APA
Harrison M. C., Jongepier E., Robertson H. M., Arning N., Bitard-Feildel T., Chao H., Childers C. P., Dinh H., Doddapaneni H., Dugan S., Gowin J., Greiner C., Han Y., Hu H., Hughes D. S. T., Huylmans A., Kemena C., Kremer L. P. M., Lee S. L., Lopez-Ezquerra A., Mallet L., Monroy-Kuhn J. M., Moser A., Murali S. C., Muzny D. M., Otani S., Piulachs M., Poelchau M., Qu J., Schaub F., Wada-Katsumata A., Worley K. C., Xie Q., Ylla G., Poulsen M., Gibbs R. A., Schal C., Richards S., Belles X., Korb J. & Bornberg-Bauer E. (20190508). Hemimetabolous genomes reveal molecular basis of termite eusociality. : Nature ecology & evolution.
Chicago
Harrison Mark C, Jongepier Evelien, Robertson Hugh M, Arning Nicolas, Bitard-Feildel Tristan, Chao Hsu, Childers Christopher P, Dinh Huyen, Doddapaneni Harshavardhan, Dugan Shannon, Gowin Johannes, Greiner Carolin, Han Yi, Hu Haofu, Hughes Daniel S T, Huylmans Ann-Kathrin, Kemena Carsten, Kremer Lukas P M, Lee Sandra L, Lopez-Ezquerra Alberto, Mallet Ludovic, Monroy-Kuhn Jose M, Moser Annabell, Murali Shwetha C, Muzny Donna M, Otani Saria, Piulachs Maria-Dolors, Poelchau Monica, Qu Jiaxin, Schaub Florentine, Wada-Katsumata Ayako, Worley Kim C, Xie Qiaolin, Ylla Guillem, Poulsen Michael, Gibbs Richard A, Schal Coby, Richards Stephen, Belles Xavier, Korb Judith and Bornberg-Bauer Erich. 20190508. Hemimetabolous genomes reveal molecular basis of termite eusociality. : Nature ecology & evolution.
Harvard
Harrison M. C., Jongepier E., Robertson H. M., Arning N., Bitard-Feildel T., Chao H., Childers C. P., Dinh H., Doddapaneni H., Dugan S., Gowin J., Greiner C., Han Y., Hu H., Hughes D. S. T., Huylmans A., Kemena C., Kremer L. P. M., Lee S. L., Lopez-Ezquerra A., Mallet L., Monroy-Kuhn J. M., Moser A., Murali S. C., Muzny D. M., Otani S., Piulachs M., Poelchau M., Qu J., Schaub F., Wada-Katsumata A., Worley K. C., Xie Q., Ylla G., Poulsen M., Gibbs R. A., Schal C., Richards S., Belles X., Korb J. and Bornberg-Bauer E. (20190508). Hemimetabolous genomes reveal molecular basis of termite eusociality. : Nature ecology & evolution.
MLA
Harrison Mark C, Jongepier Evelien, Robertson Hugh M, Arning Nicolas, Bitard-Feildel Tristan, Chao Hsu, Childers Christopher P, Dinh Huyen, Doddapaneni Harshavardhan, Dugan Shannon, Gowin Johannes, Greiner Carolin, Han Yi, Hu Haofu, Hughes Daniel S T, Huylmans Ann-Kathrin, Kemena Carsten, Kremer Lukas P M, Lee Sandra L, Lopez-Ezquerra Alberto, Mallet Ludovic, Monroy-Kuhn Jose M, Moser Annabell, Murali Shwetha C, Muzny Donna M, Otani Saria, Piulachs Maria-Dolors, Poelchau Monica, Qu Jiaxin, Schaub Florentine, Wada-Katsumata Ayako, Worley Kim C, Xie Qiaolin, Ylla Guillem, Poulsen Michael, Gibbs Richard A, Schal Coby, Richards Stephen, Belles Xavier, Korb Judith and Bornberg-Bauer Erich. Hemimetabolous genomes reveal molecular basis of termite eusociality. : Nature ecology & evolution. 20190508.