Bandara KA, Kumar V, Jacobsson U, Molleyres LP (2000). Insecticidal piperidine alkaloid from Microcos paniculata stem bark. Phytochem 54: 29-32.
Baytop T (1999). Türkiye'de Bitkilerle Tedavi (Geçmişte ve Bugün). Nobel Tip Kitabevleri Ltd, Turkey.
Cantrell CL, Jones AMP, Ali A (2016). Isolation and Identification of Mosquito (Aedes aegypti) Biting Deterrent Compounds from the Native American Folk Remedy Plant Hierochloë odorata (Sweetgrass). J Agric Food Chem 64: 8352-8358.
Carroll JF, Demirci B, Kramer M, Bernier UR, Agramonte NM, Baser KHC, Tabanca N (2017). Repellency of the Origanum onites L. essential oil and constituents to the lone star tick and yellow fever mosquito. Nat Prod Res 31: 2192-2197.
Chanakul W, Tuchinda P, Anatachoke N, Pohmakotr M, Piyachaturawat P, Jariyawat S, Suksen K, Jaipetch T, Nuntasaen N, Reutrakul V (2011). Cytotoxic alkaloids from stems, leaves and twigs of Dasymaschalon blumei. Fitoterapia 82: 964-968.
Chantawee A, Soonwera M (2018). Efficacies of four plant essential oils as larvicide, pupicide and oviposition deterrent agents against dengue fever mosquito, Aedes aegypti Linn. (Diptera: Culicidae). Asian Pac J Trop Biomed 8: 217-225.
Csupor D, Forgo P, Zupko I, Szabo P, Hohmann J (2007). Anthranoyl-substituted Norditerpene Alkaloids from Aconitum vulparia Rchb. and Their Cytotoxic Activities. Z Naturforsch 62b: 135-141.
De Ines C, Reina M, Gavin JA, Gonzalez-Coloma A (2006). In vitro Cytotoxicity of Norditerpenoid Alkaloids. Z Naturforsch 61c: 11-18.
Dias CN, Silva de Mesquita LS, Coutinho DF, Malik S (2017). Plant Derived Essential Oils Against Aedes aegypti L. and Their Biotechnological Production. In: Ghorbanpour M, Varma A (eds.) Medicinal Plants and Environmental Challenges. Springer, Cham.
Diesel B, Ripoche N, Risch RT, Tierling S, Walter J, Kiemer AK (2011). Inflammation-induced up-regulation of TLR2 expression in human endothelial cells is independent of differential methylation in the TLR2 promoter CpG island. Innate Immun 18: 112–123.
Durust N, Bozan B, Ozden S, Durust Y, Baser KHC (1999). The Quantitative Determination of Some Phenolic Acids in Delphinium formosum by HPLC. Anal Lett 32: 2841-2849.
Garcez WS, Garcez FR, de Silva LMGE, Hamerski L (2009). Larvicidal activity against Aedes aegypti of some plants native to the West-Central region of Brazil. Bioresour Technol 100: 6647-6650.
Gonzalez-Comola A, Reina M, Guadano A, Martinez-Diaz R, Diaz JG, Garcia-Rodrigez J, Alva A, Grandez M (2004). Antifeedant C20 Diterpene Alkaloids. Chem Biodivers 1: 1327-1335.
Hiller K, Melzig MF (2006). Lexikon der Arzneipflanzen und Drogen. 3th ed, Area Verlag, Germany.
Kamaraj C, Rahuman AA, Mahapatra A, Bagavan A, Elango G (2010). Insecticidal and larvicidal activities of medicinal plant extracts against mosquitoes. Parasitol Res 107: 1337-1349.
Kessler SM, Pokorny J, Zimmer V, Laggai S, Lammert F, Bohle RM, Kiemer AK (2013). IGF2 mRNA binding protein p62/IMP2-2 in hepatocellular carcinoma: antiapoptotic action is independent of IGF2/PI3K signaling. Am J Physiol Gastrointest Liver Physiol 304: 328-336.
Kiemer AK, Weber NC, Fürst R, Bildner N, Kulhanek-Heinze S, Vollmar AM (2002). Inhibition of p38 MAPK Activation via Induction of MKP-1 Atrial Natriuretic Peptide Reduces TNF-–Induced Actin Polymerization and Endothelial Permeability. Circ Res 90: 874-881.
Kukel CF, Jennings KR (1994). Delphinium alkaloids as inhibitors of a-bungarotoxin binding to rat and insect neural membranes. Can J Physiol Phamacol 72: 104-107.
Kumar S, Wahab N, Mishra M, Warikoo R (2012). Evaluation of 15 Local Plant Species as Larvicidal Agents Against an Indian Strain of Dengue Fever Mosquito, Aedes aegypti L. (Diptera: Culicidae). Front Physiol 3: 1-6.
Liu ZL, Liu QZ, Du SS, Deng ZW (2012). Mosquito larvicidal activity of alkaloids and limonoids derived from Evodia rutaecarpa unripe fruits against Aedes albopictus (Diptera: Culicidae). Parasitol Res 111: 991-996.
Liu F, Tan X, Han X, Li X, Li N, Kang W (2017). Cytotoxicity of Aconitum alkaloid and its interaction with calf thymus DNA by multi-spectroscopic techniques. Scientific Reports 7 Article 14509 doi:10.1038/s41598-017-15240-9.
Lu J-J, Bao J-L, Chen X-P, Huang M, Wang Y-T (2012). Alkaloids Isolated from Natural Herbs as the Anticancer Agents. Evid.-Based Complementary Altern Med Article ID 485042 doi: http://dx.doi.org/10.1155/2012/485042
Maheswaran R, Ignacimuthu S (2012). A novel herbal formulation against dengue vector mosquitoes Aedes aegypti and Aedes albopictus. Parasitol Res 110: 1801-1813.
Masi M, van der Westhuyzen AE, Tabanca N, Evidente M, Cimmino A, Green IR, Bernier UR, Bencel JJ, Bloomquist JR, Otterlo, WAL, Evidente A (2017). Sarniensine, a mesembrine-type alkaloid isolated from Nerine sarniensis, an indigenous South African Amaryllidaceae, with larvicidal and adulticidal activities against Aedes aegypti. Fitoterapia 116: 34-38.
Masi M, Cala A, Tabanca N, Cimmino A, Green IR, Bloomquist JR, van Otterlo WAL, Maacias FA, Evidente A (2016). Alkaloids with Activity against the Zika Virus Vector Aedes aegypti (L.) - Crinsarnine and Sarniensinol, Two New Crinine and Mesembrine Type Alkaloids Isolated from the South African Plant Nerine sarniensis. Molecules 21: 1432.
Masi M, Cimmino A, Tabanca N, Becnel JJ, Bloomquist JR, Evidente A (2017). A survey of bacterial, fungal and plant metabolites against Aedes aegypti (Diptera: Culicidae), the vector of yellow and dengue fevers and Zika virus. Open Chem 15: 156-166.
Mericli F, Mericli AH, Becker H, Ulubelen A, Özden S, Dürüst N, Tanker M (1996). Norditerpenoid Alkaloids From Delphinium formosum. Phytochemistry 42: 1249-1251.
Mosmann T (1983). Rapid Colorimetric Assay for Cellular Growth and Survival: Application to Proliferation and Cytotoxicity Assays. J Immunol Methods 65: 55-63.
Nugroho AE, Akbar FF, Wiyani A, Sudarsono (2015). Cytotoxic Effect and Constituent Profile of Alkaloid Fractions from Ethanolic Extract of Ficus septica Burm. f. Leaves on T47D Breast Cancer Cells. Asian Pac J Cancer Prev 16: 7337-7342.
Pitarokili D, Michaelakis A, Koliopoulos G, Giatropoulos A, Tzakou O (2011). Chemical composition, larvicidal evaluation, and adult repellency of endemic Greek Thymus essential oils against the mosquito vector of West Nile virus. Parasitol Res 109: 425-430.
Pridgeon JW, Pereira RM, Becnel JJ, Allan SA, Clark GG, Linthicum KJ (2008). Susceptibility of Aedes aegypti, Culex quinquefasciatus Say, and Anopheles quadrimaculatus Say to 19 Pesticides with Different Modes of Action. J Med Entomol 45: 82-87.
Reegan AD, Gandhi MR, Paulraj MG, Ignacimuthu S (2015). Ovicidal and Oviposition Deterrent Activities of Medicinal Plant Extracts Against Aedes aegypti L. and Culex quinquefasciatus Say Mosquitoes (Diptera: Culicidae). Osong Public Health Res Perspect 6: 64-69.
Reina M, Gonzalez-Coloma A (2007). Structural diversity and defensive properties of diterpenoid alkaloids. Phytochem Rev 6:81–95.
Sen-Utsukarci B, Zapp J, Kiemer AK, Mericli AH (2018). A Reinvestigation of Norditerpenoid Alkaloids from the Roots of Delphinium formosum. Chem Nat Compd 54: 405-406.
Stappen I, Tabanca N, Ali A, Wanner J, Lal B, Jaitak V, Wedge DE, Kaul VK, Schmidt E, Jirovetz L (2018). Antifungal and repellent activities of the essential oils from three aromatic herbs from western Himalaya Open Chem 16: 306-316.
Tabanca N, Ali Z, Bernier UR, Epsky N, Nalbantsoy A, Khan IA, Ali A (2018). Bioassay-guided isolation and identification of Aedes aegypti larvicidal and biting deterrent compounds from Veratrum lobelianum. Open Chem 16: 324-332.
Tabanca N, Tsikolia M, Ozek G, Ozek T, Ali A, Bernier UR, Duran A, Baser KHC, Kahn IA (2016a). The Identification of Suberosin from Prangos pabularia Essential Oil and Its Mosquito Activity Against Aedes aegypti. Rec Nat Prod 10: 311-325.
Tabanca N, Bernier UR, Agramonte NM, Tsikolia M, Bloomquist JR (2016b). Discovery of Repellents from Natural Products. Curr Org Chem 20: 2690-2702.
Tabanca N, Avonto C, Wang M, Parcher JF, Ali A, Demirci B, Raman V, Khan IA (2013a). Comparative Investigation of Umbellularia californica and Laurus nobilis Leaf Essential Oils and Identification of Constituents Active against Aedes aegypti. J Agric Food Chem 61: 12283-12291.
Tabanca N, Benrier UR, Ali A, Wang M, Demirci B, Blythe EK, Khan SI, Baser KHC, Khan IA (2013b). Bioassay-Guided Investigation of Two Monarda Essential Oils as Repellents of Yellow Fever Mosquito Aedes aegypti. J Agric Food Chem 61: 8573-8580.
Tanker M, Ozden S (1975). Delphinium formosum Boiss et Huet Bitkisinin Alkaloitleri Yonunden Kimyasal Arastirmalar. J Fac Pharm Ankara 5: 113-139.
Ulubelen, A., Mericli, A.H., Mericli, F., Kilincer, N., Ferizli, A.G., Emekci, M., Pelletier SW (2001). Insect Repellent Activity of Diterpenoid Alkaloids. Phytother Res 47: 170-171.
WHO, May 2018, http://www.who.int/news-room/fact-sheets/detail/yellow-fever
WHO, April 2019, https://www.who.int/news-room/fact-sheets/detail/dengue-and-severe-dengue
WHO, February 2018, http://www.who.int/news-room/fact-sheets/detail/zika-virus
The cytotoxicity and insecticidal activity of extracts from Delphinium formosum Boiss. & Huet
Year 2019,
Volume: 49 Issue: 3, 148 - 153, 01.12.2019
Delphinium species are well-known toxic plants with their diterpenoid alkaloid contents. There has been no previous investigation on the cytotoxicity of Delphinium formosum Boiss. & Huet. The extracts of the different parts of D. formosum, an endemic species in Turkey, were investigated for their cytotoxic activity against the human liver carcinoma cell line (HepG2) and primary human umbilical vein endothelial cells (HUVEC). The cytotoxic effects of twelve extracts and subfractions were determined against HepG2 cells using MTT assay. The only active extract was applied to the HUVEC as a model for healthy cells. Only one of the alkaloid-containing extracts from the aerial parts was toxic (IC50 = 244,9 μg/mL against HepG2 and 144,4 μg/mL against HUVEC), while the root extracts were inactive. The results were improbable although it’s predicted secondary metabolites, such as diterpene alkaloids (methyllycaconitine, browniine, lycoctonine, avardharidine, antranoyllycoctonine, delsemine A/B and lycoctonine). Based on previous studies in literature, the cytotoxic plants were also expected to exhibit insecticidal activity. Therefore, the cytotoxic extract of D. formosum was examined for its adulticidal and larvicidal activity against the yellow fever, dengue fevers and Zika virus vector Aedes aegypti L.
You may cite this article as: Sen-Utsukarci B, Tabanca N, Estep AS, Akbal-Dağıstan Ö, Kessler SM, Öztürk Z, Becnel J, Kiemer AK, Mat A (2019). The Cytotoxicity and Insecticidal Activity of Extracts from Delphinium formosum Boiss. & Huet. Istanbul J Pharm 10.26650/IstanbulJPharm.2019.19034.
Bandara KA, Kumar V, Jacobsson U, Molleyres LP (2000). Insecticidal piperidine alkaloid from Microcos paniculata stem bark. Phytochem 54: 29-32.
Baytop T (1999). Türkiye'de Bitkilerle Tedavi (Geçmişte ve Bugün). Nobel Tip Kitabevleri Ltd, Turkey.
Cantrell CL, Jones AMP, Ali A (2016). Isolation and Identification of Mosquito (Aedes aegypti) Biting Deterrent Compounds from the Native American Folk Remedy Plant Hierochloë odorata (Sweetgrass). J Agric Food Chem 64: 8352-8358.
Carroll JF, Demirci B, Kramer M, Bernier UR, Agramonte NM, Baser KHC, Tabanca N (2017). Repellency of the Origanum onites L. essential oil and constituents to the lone star tick and yellow fever mosquito. Nat Prod Res 31: 2192-2197.
Chanakul W, Tuchinda P, Anatachoke N, Pohmakotr M, Piyachaturawat P, Jariyawat S, Suksen K, Jaipetch T, Nuntasaen N, Reutrakul V (2011). Cytotoxic alkaloids from stems, leaves and twigs of Dasymaschalon blumei. Fitoterapia 82: 964-968.
Chantawee A, Soonwera M (2018). Efficacies of four plant essential oils as larvicide, pupicide and oviposition deterrent agents against dengue fever mosquito, Aedes aegypti Linn. (Diptera: Culicidae). Asian Pac J Trop Biomed 8: 217-225.
Csupor D, Forgo P, Zupko I, Szabo P, Hohmann J (2007). Anthranoyl-substituted Norditerpene Alkaloids from Aconitum vulparia Rchb. and Their Cytotoxic Activities. Z Naturforsch 62b: 135-141.
De Ines C, Reina M, Gavin JA, Gonzalez-Coloma A (2006). In vitro Cytotoxicity of Norditerpenoid Alkaloids. Z Naturforsch 61c: 11-18.
Dias CN, Silva de Mesquita LS, Coutinho DF, Malik S (2017). Plant Derived Essential Oils Against Aedes aegypti L. and Their Biotechnological Production. In: Ghorbanpour M, Varma A (eds.) Medicinal Plants and Environmental Challenges. Springer, Cham.
Diesel B, Ripoche N, Risch RT, Tierling S, Walter J, Kiemer AK (2011). Inflammation-induced up-regulation of TLR2 expression in human endothelial cells is independent of differential methylation in the TLR2 promoter CpG island. Innate Immun 18: 112–123.
Durust N, Bozan B, Ozden S, Durust Y, Baser KHC (1999). The Quantitative Determination of Some Phenolic Acids in Delphinium formosum by HPLC. Anal Lett 32: 2841-2849.
Garcez WS, Garcez FR, de Silva LMGE, Hamerski L (2009). Larvicidal activity against Aedes aegypti of some plants native to the West-Central region of Brazil. Bioresour Technol 100: 6647-6650.
Gonzalez-Comola A, Reina M, Guadano A, Martinez-Diaz R, Diaz JG, Garcia-Rodrigez J, Alva A, Grandez M (2004). Antifeedant C20 Diterpene Alkaloids. Chem Biodivers 1: 1327-1335.
Hiller K, Melzig MF (2006). Lexikon der Arzneipflanzen und Drogen. 3th ed, Area Verlag, Germany.
Kamaraj C, Rahuman AA, Mahapatra A, Bagavan A, Elango G (2010). Insecticidal and larvicidal activities of medicinal plant extracts against mosquitoes. Parasitol Res 107: 1337-1349.
Kessler SM, Pokorny J, Zimmer V, Laggai S, Lammert F, Bohle RM, Kiemer AK (2013). IGF2 mRNA binding protein p62/IMP2-2 in hepatocellular carcinoma: antiapoptotic action is independent of IGF2/PI3K signaling. Am J Physiol Gastrointest Liver Physiol 304: 328-336.
Kiemer AK, Weber NC, Fürst R, Bildner N, Kulhanek-Heinze S, Vollmar AM (2002). Inhibition of p38 MAPK Activation via Induction of MKP-1 Atrial Natriuretic Peptide Reduces TNF-–Induced Actin Polymerization and Endothelial Permeability. Circ Res 90: 874-881.
Kukel CF, Jennings KR (1994). Delphinium alkaloids as inhibitors of a-bungarotoxin binding to rat and insect neural membranes. Can J Physiol Phamacol 72: 104-107.
Kumar S, Wahab N, Mishra M, Warikoo R (2012). Evaluation of 15 Local Plant Species as Larvicidal Agents Against an Indian Strain of Dengue Fever Mosquito, Aedes aegypti L. (Diptera: Culicidae). Front Physiol 3: 1-6.
Liu ZL, Liu QZ, Du SS, Deng ZW (2012). Mosquito larvicidal activity of alkaloids and limonoids derived from Evodia rutaecarpa unripe fruits against Aedes albopictus (Diptera: Culicidae). Parasitol Res 111: 991-996.
Liu F, Tan X, Han X, Li X, Li N, Kang W (2017). Cytotoxicity of Aconitum alkaloid and its interaction with calf thymus DNA by multi-spectroscopic techniques. Scientific Reports 7 Article 14509 doi:10.1038/s41598-017-15240-9.
Lu J-J, Bao J-L, Chen X-P, Huang M, Wang Y-T (2012). Alkaloids Isolated from Natural Herbs as the Anticancer Agents. Evid.-Based Complementary Altern Med Article ID 485042 doi: http://dx.doi.org/10.1155/2012/485042
Maheswaran R, Ignacimuthu S (2012). A novel herbal formulation against dengue vector mosquitoes Aedes aegypti and Aedes albopictus. Parasitol Res 110: 1801-1813.
Masi M, van der Westhuyzen AE, Tabanca N, Evidente M, Cimmino A, Green IR, Bernier UR, Bencel JJ, Bloomquist JR, Otterlo, WAL, Evidente A (2017). Sarniensine, a mesembrine-type alkaloid isolated from Nerine sarniensis, an indigenous South African Amaryllidaceae, with larvicidal and adulticidal activities against Aedes aegypti. Fitoterapia 116: 34-38.
Masi M, Cala A, Tabanca N, Cimmino A, Green IR, Bloomquist JR, van Otterlo WAL, Maacias FA, Evidente A (2016). Alkaloids with Activity against the Zika Virus Vector Aedes aegypti (L.) - Crinsarnine and Sarniensinol, Two New Crinine and Mesembrine Type Alkaloids Isolated from the South African Plant Nerine sarniensis. Molecules 21: 1432.
Masi M, Cimmino A, Tabanca N, Becnel JJ, Bloomquist JR, Evidente A (2017). A survey of bacterial, fungal and plant metabolites against Aedes aegypti (Diptera: Culicidae), the vector of yellow and dengue fevers and Zika virus. Open Chem 15: 156-166.
Mericli F, Mericli AH, Becker H, Ulubelen A, Özden S, Dürüst N, Tanker M (1996). Norditerpenoid Alkaloids From Delphinium formosum. Phytochemistry 42: 1249-1251.
Mosmann T (1983). Rapid Colorimetric Assay for Cellular Growth and Survival: Application to Proliferation and Cytotoxicity Assays. J Immunol Methods 65: 55-63.
Nugroho AE, Akbar FF, Wiyani A, Sudarsono (2015). Cytotoxic Effect and Constituent Profile of Alkaloid Fractions from Ethanolic Extract of Ficus septica Burm. f. Leaves on T47D Breast Cancer Cells. Asian Pac J Cancer Prev 16: 7337-7342.
Pitarokili D, Michaelakis A, Koliopoulos G, Giatropoulos A, Tzakou O (2011). Chemical composition, larvicidal evaluation, and adult repellency of endemic Greek Thymus essential oils against the mosquito vector of West Nile virus. Parasitol Res 109: 425-430.
Pridgeon JW, Pereira RM, Becnel JJ, Allan SA, Clark GG, Linthicum KJ (2008). Susceptibility of Aedes aegypti, Culex quinquefasciatus Say, and Anopheles quadrimaculatus Say to 19 Pesticides with Different Modes of Action. J Med Entomol 45: 82-87.
Reegan AD, Gandhi MR, Paulraj MG, Ignacimuthu S (2015). Ovicidal and Oviposition Deterrent Activities of Medicinal Plant Extracts Against Aedes aegypti L. and Culex quinquefasciatus Say Mosquitoes (Diptera: Culicidae). Osong Public Health Res Perspect 6: 64-69.
Reina M, Gonzalez-Coloma A (2007). Structural diversity and defensive properties of diterpenoid alkaloids. Phytochem Rev 6:81–95.
Sen-Utsukarci B, Zapp J, Kiemer AK, Mericli AH (2018). A Reinvestigation of Norditerpenoid Alkaloids from the Roots of Delphinium formosum. Chem Nat Compd 54: 405-406.
Stappen I, Tabanca N, Ali A, Wanner J, Lal B, Jaitak V, Wedge DE, Kaul VK, Schmidt E, Jirovetz L (2018). Antifungal and repellent activities of the essential oils from three aromatic herbs from western Himalaya Open Chem 16: 306-316.
Tabanca N, Ali Z, Bernier UR, Epsky N, Nalbantsoy A, Khan IA, Ali A (2018). Bioassay-guided isolation and identification of Aedes aegypti larvicidal and biting deterrent compounds from Veratrum lobelianum. Open Chem 16: 324-332.
Tabanca N, Tsikolia M, Ozek G, Ozek T, Ali A, Bernier UR, Duran A, Baser KHC, Kahn IA (2016a). The Identification of Suberosin from Prangos pabularia Essential Oil and Its Mosquito Activity Against Aedes aegypti. Rec Nat Prod 10: 311-325.
Tabanca N, Bernier UR, Agramonte NM, Tsikolia M, Bloomquist JR (2016b). Discovery of Repellents from Natural Products. Curr Org Chem 20: 2690-2702.
Tabanca N, Avonto C, Wang M, Parcher JF, Ali A, Demirci B, Raman V, Khan IA (2013a). Comparative Investigation of Umbellularia californica and Laurus nobilis Leaf Essential Oils and Identification of Constituents Active against Aedes aegypti. J Agric Food Chem 61: 12283-12291.
Tabanca N, Benrier UR, Ali A, Wang M, Demirci B, Blythe EK, Khan SI, Baser KHC, Khan IA (2013b). Bioassay-Guided Investigation of Two Monarda Essential Oils as Repellents of Yellow Fever Mosquito Aedes aegypti. J Agric Food Chem 61: 8573-8580.
Tanker M, Ozden S (1975). Delphinium formosum Boiss et Huet Bitkisinin Alkaloitleri Yonunden Kimyasal Arastirmalar. J Fac Pharm Ankara 5: 113-139.
Ulubelen, A., Mericli, A.H., Mericli, F., Kilincer, N., Ferizli, A.G., Emekci, M., Pelletier SW (2001). Insect Repellent Activity of Diterpenoid Alkaloids. Phytother Res 47: 170-171.
WHO, May 2018, http://www.who.int/news-room/fact-sheets/detail/yellow-fever
WHO, April 2019, https://www.who.int/news-room/fact-sheets/detail/dengue-and-severe-dengue
WHO, February 2018, http://www.who.int/news-room/fact-sheets/detail/zika-virus
Nurhayat Tabanca
This is me
USDA-ARS, Subtropical Horticulture Research Station, 13601 Old Cutler Rd., Miami, FL 33158 USA
Alden S. Estep
This is me
Navy Entomology Center of Excellence, CMAVE Detachment, 1700 SW 23rd Drive, Gainesville, FL 32608, USA;USDA-ARS, Center for Medical, Agricultural, and Veterinary Entomology, 1700 SW 23rd Drive, Gainesville, FL 32608, USA
Ozlem Akbal-dagistan
This is me
Istanbul University, Faculty of Pharmacy, Department of Pharmaceutical Technology, 34116 Beyazit, Istanbul, Turkey
Sonja M. Kessler
This is me
Saarland University, Department of Pharmacy, Pharmaceutical Biology, 66123 Saarbruecken, Germany
Zehra Ozturk
This is me
Republic of Turkey Ministry of Agriculture and Forestry, Ortahisar District Directorate of Agriculture and Forestry, Trabzon, Turkey
James Becnel
This is me
USDA-ARS, Center for Medical, Agricultural, and Veterinary Entomology, 1700 SW 23rd Drive, Gainesville, FL 32608, USA
Alexandra K. Kiemer
This is me
Saarland University, Department of Pharmacy, Pharmaceutical Biology, 66123 Saarbruecken, Germany
Afife Mat
This is me
Istanbul University, Faculty of Pharmacy, Department of Pharmacognosy, 34116 Beyazit, Istanbul, Turkey
Sen-utsukarci, B., Tabanca, N., Estep, A. S., Akbal-dagistan, O., et al. (2019). The cytotoxicity and insecticidal activity of extracts from Delphinium formosum Boiss. & Huet. İstanbul Journal of Pharmacy, 49(3), 148-153.
AMA
Sen-utsukarci B, Tabanca N, Estep AS, Akbal-dagistan O, Kessler SM, Ozturk Z, Becnel J, Kiemer AK, Mat A. The cytotoxicity and insecticidal activity of extracts from Delphinium formosum Boiss. & Huet. iujp. December 2019;49(3):148-153.
Chicago
Sen-utsukarci, Burcu, Nurhayat Tabanca, Alden S. Estep, Ozlem Akbal-dagistan, Sonja M. Kessler, Zehra Ozturk, James Becnel, Alexandra K. Kiemer, and Afife Mat. “The Cytotoxicity and Insecticidal Activity of Extracts from Delphinium Formosum Boiss. & Huet”. İstanbul Journal of Pharmacy 49, no. 3 (December 2019): 148-53.
EndNote
Sen-utsukarci B, Tabanca N, Estep AS, Akbal-dagistan O, Kessler SM, Ozturk Z, Becnel J, Kiemer AK, Mat A (December 1, 2019) The cytotoxicity and insecticidal activity of extracts from Delphinium formosum Boiss. & Huet. İstanbul Journal of Pharmacy 49 3 148–153.
IEEE
B. Sen-utsukarci, N. Tabanca, A. S. Estep, O. Akbal-dagistan, S. M. Kessler, Z. Ozturk, J. Becnel, A. K. Kiemer, and A. Mat, “The cytotoxicity and insecticidal activity of extracts from Delphinium formosum Boiss. & Huet”, iujp, vol. 49, no. 3, pp. 148–153, 2019.
ISNAD
Sen-utsukarci, Burcu et al. “The Cytotoxicity and Insecticidal Activity of Extracts from Delphinium Formosum Boiss. & Huet”. İstanbul Journal of Pharmacy 49/3 (December 2019), 148-153.
JAMA
Sen-utsukarci B, Tabanca N, Estep AS, Akbal-dagistan O, Kessler SM, Ozturk Z, Becnel J, Kiemer AK, Mat A. The cytotoxicity and insecticidal activity of extracts from Delphinium formosum Boiss. & Huet. iujp. 2019;49:148–153.
MLA
Sen-utsukarci, Burcu et al. “The Cytotoxicity and Insecticidal Activity of Extracts from Delphinium Formosum Boiss. & Huet”. İstanbul Journal of Pharmacy, vol. 49, no. 3, 2019, pp. 148-53.
Vancouver
Sen-utsukarci B, Tabanca N, Estep AS, Akbal-dagistan O, Kessler SM, Ozturk Z, Becnel J, Kiemer AK, Mat A. The cytotoxicity and insecticidal activity of extracts from Delphinium formosum Boiss. & Huet. iujp. 2019;49(3):148-53.