Research Article
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Year 2021, Volume: 27 Issue: 3, 292 - 297, 04.09.2021
https://doi.org/10.15832/ankutbd.619996

Abstract

References

  • Baltas, N., Karaoglu, S. A., Tarakci, C., & Kolayli, S. (2016). Effect of propolis in gastric disorders: inhibition studies on the growth of Helicobacter pylori and production of its urease. J Enzyme Inhib Med Chem, 31(sup2), 46-50.
  • Bankova, V., Popova, M., & Trusheva, B. (2006). Plant sources of propolis: An update from a chemist's point of view,1.
  • Benzie, I. F., & Strain, J. J. (1996). The ferric reducing ability of plasma (FRAP) as a measure of "antioxidant power": the FRAP assay. Analytical biochemistry, 239(1), 70-76.
  • Boerjan, W., Ralph, J., & Baucher, M. (2003). Lignin biosynthesis. Annu Rev Plant Biol, 54(1), 519-546.
  • Burdock, G. A. (1998). Review of the biological properties and toxicity of bee propolis (propolis). Food and chemical toxicology : an international journal published for the British Industrial Biological Research Association, 36(4), 347-363.
  • Can, Z., Yildiz, O., Sahin, H., Asadov, E., & Kolaylı, S. (2015). Phenolic profile and antioxidant potential of propolis from Azerbaijan, 15.
  • da Cunha, M. G., Franchin, M., de Carvalho Galvao, L. C., de Ruiz, A. L., de Carvalho, J. E., Ikegaki, M., de Alencar, S. M., Koo, H., & Rosalen, P. L. (2013). Antimicrobial and antiproliferative activities of stingless bee Melipona scutellaris geopropolis. BMC Complement. Altern. Med., 13, 23.
  • Daugsch, A., Moraes, C. S., Fort, P., & Park, Y. K. (2008). Brazilian red propolis--chemical composition and botanical origin. Evidence-based complementary and alternative medicine : eCAM, 5(4), 435-441.
  • Dirscherl, K., Karlstetter, M., Ebert, S., Kraus, D., Hlawatsch, J., Walczak, Y., Moehle, C., Fuchshofer, R., & Langmann, T. (2010). Luteolin triggers global changes in the microglial transcriptome leading to a unique anti-inflammatory and neuroprotective phenotype. Journal of neuroinflammation, 7, 3.
  • Dutra, R. P., Abreu, B. V., Cunha, M. S., Batista, M. C., Torres, L. M., Nascimento, F. R., Ribeiro, M. N., & Guerra, R. N. (2014). Phenolic acids, hydrolyzable tannins, and antioxidant activity of geopropolis from the stingless bee Melipona fasciculata Smith. Journal of agricultural and food chemistry, 62(12), 2549-2557.
  • Erhan Eroglu, H., Ozkul, Y., Tatlisen, A., & Silici, S. (2008). Anticarcinogenic and antimitotic effects of Turkish propolis and mitomycin-C on tissue cultures of bladder cancer. Natural product research, 22(12), 1060-1066.
  • Fukumoto, L. R., & Mazza, G. (2000). Assessing antioxidant and prooxidant activities of phenolic compounds. Journal of agricultural and food chemistry, 48(8), 3597-3604.
  • Gomez-Caravaca, A. M., Gomez-Romero, M., Arraez-Roman, D., Segura-Carretero, A., & Fernandez-Gutierrez, A. (2006). Advances in the analysis of phenolic compounds in products derived from bees. Journal of pharmaceutical and biomedical analysis, 41(4), 1220-1234.
  • Greenaway, W., Scaysbrook, T., & Whatley, F. R. (1990). The Composition and Plant Origins of Propolis - a Report of Work at Oxford. Bee World, 71(3), 107-118.
  • Günes Özkan, N., Aksoy, N., & Değirmenci, A. S. (2016). Hasanlar Barajı (Düzce-Yığılca) ve Çevresinin Ballı Bitkileri. Düzce Üniversitesi Ormancılık Dergisi, 12(2), 44-65.
  • He, Y. J., Liu, B. H., Xiang, D. B., Qiao, Z. Y., Fu, T., & He, Y. H. (2006). Inhibitory effect of caffeic acid phenethyl ester on the growth of SW480 colorectal tumor cells involves beta-catenin associated signaling pathway down-regulation. World journal of gastroenterology, 12(31), 4981-4985.
  • Kolayli, S., Ebru Cakir, H., Sahin, H., Can, Z., & Yildiz, O. (2016). Anti-Inflammatory Activities of Some Bee Products by Inhibition of Bovine Testes Hyaluronidase. Current Enzyme Inhibition, 12(2), 183-187.
  • Koru, O., Toksoy, F., Acikel, C. H., Tunca, Y. M., Baysallar, M., Uskudar Guclu, A., Akca, E., Ozkok Tuylu, A., Sorkun, K., Tanyuksel, M., & Salih, B. (2007). In vitro antimicrobial activity of propolis samples from different geographical origins against certain oral pathogens. Anaerobe, 13(3-4), 140-145.
  • Leonhardt, S. D., Bluthgen, N., & Schmitt, T. (2009). Smelling like resin: terpenoids account for species-specific cuticular profiles in Southeast-Asian stingless bees. Insectes Sociaux, 56(2), 157-170.
  • Leonhardt, S. D., Zeilhofer, S., Bluthgen, N., & Schmitt, T. (2010). Stingless bees use terpenes as olfactory cues to find resin sources. Chemical senses, 35(7), 603-611.
  • Lopez-Lazaro, M. (2009). Distribution and biological activities of the flavonoid luteolin. Mini Rev Med Chem, 9(1), 31-59.
  • M Mihai, C., Al, L., S Mărghitaş, D., Dezmirean, L., & Bărnuţiu. (2011). Correlation between Polyphenolic Profile and Antioxidant Activity of Propolis from Transylvania, 44.
  • Marcucci, M. C. (1995). Propolis - Chemical-Composition, Biological Properties and Therapeutic Activity. Apidologie, 26(2), 83-99.
  • Marghitas, L. A., Dezmirean, D. S., & Bobis, O. (2013). Important developments in romanian propolis research. Evidence-based complementary and alternative medicine : eCAM, 2013, 159392.
  • Massaro, C. F., Katouli, M., Grkovic, T., Vu, H., Quinn, R. J., Heard, T. A., Carvalho, C., Manley-Harris, M., Wallace, H. M., & Brooks, P. (2014). Anti-staphylococcal activity of C-methyl flavanones from propolis of Australian stingless bees (Tetragonula carbonaria) and fruit resins of Corymbia torelliana (Myrtaceae). Fitoterapia, 95, 247-257.
  • Massaro, F. C., Brooks, P. R., Wallace, H. M., & Russell, F. D. (2011). Cerumen of Australian stingless bees (Tetragonula carbonaria): gas chromatography-mass spectrometry fingerprints and potential anti-inflammatory properties. Die Naturwissenschaften, 98(4), 329-337.
  • Miguel, M. G., & Antunes, M. D. (2011). Is propolis safe as an alternative medicine? Journal of pharmacy & bioallied sciences, 3(4), 479-495.
  • Molyneux, P., (2004). The use of the stable free radical diphenylpicrylhydrazyl (DPPH) for estimating antioxidant activity Songklanakarin, J. Sci. Technol., 26, 211–219.
  • Nikolov, N., Marekov, N., Bankova, V., Popov, S., Ignatova, R., & Vladimirova, I. (1987). Bulgaria Patent No.: B. P. Applicatio.
  • Ozkul, Y., Silici, S., & Eroglu, E. (2005). The anticarcinogenic effect of propolis in human lymphocytes culture. Phytomedicine, 12(10), 742-747.
  • Pietta, P. G., Gardana, C., & Pietta, A. M. (2002). Analytical methods for quality control of propolis. Fitoterapia, 73 (1), S7-20.
  • Silici, S., & Kutluca, S. (2005). Chemical composition and antibacterial activity of propolis collected by three different races of honeybees in the same region. Journal of ethnopharmacology, 99(1), 69-73.
  • Singleton, V. L., Orthofer, R., & Lamuela-Raventós, R. M. (1999). [14] Analysis of total phenols and other oxidation substrates and antioxidants by means of folin-ciocalteu reagent. In Oxidants and Antioxidants Part A, 299, 152-178): Academic Press.
  • Teixeira, E. W., Negri, G., Meira, R. M., Message, D., & Salatino, A. (2005). Plant Origin of Green Propolis: Bee Behavior, Plant Anatomy and Chemistry. Evidence-based complementary and alternative medicine : eCAM, 2(1), 85-92.
  • Uzel, A., Sorkun, K., Oncag, O., Cogulu, D., Gencay, O., & Salih, B. (2005). Chemical compositions and antimicrobial activities of four different Anatolian propolis samples. Microbiological research, 160(2), 189-195.
  • Wilson, M. B., Spivak, M., Hegeman, A. D., Rendahl, A., & Cohen, J. D. (2013). Metabolomics reveals the origins of antimicrobial plant resins collected by honey bees. PLoS One, 8(10), e77512.
  • Xiang, D., Wang, D., He, Y., Xie, J., Zhong, Z., Li, Z., & Xie, J. (2006). Caffeic acid phenethyl ester induces growth arrest and apoptosis of colon cancer cells via the beta-catenin/T-cell factor signaling. Anti-cancer drugs, 17(7), 753-762.

Effects of Honey Bee Race and Season on Propolis Composition

Year 2021, Volume: 27 Issue: 3, 292 - 297, 04.09.2021
https://doi.org/10.15832/ankutbd.619996

Abstract

Honey bees collect the main material of propolis from the buds, leaves, branches, and barks or other botanical sources and mixed that resinous material with beeswax produced from abdominal exocrine glands, mandibular gland secretions, and pollen to produce propolis. The composition of propolis changes depends on multiple factors such as honey bee races, geographical locations, phytogeography, harvesting seasons, extraction methods and solvents. In this study, two different studies were conducted in two different locations in order to reveal the effect of race and season variables on the composition and antioxidant value of propolis. The effect of race factor was studied on three different honey bee races (Apis mellifera caucasica, Apis mellifera syriaca and Apis mellifera carnica) and two different ecotypes (Muğla ecotype and Yığılca ecotype) to investigate the effects of race factor on propolis composition in Central Anatolia by under the controlled conditions. The effect of seasonal change was determined by Yığılca ecotype of A. melifera anatoliaca in the apiary located in Yığılca, Düzce location. Studied samples were harvested by propolis trap between May and October. Total phenolic content, total antioxidant capacity and chemical profiles of propolis samples were determined using HPLC-UV. The obtained results showed that honey bee race and season have an effect on the antioxidant capacity and chemical composition of propolis.

References

  • Baltas, N., Karaoglu, S. A., Tarakci, C., & Kolayli, S. (2016). Effect of propolis in gastric disorders: inhibition studies on the growth of Helicobacter pylori and production of its urease. J Enzyme Inhib Med Chem, 31(sup2), 46-50.
  • Bankova, V., Popova, M., & Trusheva, B. (2006). Plant sources of propolis: An update from a chemist's point of view,1.
  • Benzie, I. F., & Strain, J. J. (1996). The ferric reducing ability of plasma (FRAP) as a measure of "antioxidant power": the FRAP assay. Analytical biochemistry, 239(1), 70-76.
  • Boerjan, W., Ralph, J., & Baucher, M. (2003). Lignin biosynthesis. Annu Rev Plant Biol, 54(1), 519-546.
  • Burdock, G. A. (1998). Review of the biological properties and toxicity of bee propolis (propolis). Food and chemical toxicology : an international journal published for the British Industrial Biological Research Association, 36(4), 347-363.
  • Can, Z., Yildiz, O., Sahin, H., Asadov, E., & Kolaylı, S. (2015). Phenolic profile and antioxidant potential of propolis from Azerbaijan, 15.
  • da Cunha, M. G., Franchin, M., de Carvalho Galvao, L. C., de Ruiz, A. L., de Carvalho, J. E., Ikegaki, M., de Alencar, S. M., Koo, H., & Rosalen, P. L. (2013). Antimicrobial and antiproliferative activities of stingless bee Melipona scutellaris geopropolis. BMC Complement. Altern. Med., 13, 23.
  • Daugsch, A., Moraes, C. S., Fort, P., & Park, Y. K. (2008). Brazilian red propolis--chemical composition and botanical origin. Evidence-based complementary and alternative medicine : eCAM, 5(4), 435-441.
  • Dirscherl, K., Karlstetter, M., Ebert, S., Kraus, D., Hlawatsch, J., Walczak, Y., Moehle, C., Fuchshofer, R., & Langmann, T. (2010). Luteolin triggers global changes in the microglial transcriptome leading to a unique anti-inflammatory and neuroprotective phenotype. Journal of neuroinflammation, 7, 3.
  • Dutra, R. P., Abreu, B. V., Cunha, M. S., Batista, M. C., Torres, L. M., Nascimento, F. R., Ribeiro, M. N., & Guerra, R. N. (2014). Phenolic acids, hydrolyzable tannins, and antioxidant activity of geopropolis from the stingless bee Melipona fasciculata Smith. Journal of agricultural and food chemistry, 62(12), 2549-2557.
  • Erhan Eroglu, H., Ozkul, Y., Tatlisen, A., & Silici, S. (2008). Anticarcinogenic and antimitotic effects of Turkish propolis and mitomycin-C on tissue cultures of bladder cancer. Natural product research, 22(12), 1060-1066.
  • Fukumoto, L. R., & Mazza, G. (2000). Assessing antioxidant and prooxidant activities of phenolic compounds. Journal of agricultural and food chemistry, 48(8), 3597-3604.
  • Gomez-Caravaca, A. M., Gomez-Romero, M., Arraez-Roman, D., Segura-Carretero, A., & Fernandez-Gutierrez, A. (2006). Advances in the analysis of phenolic compounds in products derived from bees. Journal of pharmaceutical and biomedical analysis, 41(4), 1220-1234.
  • Greenaway, W., Scaysbrook, T., & Whatley, F. R. (1990). The Composition and Plant Origins of Propolis - a Report of Work at Oxford. Bee World, 71(3), 107-118.
  • Günes Özkan, N., Aksoy, N., & Değirmenci, A. S. (2016). Hasanlar Barajı (Düzce-Yığılca) ve Çevresinin Ballı Bitkileri. Düzce Üniversitesi Ormancılık Dergisi, 12(2), 44-65.
  • He, Y. J., Liu, B. H., Xiang, D. B., Qiao, Z. Y., Fu, T., & He, Y. H. (2006). Inhibitory effect of caffeic acid phenethyl ester on the growth of SW480 colorectal tumor cells involves beta-catenin associated signaling pathway down-regulation. World journal of gastroenterology, 12(31), 4981-4985.
  • Kolayli, S., Ebru Cakir, H., Sahin, H., Can, Z., & Yildiz, O. (2016). Anti-Inflammatory Activities of Some Bee Products by Inhibition of Bovine Testes Hyaluronidase. Current Enzyme Inhibition, 12(2), 183-187.
  • Koru, O., Toksoy, F., Acikel, C. H., Tunca, Y. M., Baysallar, M., Uskudar Guclu, A., Akca, E., Ozkok Tuylu, A., Sorkun, K., Tanyuksel, M., & Salih, B. (2007). In vitro antimicrobial activity of propolis samples from different geographical origins against certain oral pathogens. Anaerobe, 13(3-4), 140-145.
  • Leonhardt, S. D., Bluthgen, N., & Schmitt, T. (2009). Smelling like resin: terpenoids account for species-specific cuticular profiles in Southeast-Asian stingless bees. Insectes Sociaux, 56(2), 157-170.
  • Leonhardt, S. D., Zeilhofer, S., Bluthgen, N., & Schmitt, T. (2010). Stingless bees use terpenes as olfactory cues to find resin sources. Chemical senses, 35(7), 603-611.
  • Lopez-Lazaro, M. (2009). Distribution and biological activities of the flavonoid luteolin. Mini Rev Med Chem, 9(1), 31-59.
  • M Mihai, C., Al, L., S Mărghitaş, D., Dezmirean, L., & Bărnuţiu. (2011). Correlation between Polyphenolic Profile and Antioxidant Activity of Propolis from Transylvania, 44.
  • Marcucci, M. C. (1995). Propolis - Chemical-Composition, Biological Properties and Therapeutic Activity. Apidologie, 26(2), 83-99.
  • Marghitas, L. A., Dezmirean, D. S., & Bobis, O. (2013). Important developments in romanian propolis research. Evidence-based complementary and alternative medicine : eCAM, 2013, 159392.
  • Massaro, C. F., Katouli, M., Grkovic, T., Vu, H., Quinn, R. J., Heard, T. A., Carvalho, C., Manley-Harris, M., Wallace, H. M., & Brooks, P. (2014). Anti-staphylococcal activity of C-methyl flavanones from propolis of Australian stingless bees (Tetragonula carbonaria) and fruit resins of Corymbia torelliana (Myrtaceae). Fitoterapia, 95, 247-257.
  • Massaro, F. C., Brooks, P. R., Wallace, H. M., & Russell, F. D. (2011). Cerumen of Australian stingless bees (Tetragonula carbonaria): gas chromatography-mass spectrometry fingerprints and potential anti-inflammatory properties. Die Naturwissenschaften, 98(4), 329-337.
  • Miguel, M. G., & Antunes, M. D. (2011). Is propolis safe as an alternative medicine? Journal of pharmacy & bioallied sciences, 3(4), 479-495.
  • Molyneux, P., (2004). The use of the stable free radical diphenylpicrylhydrazyl (DPPH) for estimating antioxidant activity Songklanakarin, J. Sci. Technol., 26, 211–219.
  • Nikolov, N., Marekov, N., Bankova, V., Popov, S., Ignatova, R., & Vladimirova, I. (1987). Bulgaria Patent No.: B. P. Applicatio.
  • Ozkul, Y., Silici, S., & Eroglu, E. (2005). The anticarcinogenic effect of propolis in human lymphocytes culture. Phytomedicine, 12(10), 742-747.
  • Pietta, P. G., Gardana, C., & Pietta, A. M. (2002). Analytical methods for quality control of propolis. Fitoterapia, 73 (1), S7-20.
  • Silici, S., & Kutluca, S. (2005). Chemical composition and antibacterial activity of propolis collected by three different races of honeybees in the same region. Journal of ethnopharmacology, 99(1), 69-73.
  • Singleton, V. L., Orthofer, R., & Lamuela-Raventós, R. M. (1999). [14] Analysis of total phenols and other oxidation substrates and antioxidants by means of folin-ciocalteu reagent. In Oxidants and Antioxidants Part A, 299, 152-178): Academic Press.
  • Teixeira, E. W., Negri, G., Meira, R. M., Message, D., & Salatino, A. (2005). Plant Origin of Green Propolis: Bee Behavior, Plant Anatomy and Chemistry. Evidence-based complementary and alternative medicine : eCAM, 2(1), 85-92.
  • Uzel, A., Sorkun, K., Oncag, O., Cogulu, D., Gencay, O., & Salih, B. (2005). Chemical compositions and antimicrobial activities of four different Anatolian propolis samples. Microbiological research, 160(2), 189-195.
  • Wilson, M. B., Spivak, M., Hegeman, A. D., Rendahl, A., & Cohen, J. D. (2013). Metabolomics reveals the origins of antimicrobial plant resins collected by honey bees. PLoS One, 8(10), e77512.
  • Xiang, D., Wang, D., He, Y., Xie, J., Zhong, Z., Li, Z., & Xie, J. (2006). Caffeic acid phenethyl ester induces growth arrest and apoptosis of colon cancer cells via the beta-catenin/T-cell factor signaling. Anti-cancer drugs, 17(7), 753-762.
There are 37 citations in total.

Details

Primary Language English
Journal Section Makaleler
Authors

Meral Kekeçoğlu 0000-0002-2564-8343

Merve Keskin 0000-0001-9365-334X

Ceren Birinci This is me 0000-0002-0167-6809

Esra Birinci This is me 0000-0002-0998-0661

Sevgi Kolaylı 0000-0003-0437-6139

Publication Date September 4, 2021
Submission Date September 13, 2019
Acceptance Date March 19, 2020
Published in Issue Year 2021 Volume: 27 Issue: 3

Cite

APA Kekeçoğlu, M., Keskin, M., Birinci, C., Birinci, E., et al. (2021). Effects of Honey Bee Race and Season on Propolis Composition. Journal of Agricultural Sciences, 27(3), 292-297. https://doi.org/10.15832/ankutbd.619996

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