@article{MTMT:1921888,
	title = {Insights into social insects from the genome of the honeybee Apis mellifera},
	url = {https://m2.mtmt.hu/api/publication/1921888},
	author = {Weinstock, GM and Robinson, GE and Gibbs, RA and Worley, KC and Evans, JD and Maleszka, R and Robertson, HM and Weaver, DB and Beye, M and Bork, P and Elsik, CG and Hartfelder, K and Hunt, GJ and Zdobnov, EM and Amdam, GV and Bitondi, MMG and Collins, AM and Cristino, AS and Lattorff, HMG and Lobo, CH and Moritz, RFA and Nunes, FMF and Page, RE and Simoes, ZLP and Wheeler, D and Carninci, P and Fukuda, S and Hayashizaki, Y and Kai, C and Kawai, J and Sakazume, N and Sasaki, D and Tagami, M and Albert, S and Baggerman, G and Beggs, KT and Bloch, G and Cazzamali, G and Cohen, M and Drapeau, MD and Eisenhardt, D and Emore, C and Ewing, MA and Fahrbach, SE and Foret, S and Grimmelikhuijzen, CJP and Hauser, F and Hummon, AB and Huybrechts, J and Jones, AK and Kadowaki, T and Kaplan, N and Kucharski, R and Leboulle, G and Linial, M and Littleton, JT and Mercer, AR and Richmond, TA and Rodriguez-Zas, SL and Rubin, EB and Sattelle, DB and Schlipalius, D and Schoofs, L and Shemesh, Y and Sweedler, JV and Velarde, R and Verleyen, P and Vierstraete, E and Williamson, MR and Ament, SA and Brown, SJ and Corona, M and Dearden, PK and Dunn, WA and Elekonich, MM and Fujiyuki, T and Gattermeier, I and Gempe, T and Hasselmann, M and Kadowaki, T and Kage, E and Kamikouchi, A and Kubo, T and Kucharski, R and Kunieda, T and Lorenzen, MD and Milshina, NV and Morioka, M and Ohashi, K and Overbeek, R and Ross, CA and Schioett, M and Shippy, T and Takeuchi, H and Toth, AL and Willis, JH and Wilson, MJ and Gordon, KHJ and Letunic, I and Hackett, K and Peterson, J and Felsenfeld, A and Guyer, M and Solignac, M and Agarwala, R and Cornuet, JM and Monnerot, M and Mougel, F and Reese, JT and Vautrin, D and Gillespie, JJ and Cannone, JJ and Gutell, RR and Johnston, JS and Eisen, MB and Iyer, VN and Iyer, V and Kosarev, P and Mackey, AJ and Solovyev, V and Souvorov, A and Aronstein, KA and Bilikova, K and Chen, YP and Clark, AG and Decanini, LI and Gelbart, WM and Hetru, C and Hultmark, D and Imler, JL and Jiang, HB and Kanost, M and Kimura, K and Lazzaro, BP and Lopez, DL and Simuth, J and Thompson, GJ and Zou, Z and De Jong, P and Sodergren, E and Csűrös, Miklós and Milosavljevic, A and Osoegawa, K and Richards, S and Shu, CL and Duret, L and Elhaik, E and Graur, D and Anzola, JM and Campbell, KS and Childs, KL and Collinge, D and Crosby, MA and Dickens, CM and Grametes, LS and Grozinger, CM and Jones, PL and Jorda, M and Ling, X and Matthews, BB and Miller, J and Mizzen, C and Peinado, MA and Reid, JG and Russo, SM and Schroeder, AJ and St, Pierre SE and Wang, Y and Zhou, PL and Jiang, HY and Kitts, P and Ruef, B and Venkatraman, A and Zhang, L and Aquino-Perez, G and Whitfield, CW and Behura, SK and Berlocher, SH and Sheppard, WS and Smith, DR and Suarez, AV and Tsutsui, ND and Wei, XH and Wheeler, D and Havlak, P and Li, BS and Liu, Y and Sodergren, E and Jolivet, A and Lee, S and Nazareth, LV and Pu, LL and Thorn, R and Stolc, V and Newman, T and Samanta, M and Tongprasit, WA and Claudianos, C and Berenbaum, MR and Biswas, S and de Graaf, DC and Feyereisen, R and Johnson, RM and Oakeshott, JG and Ranson, H and Schuler, MA and Muzny, D and Chacko, J and Davis, C and Dinh, H and Gill, R and Hernandez, J and Hines, S and Hume, J and Jackson, L and Kovar, C and Lewis, L and Miner, G and Morgan, M and Nguyen, N and Okwuonu, G and Paul, H and Santibanez, J and Savery, G and Svatek, A and Villasana, D and Wright, R},
	doi = {10.1038/nature05260},
	journal-iso = {NATURE},
	journal = {NATURE},
	volume = {443},
	unique-id = {1921888},
	issn = {0028-0836},
	abstract = {Here we report the genome sequence of the honeybee Apis mellifera, a key model for social behaviour and essential to global ecology through pollination. Compared with other sequenced insect genomes, the A. mellifera genome has high A+T and CpG contents, lacks major transposon families, evolves more slowly, and is more similar to vertebrates for circadian rhythm, RNA interference and DNA methylation genes, among others. Furthermore, A. mellifera has fewer genes for innate immunity, detoxification enzymes, cuticle-forming proteins and gustatory receptors, more genes for odorant receptors, and novel genes for nectar and pollen utilization, consistent with its ecology and social organization. Compared to Drosophila, genes in early developmental pathways differ in Apis, whereas similarities exist for functions that differ markedly, such as sex determination, brain function and behaviour. Population genetics suggests a novel African origin for the species A. mellifera and insights into whether Africanized bees spread throughout the New World via hybridization or displacement.},
	year = {2006},
	eissn = {1476-4687},
	pages = {931-949}
}

@article{MTMT:1904570,
	title = {Interactions and developmental effects of mutations at the 2B5 locus of Drosophila melanogaster.},
	url = {https://m2.mtmt.hu/api/publication/1904570},
	author = {Kiss, István and BEATON, AH and TARDIFF, J and FRISTROM, D and FRISTROM, JW},
	journal-iso = {GENETICS},
	journal = {GENETICS},
	volume = {118},
	unique-id = {1904570},
	issn = {0016-6731},
	year = {1988},
	eissn = {1943-2631},
	pages = {247-259}
}