascente, P. S. (2019). Chemical composition of essential oils from the apiaceae family, cytotoxicity, and their antifungal activity in vitro against candida species from oral cavity. Brazilian Journal of Biology, 79 (3), 432-437.
  • Wanner, J., Bail, S., Jirovetz, L., Buchbauer, G., Schmidt, E., Gochev, V., & Stoyanova, A. (2010). Chemical composition and antimicrobial activity of cumin oil (Cuminum cyminum, Apiaceae). Natural product communications, 5 (9).
  • Zhou, P., Takaishi Y, Duan H, et al. (2000). Coumarins and bicoumarin from Ferula sumbul: Anti-HIV activity and inhibition of cytokine release. Phytochemistry 53: 689–97.
Toplam 58 adet kaynakça vardır.

Ayrıntılar

Birincil Dil Türkçe
Bölüm Derleme Makale
Yazarlar

Uğur Kaval 0000-0003-4049-9144

Özlem Tonçer 0000-0001-5273-8101

Yayımlanma Tarihi 31 Aralık 2020
Gönderilme Tarihi 25 Mayıs 2020
Kabul Tarihi 24 Aralık 2020
Yayımlandığı Sayı Yıl 2020 Cilt: 10 Sayı: 2

Kaynak Göster

APA Kaval, U., & Tonçer, Ö. (2020). Apiaceae Lindley Familyasına Dâhil Bitkilerin Antibakteriyal, Antifungal ve Antiviral Aktiviteleri Üzerine Bir Derleme. Batman Üniversitesi Yaşam Bilimleri Dergisi, 10(2), 163-182.