[Bernt, M., Donath, A., Jühling, F., Externbrink, F., Florentz, C., Fritzsch, G., … Stadler, P. F. (2013). MITOS: improved de novo Metazoan mitochondrial genome annotation. Molecular Phylogenetics and Evolution, 69(2), 313-319. DOI: 10.1016/j.ympev.2012.08.02310.1016/j.ympev.2012.08.02322982435]Search in Google Scholar
[Crozier, R. H., & Crozier, Y. C. (1993). The mitochondrial genome of the honeybee Apis mellifera: complete sequence and genome organization. Genetics, 133(1), 97-117. DOI: 10.1111/j.1365-2583.1993. tb00131.x10.1093/genetics/133.1.97]Search in Google Scholar
[De Salle, R., Freedman, T., Prager, E. M., & Wilson, A. C. (1987). Tempo and mode of sequence evolution in mitochondrial DNA of Hawaiian Drosophila. Journal of Molecular Evolution, 26, 157-164. DOI: 10.1007/BF0211128910.1007/BF021112893125333]Search in Google Scholar
[Eimanifar, A., Kimball, R. T., Braun, E. L., Moustafa, B. M., Haddad, N., Fuchs, S., Grunewald, B., Ellis, J. D. (2017). The complete mitochondrial genome of the Egyptian honey bee, Apis mellifera lamarckii (Insecta: Hymenoptera: Apidae). Mitochondrial DNA Part B, 2(1), 270-272. DOI: 10.1080/23802359.2017.132534310.1080/23802359.2017.1325343779982833473796]Search in Google Scholar
[Goetze, G. K. L. (1964). Die Honigbiene in natürlicher und künstlicher Zuchtauslese. Teil 1. Systematik, Zeugung und Vererbungauslese. Monographien zur Angewandte Entomologie, 19, 1-120.]Search in Google Scholar
[Han, T., Lee, W., Lee, S., Park, I. G., Park, H. (2016). Reassessment of species diversity of the subfamily Denticollinae (Coleoptera: Elateridae) through DNA barcoding. PLoS One, 11(2), e0148602. DOI: 10.1371/journal.pone.014860210.1371/journal.pone.0148602474405326848744]Search in Google Scholar
[Ilyasov, R. A., Park, J., Takahashi, J. & Kwon, H. W. (2018a). Phylogenetic uniqueness of honeybee Apis cerana from the Korean peninsula inferred from the mitochondrial, nuclear, and morphological data. Journal of Apicultural Science, 62(2), 189-214. DOI: 10.2478/JAS-2018-001810.2478/jas-2018-0018]Search in Google Scholar
[Ilyasov, R. A., Park, J. H., Takahashi, J., Lim, S. H., Han, G. Y., Song, J. H., Kwon, H. W. (2018b). Unique subspecies of Asian bees Apis cerana in Korean peninsula. In Materials of the 33rd Conference of the Apicultural Society of Korea (12-13.04.2018) (26 pp.). Gwangju, Korea: Apicultural Society of Korea.]Search in Google Scholar
[Ilyasov, R. A., Poskryakov, A. V., & Nikolenko, A. G. (2015). New SNP markers of the honeybee vitellogenin gene (Vg) used for identification of subspecies Apis mellifera mellifera L. Russian Journal of Genetics, 51(2), 163-168. ISSN: 1022-7954 DOI: 10.1134/S102279541502008810.1134/S1022795415020088]Search in Google Scholar
[Ilyasov, R. A., Proshchalykin, M.Y., Lelej, A. S., Takahashi, J., Kwon, H. W. (2018c). The Russian Far East Apis cerana is a distinct subspecies proved from the mitochondrial, nuclear, and morphological data. In Materials of the 34th Conference of the Apicultural Society of Korea (11-13.10.2018) (28 pp.). Chilgok, Korea: Apicultural Society of Korea.]Search in Google Scholar
[Ilyasov, R. A., Proshchalykin, M. Y., Poskryakov, A. V., Lelej, A. C., Nikolenko, A. G. (2014). The population of the Asian wax bees A.cerana in the Far East. Biomics, 6(3), 139-144.]Search in Google Scholar
[International Commission on Zoological Nomenclature (1999). International Code of Zoological Nomenclature (ICZN). (306 pp.). London: International Commission on Zoological Nomenclature.]Search in Google Scholar
[Johns, G. C., & Avise, J. C. (1998). A comparative summary of genetic distances in the vertebrates from the mitochondrial Cytochrome B gene. Molecular Biology and Evolution, 15, 1481-1490. DOI: 10.1002/nag.93310.1002/nag.933]Search in Google Scholar
[Jukes, T. H., & Cantor, C. R. (1969). Evolution of protein molecules. In Munro, H. N. editor. Mammalian protein metabolism (21-132 pp.). New York: Academic Press.10.1016/B978-1-4832-3211-9.50009-7]Search in Google Scholar
[Kent, C. F., Issa, A., Bunting, A. C., & Zayed, A. (2011). Adaptive evolution of a key gene affecting queen and worker traits in the honey bee, Apis mellifera. Molecular Ecology, 20(24), 5226-5235. DOI: 10.1111/j.1365-294X.2011.05299.x10.1111/j.1365-294X.2011.05299.x21981322]Search in Google Scholar
[Kent, C. F., Minaei, S., Harpur, B. A., & Zayed, A. (2012). Recombination is associated with the evolution of genome structure and worker behavior in honey bees. Proceedings of the National Academy of Sciences of the United States of America, 109(44), 18012-18017. DOI: 10.1073/pnas.120809410910.1073/pnas.1208094109349779323071321]Search in Google Scholar
[Kumar, S., Stecher, G., & Tamura, K. (2016). MEGA7: molecular evolutionary genetics analysis version 7.0 for bigger datasets. Molecular Biology and Evolution, 33(7), 1870-1874. DOI: 10.1093/molbev/msw05410.1093/molbev/msw054821082327004904]Search in Google Scholar
[Kuznetsov, V. N. (2002). Chinese wax bee Apis cerana cerana F. (Hymenoptera, Apidae) in Primorsky Krai. (42 pp.). Vladivostok: Bals.]Search in Google Scholar
[Kuznetsov, V. N. (2005). Chinese wax bee Apis cerana cerana F. (Hymenoptera, Apidae) in the Russian Far East of Russia. (111 pp.). Moscow: KMK Scientific Press.]Search in Google Scholar
[Kuznetsov, V. N., & Lelej, A. S. (2005). Chinese wax bee. In Kostenko, V. A. editor. Red Book of the Primorye Territory. Animals. Rare and endangered species of animals (83-84 pp.). Vladivostok: AVK “Apelsin”.]Search in Google Scholar
[Kuznetsov, V. N., & Proshchalykin, M.Y. (2004). Chinese wax bee Apis cerana cerana F. (Hymenoptera, Apidae) in the south of the Russian Far East of Russia. (56 pp.). Vladivostok: Bals.]Search in Google Scholar
[Lawrjochin, F. A. (1947). The patterns of morphology and behavior of Apis indica. Russian Journal of Beekeeping “Pchelovodstvo”, 7, 31-36.]Search in Google Scholar
[Lawrjochin, F. A. (1960). Über die ersten Versuche zur Einführung der wildlebenden ussurischen Bienen (Apis indica F.) in den europäischen Teil der Sowjetunion. In Atti Ufficiali XVII Congresso Internazionale degli Apicoltori 15-23 Settembre 1958, V. 2, (237-238 pp.). Bologna-Roma: Imola Tipografia Galeati.]Search in Google Scholar
[Lee, J. Y., Wang, A. R., Choi, Y. S., Thapa, R., Kwon, H. W., Kim, I. (2016). Mitochondrial DNA variations in Korean Apis cerana (Hymenoptera: Apidae) and development of another potential marker. Apidologie, 47(1), 123-134. DOI: 10.1007/s13592-015-0381-y10.1007/s13592-015-0381-y]Search in Google Scholar
[Lee, M. L., & Choi, S. Y. (1986). Biometrical studies on the some morphological characters in Korean honeybees, Apis cerana F. and A. mellifera L. Korean Journal of Apiculture, 1(1), 5-23.]Search in Google Scholar
[Lelej, A. C. (1995). Apis L. In Lelej, A. S., Kupyanskaya, A. N., Kurzenko, N. V., Nemkov, P. G. editors. Key to the insects of Russian Far East, V. 4, (580 pp.). Saint Petersburg: Nauka.]Search in Google Scholar
[Nei, M., & Kumar, S. (2000). Molecular evolution and phylogenetics. (333 pp.). New York: Oxford University Press.]Search in Google Scholar
[Okuyama, H., Tingek, S., & Takahashi, J. (2017). The complete mitochondrial genome of the cavity-nesting honeybee, Apis cerana (Insecta: Hymenoptera: Apidae) from Borneo. Mitochondrial DNA Part B, 2(2), 475-476. DOI: 10.1080/23802359.2017.136134410.1080/23802359.2017.1361344]Search in Google Scholar
[Pesenko, Y. A., Lelej, A. S., Radchenko, V. G., & Filatkin, G. N. (1989). Chinese wax-bee, Apis cerana cerana F. (Hymenoptera, Apidae) in the Far East of the USSR. Entomologicheskoe Obozrenie, 68, 527-548. (English translation: Pesenko, Y. A., Lelej, A. S., Radchenko, V. G., & Filatkin, G. N. (1990). Chinese wax-bee, Apis cerana cerana F. (Hymenoptera, Apidae) in the Far East of the USSR. Entomological Review (Washington), 69(3), 21-46.]Search in Google Scholar
[Proshchalykin, M. Y. (2012). Section Apiformes bees. In Lelej, A. S., Kupyanskaya, A. N., Proshchalykin M. Yu., Loktionov, V. M. editors. Annotated catalogue of the insects of the Russian Far East. Hymenoptera, V. 1, (449-473 pp.). Vladivostok: Dalnauka.]Search in Google Scholar
[Proshchalykin, M. Y., Novomodnyi, E. V., Bezborodov, V. G., & Koshkin, E. S. (2014). First records of wax bee Apis cerana Fabricius, 1793 (Hymenoptera, Apidae) in Khabarovskii Krai. Euroasian Entomological Journal, 13(3), 295-298.]Search in Google Scholar
[Radloff, S. E., Hepburn, C., Randall Hepburn, H., Fuchs, S., Hadisoesilo, S., Tan, K., Engel, M. S., & Kuznetsov, V. (2010). Population structure and classification of Apis cerana. Apidologie, 41, 589-601. DOI: 10.1051/apido/201000810.1051/apido/2010008]Search in Google Scholar
[Ruttner, F. (1988). Biogeography and taxonomy of honeybees. (288 pp.). Berlin, Heidelberg, Germany: Springer-Verlag. DOI: 10.1016/0169-5347(89)90176-610.1016/0169-5347(89)90176-6]Search in Google Scholar
[Saitou, N., & Nei, M. (1987). The neighbor-joining method: a new method for reconstructing phylogenetic trees. Molecular Biology and Evolution, 4, 406-425.]Search in Google Scholar
[Sanger, F., Nicklen, S., & Coulson, A. R. (1977). DNA sequencing with chain-terminating inhibitors. Proceedings of the National Academy of Sciences of the United States of America, 74(12), 5463-5467. DOI: 10.1073/pnas.74.12.546310.1073/pnas.74.12.5463431765271968]Search in Google Scholar
[Smith, D. R. (2011). Asian honeybees and mitochondrial DNA. In Hepburn, H. R., Radloff, S. E. editors. Honeybees of Asia (69-93 pp.). Heidelberg: Springer-Verlag Berlin.10.1007/978-3-642-16422-4_4]Search in Google Scholar
[Tamura, K., Battistuzzi, F. U., Billing-Ross, P., Murillo, O., Filipski, A., Kumar, S. (2012). Estimating divergence times in large molecular phylogenies. Proceedings of the National Academy of Sciences of the United States of America, 109(47), 19333-19338. DOI: 10.1073/pnas.121319910910.1073/pnas.1213199109351106823129628]Search in Google Scholar
[Tamura, K., & Nei, M. (1993). Estimation of the number of nucleotide substitutions in the control region of mitochondrial DNA in humans and chimpanzees. Molecular Biology and Evolution, 10, 512-526.]Search in Google Scholar
[Tan, H. W., Liu, G. H., Dong, X., Lin, R. Q., Song, H. Q., Huang, S. Y., … Zhu, X. Q. (2011). The complete mitochondrial genome of the Asiatic cavity-nesting honeybee Apis cerana (Hymenoptera: Apidae). PLoS One, 6(8), e23008. DOI: 10.1371/journal.pone.002300810.1371/journal.pone.0023008315552621857981]Search in Google Scholar
[Tan, K., Fuchs, S., Koeniger, N., & Ruiguang, Z. (2003). Morphological characterization of Apis cerana in the Yunnan Province of China. Apidologie, 34(6), 553-561. DOI: 10.1051/apido:200304910.1051/apido:2003049]Search in Google Scholar
[Tan, K., Warrit, N., & Smith, D. R. (2007). Mitochondrial DNA diversity of Chineses Apis cerana. Apidologie, 38, 238-246. DOI: 10.1051/apido:200700810.1051/apido:2007008]Search in Google Scholar
[Tan, Y.D., Wan, C., Zhu, Y., Lu, C., Xiang, Z., Deng, H. W. (2001). An amplified fragment length polymorphism map of the silkworm. Genetics, 157(3), 1277-1284.10.1093/genetics/157.3.1277146154711238411]Search in Google Scholar
[Zayed, A., Naeger, N. L., Rodriguez-Zas, S. L., & Robinson, G. E. (2012). Common and novel transcriptional routes to behavioral maturation in worker and male honey bees. Genes, Brain and Behavior, 11(3), 253-261. DOI: 10.1111/j.1601-183X.2011.00750.x10.1111/j.1601-183X.2011.00750.x22050787]Search in Google Scholar