Genome analysis reveals insights into physiology and longevity of the Brandtâs bat Myotis brandtii

Inge Seim; Xiaodong Fang; Zhiqiang Xiong; Alexey V. Lobanov; Zhiyong Huang; Siming Ma; Yue Feng; Anton A. Turanov; Yabing Zhu; Tobias L. Lenz; Maxim V. Gerashchenko; Dingding Fan; Sun Hee Yim; Xiaoming Yao; Daniel M. Jordan; Yingqi Xiong; Yong Ma; Andrey N. Lyapunov; Guanxing Chen; О. И. Кулакова; Yudong Sun; Sang‐Goo Lee; Roderick T. Bronson; Alexey Moskalev; Shamil Sunyaev; Guojie Zhang; Anders Krogh; Jun Wang; Vadim N. Gladyshev

doi:10.1038/ncomms3212

Genome analysis reveals insights into physiology and longevity of the Brandtâs bat Myotis brandtii

Inge Seim(Brigham and Women's Hospital), Xiaodong Fang(BGI Group (China)), Zhiqiang Xiong(BGI Group (China)), Alexey V. Lobanov(Brigham and Women's Hospital), Zhiyong Huang(BGI Group (China)), Siming Ma(Brigham and Women's Hospital), Yue Feng(BGI Group (China)), Anton A. Turanov(Brigham and Women's Hospital), Yabing Zhu(BGI Group (China)), Tobias L. Lenz(Brigham and Women's Hospital), Maxim V. Gerashchenko(Brigham and Women's Hospital), Dingding Fan(BGI Group (China)), Sun Hee Yim(Brigham and Women's Hospital), Xiaoming Yao(BGI Group (China)), Daniel M. Jordan(Brigham and Women's Hospital), Yingqi Xiong(BGI Group (China)), Yong Ma(BGI Group (China)), Andrey N. Lyapunov(Kirov State Medical Academy), Guanxing Chen(BGI Group (China)), О. И. Кулакова(Russian Academy of Sciences), Yudong Sun(BGI Group (China)), Sang‐Goo Lee(Ewha Womans University), Roderick T. Bronson(Harvard University), Alexey Moskalev(Russian Academy of Sciences), Shamil Sunyaev(Brigham and Women's Hospital), Guojie Zhang(BGI Group (China)), Anders Krogh(University of Copenhagen), Jun Wang(University of Copenhagen), Vadim N. Gladyshev(Brigham and Women's Hospital)

Europe PMC (PubMed Central)

August 20, 2013

10.1038/ncomms3212

Cited by 278Open Access

Full Text

Abstract

Bats account for one-fifth of mammalian species, are the only mammals with powered flight, and are among the few animals that echolocate. The insect-eating Brandtâs bat (Myotis brandtii) is the longest-lived bat species known to date (lifespan exceeds 40 years) and, at 4â8âg adult body weight, is the most extreme mammal with regard to disparity between body mass and longevity. Here we report sequencing and analysis of the Brandtâs bat genome and transcriptome, which suggest adaptations consistent with echolocation and hibernation, as well as altered metabolism, reproduction and visual function. Unique sequence changes in growth hormone and insulin-like growth factor 1 receptors are also observed. The data suggest that an altered growth hormone/insulin-like growth factor 1 axis, which may be common to other long-lived bat species, together with adaptations such as hibernation and low reproductive rate, contribute to the exceptional lifespan of the Brandtâs bat.

Related Papers

No related papers found

Powered by citation graph analysis