Review of the Expression of Antimicrobial Peptide Defensin in Honey Bees Apis Mellifera L.

Aerts A. M., Francois I. E., Cammue B. P., Thevissen K. (2008) - The mode of antifungal action of plant, insect and human defensins. Cell. Mol. Life Sci., 65: 2069-2079.Search in Google Scholar

Antunez K., Martin-Hernandez R., Prieto L., Meana A., Zunino P., Higes M. (2009) - Immune suppression in the honey bees (Apis mellifera) following infection by Nosema ceranae (Microsporidia). Environ. Microbiol., 11(9): 2284-2290.10.1111/j.1462-2920.2009.01953.xSearch in Google Scholar

Arbia K. A., Babbay B. (2011) - Management strategies of honey bees diseases. J. Entomol., 8 (1): 1-15.Search in Google Scholar

Aronstein K. A., Murray K. D., Saldivar E. (2010) - Transcriptional responses in honey bees larvae infected with chalkbrood fungus. BMC Genomics, 11: 1-12.10.1186/1471-2164-11-391Search in Google Scholar

Aronstein K. A., Saldivar E. (2005) - Characterization of a honey bees Toll related receptor gene Am18w and its potential involvement in antimicrobial immune defense. Apidologie, 36: 3-14.10.1051/apido:2004062Search in Google Scholar

Bachanova K., Klaudiny J., Kopernicky J., Simuth J. (2002) - Identifcation of honey bees peptide active against Paenibacillus larvae larvae through bacterial growth-inhibition assay on polyacrylamide gel. Apidologie, 33: 259-269.10.1051/apido:2002015Search in Google Scholar

Bilikova K., Gusui W., Simuth J. (2001) - Isolation of a peptide fraction from honey bees royal jelly as a potential antifoulbrood factor. Apidologie, 32: 275-283.10.1051/apido:2001129Search in Google Scholar

Bulet P., Hetru C., Dimarcq J. L., Hoffmann D. (1999) - Antimicrobial peptides in insects; structure and function. DeComposition Immunology, 23: 329-344.10.1016/S0145-305X(99)00015-4Search in Google Scholar

Bulet P., Stocklin R. (2005) - Insect antimicrobial peptides: structure, properties and gene regulation. Protein & Peptide Letters, 12: 3-11.10.2174/092986605340601115638797Search in Google Scholar

Casteels P., Ampe C., Jacobs F., Tempst P. (1993) - Functional and chemical characterization of hymenoptaecin, an antibacterial polypeptide that is infection-inducible in the honey bees (Apis mellifera). J. Biol. Chem., 268: 7044-7054.Search in Google Scholar

Casteels P., Ampe C., Jacobs F., Vaek M., Tempst P. (1989) - Apidaecins: antibacterial peptides from honey bees. The EMBO Journal, 8: 2387-2391.10.1002/j.1460-2075.1989.tb08368.xSearch in Google Scholar

Casteels P., Ampe C., Riviere L., Damme J. V., Elicone C., Fleming M., Jacobs F., Tempst P. (1990) - Isolation and characterization of abaecin, a major antibacterial peptide in the honey bees (Apis mellifera). Eur. J. Biochem., 187: 381-386.Search in Google Scholar

Casteels-Josson K., Zhang W., Capaci T., Casteels P., Tempst P. (1994) - Acute transcriptional response of the honey bees peptide-antibiotics gene repertoire, required posttranslational conversion of the precursor structures. J. Biol. Chem., 269: 28569-28575.Search in Google Scholar

Chernysh S. I., Gordya N. A., Filatova N. A. (1999) - Sacrificial mechanisms of insects: the rate of molecular and phenotypic evolution. Genetics Research, 12: 52-59.Search in Google Scholar

Choi Y. S., Choo Y. M., Lee K. S., Yoon H. J., Kim I., Je Y. H., Sohn H. D., Jin B. R. (2008) - Cloning and expression profiling of four antibacterial peptide genes from the bumblebee Bombus ignites. Comp. Biochem. Physiol., 150: 141-146.Search in Google Scholar

Cociancich S., Ghazi A., Hetru C., Hoffmann J. A., Letellier L. (1993) - Insect defensin, an inducible antibacterial peptide, forms voltage-dependent channels in Micrococcus luteus. J. Biol. Chem., 268: 19239-19245.Search in Google Scholar

Dunn P. E. (1990) - Humoral immunity in insects. Immune strategy appeart to correspond to life-history characteristics. Bioscience, 40(10): 738-744.10.2307/1311506Search in Google Scholar

Evans J. D., Spivak M. (2010) - Socialized medicine individual and communal disease barriers in honey bees. J. Invertebr. Pathol., 103: 562-572.Search in Google Scholar

Evans J. D., Wheeler D. E. (2000) - Expression profiles during honeybee caste determination. Genome Biology, 2(1): research 0001.1- 0001.6.Search in Google Scholar

Fontana R., Mendes M. A., de Souza B. M., Konno K., Cesar L. M. M., Malaspina O., Palma M. S. (2004) - Jelleines: a family of antimicrobial peptides from the Royal Jelly of honey bees (Apis mellifera). Peptides, 25: 919-928.10.1016/j.peptides.2004.03.01615203237Search in Google Scholar

Fujiwara S., Imai J., Fujiwara M., Yaeshima T., Kawashima T., Kobayashi K. (1990) - A potent antibacterial protein in royal jelly. J. Biol. Chem., 265: 11333-11337.Search in Google Scholar

Furukawa S., Taniai K., Yang J., Shono T., Yamakawa M. (1999) - Induction of gene expression of antibacterial proteins by chitin oligomers in the silkworm, Bombyx mori. Insect Mol. Biol., 8(1): 145-148.10.1046/j.1365-2583.1999.810145.xSearch in Google Scholar

Genersch E., Aubert M. (2010) - Emerging and re-emerging viruses of the honey bees (Apis mellifera L.). Vet. Res., 41(6): 54-74.10.1051/vetres/2010027Search in Google Scholar

Glupov V. V. (2001) - Mechanisms of resistance of insects, in: Glupov V. V. (ed.) Insect Pathogens: structural and functional aspects, Moscow, Kruglyi god, 2001, pp 475-557.Search in Google Scholar

Gregory G., Evans J. D., Rinderer T., de Guzman L. (2005) - Conditional immunegene suppression of honey bees parasitized by Varroa mites. J. Insect Sci., 5: 1-5.Search in Google Scholar

Grobov O. F., Lihotin A. K. (1989) - Diseases and pests of bees. Moscow: Agropromisdat. p: 239.Search in Google Scholar

Hanzawa H., Shimada I., Kuzuhara T., Komano H., Kohda D., Inagaki F., Natori S., Arata Y. (1990) - 1H nuclear magnetic resonance study of the solution conformation of an antibacterial protein, sapecin. FEBS Letters, 269: 413-420.10.1016/0014-5793(90)81206-4Search in Google Scholar

Higes M., Martin-Hernandez R., Gonzalez-Porto A. V., Garcia-Palencia P., Meana A., del Nozal M. J. (2009) - Honey bees colony collapse due to Nosema cernae in professional apiaries. Environmental Microbiology Reports, 1: 110-113.10.1111/j.1758-2229.2009.00014.xSearch in Google Scholar

Hoffmann J. A. (2003) - The immune response of Drosophila. Nature, 426: 33-38.10.1038/nature02021Search in Google Scholar

Hoffmann J. A., Kafatos F. C., Janawey C. A., Ezekovitz R. A. B. (1999) - Phylogenetic perspectives in innate immunity. Science, 284: 1313-1318.10.1126/science.284.5418.1313Search in Google Scholar

Hoffmann J. A., Richhart J. M. (1997) - Drosophila immunity. Trends in Cell Biology, 7: 309-316.10.1016/S0962-8924(97)01087-8Search in Google Scholar

Ilyasov R. A., Poskryakov A. V., Nikolenko A. G. (2008) - Polymorphism of antimicrobial peptides in honey bee population in the Urals. Biodiversity: Problems and perspectives of preservation. Proceedings of the International Scientific Conference, Penza, 13-16 may, 2008, Volume 2. pp: 247-248.Search in Google Scholar

Klaudiny J., Hanes J., Kulifajova J., Albert S., Simuth J. (1994) - Molecular cloning of two cDNAs from the head of the nurse honey bee (Apis mellifera L.) for coding related proteins of royal jelly. J. Apic. Res., 33: 105-111.Search in Google Scholar

Klaudiny J., Albert S., Bachanova K., Kopernicky J., Simuth J. (2005) - Two structurally different defensin genes, one of them encoding a novel defensin isoform, are expressed in honey bees Apis mellifera. Insect Biochemi. Mol. Biol., 35: 11-22.Search in Google Scholar

Klee J., Besana A. M., Genersch E., Gisder S., Nanetti A., Tam D. Q. (2007) - Widespread dispersal of the microsporidian Nosema ceranae, an emergent pathogen of the western honey bee, Apis mellifera. J. Invertbr. Pathol., 96: 1-10.Search in Google Scholar

Kwakman H. S., te Velde A. A., de Boer L., Speijer D., Vandenbroucke-Grauls C. M. J. E., Zaat S. A. J. (2010) - How honey kills bacteria. The FASEB Journal, 24(7): 2576-2582.10.1096/fj.09-150789Search in Google Scholar

Long M. (2001) - Evolution of novel genes. Curr. Opinion Genet. Dev., 11: 673-680Search in Google Scholar

Lopez L., Morales G., Ursic R., Wolff M., Lowneberger C. (2003) - Isolation and characterization of a novel insect defensin from Rhodnius prolixus, a vector of Chagas disease. Insect Biochem. Mol. Biol., 33: 439-447.Search in Google Scholar

Mandrioli M., Bugli S., Saltini S., Genedani S., Ottaviani E. (2003) - Molecular characterization of a defensin in the IZD-MB-0503 cell line derived from immunocytes of the insect Mamestra brassicae (Lepidoptera). Biology of the Cell, 95: 53-57.10.1016/S0248-4900(02)01219-4Search in Google Scholar

Miyagi T., Peng Ch. Y. S., Chuang R. Y., Mussen E. C., Spivak M. S., Doi R. H. (2000) - Verification of oxytetracyclineresistant American foulbrood pathogen Paenibacillus larvae in the United States. J. Invertebr. Pathol., 75: 95-96.Search in Google Scholar

Osta M. A., Christophides G. K., Vlachou D., Kafatos F. C. (2004) - Innate immunity in the malaria vector Anopheles gambiae: comparative and functional genomics. J. Exp. Biol., 207(15): 2551-2563.10.1242/jeb.0106615201288Search in Google Scholar

Qu N., Jiang J., Sun L., Lai C., Sun L., Wu X. (2008) - Proteomic Characterization of Royal Jelly Proteins in Chinese (Apis cerana cerana), European (Apis mellifera) Honey bees, Biochemistry, 1: 1-12.10.1134/S0006297908060072Search in Google Scholar

Raj P. A., Dentino A. R. (2002) - Current status of defensins and their role in innate and adaptive immunity. FEMS Microbiology Letters, 206: 9-18.10.1111/j.1574-6968.2002.tb10979.xSearch in Google Scholar

Saltykova E. S., Gaifullina L. R., Ilyasov R. A., Nikolenko A. G. (2010a) - Chitosan action on the main antibacterial peptides induction of the honey bee. Modern perspectives in chitin and chitosan studies. Proceedings of the Xth International Conference, Nizhny Novgorod, 29 June-2 July, 2010. pp. 308-310.Search in Google Scholar

Saltykova E. S., Ilyasov R. A., Gaifullina L. R., Poskryakov A. V., Yamidanov R. S., Nikolenko A. G. (2010b) - Changes in the expression level of antimicrobial peptides in the honeybee (Apis mellifera mellifera L.) organism. Modern beekeeping. Concerns, experiences, new technologies: Proceedings of the International Scientific-practical Conference. Yaroslavl, 12- 13 August, 2010. pp. 159-160.Search in Google Scholar

Shahabuddin M., Fields I., Bulet P., Hoffmann J. A., Miller L. (1998) - Plasmodium gallinaceum: differential killing of some mosquito stages of the parasite by insect defensin. Experimental Parasitology, 89 (1): 103-112.10.1006/expr.1998.4212Search in Google Scholar

Solbrig O. T., Solbrig D. J. (1979) - An Introduction to Population Biology and Evolution. Addison Wesley Publishing Company, Reading, Massachusets. p: 468.Search in Google Scholar

Stanley-Samuelson D. W. (1994) - Prostaglandins, related eicosanoids in insects. Advances in Insect Physiology, 24: 115-212.10.1016/S0065-2806(08)60083-1Search in Google Scholar

Taniani K., Wago H., Yamakawa M. (1997) - In vitro phagocytosis of Escherichia coli and release of lipopolysaccharide by adhering hemocytes of the silkworm, Bombyx mori. Biochem. Biophys. Res. Commun., 231: 623-627.Search in Google Scholar

Williams G. R., Rogers R. E. L., Kalkstein A. L., Taylor B. A., Shutler D., Ostiguy N. (2009) - Deformed wing virus in western honey bees (Apis mellifera) from Atlantic Canada, the first description of an overtlyinfected emerging queen. J. Invertebr. Pathol., 101: 77-79.Search in Google Scholar

Yang D., Biragyn A., Hoover D. M., Lubkowski J., Oppenheim J. J. (2004) - Multiple roles of antimicrobial defensins, cathelicidins, and eosinophil-derived neurotoxin in host defense. Annual Review of Immunology, 22: 181-215.10.1146/annurev.immunol.22.012703.10460315032578Search in Google Scholar

Yoon H. J., Sohn M. R., Young M. C., Jianhong L., Hung D. S., Byung R. J. (2009) - Defensin gene sequences of three different bumblebees, Bombus spp. Journal of Asia-Pacific Entomology, 12: 27-31.10.1016/j.aspen.2008.11.003Search in Google Scholar

Yoshiyama M., Kimura K. (2010) - Characterization of antimicrobial peptide genes from Japanese honey bees Apis cerana japonica (Hymenoptera: Apidae). Applied Entomology and Zoology, 45(4): 609-614.10.1303/aez.2010.609Search in Google Scholar

Zhu P., Lu Z. (1992) - Studies on the antibacterial substances of Pieris rapae induced by deltamethrin and trichlorfon. 19 Int. Congr. Entomol, Beijing, p: 594.Search in Google Scholar