Browsing School of Biological and Chemical Sciences by Author "Rossiter, SJ"
Now showing items 1-20 of 74
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Adaptive Evolution in the Glucose Transporter 4 Gene Slc2a4 in Old World Fruit Bats (Family: Pteropodidae)
Shen, B; Han, X; Zhang, J; Rossiter, SJ; Zhang, S (2012-04-06) -
Adaptive Evolution of Leptin in Heterothermic Bats
Yuan, L; Zhao, X; Lin, B; Rossiter, SJ; He, L; Zuo, X; He, G; Jones, G; Geiser, F; Zhang, S (2011-11-16) -
Adaptive Evolution of the Myo6 Gene in Old World Fruit Bats (Family: Pteropodidae)
Shen, B; Han, X; Jones, G; Rossiter, SJ; Zhang, S (2013-04-19) -
Adaptive Functional Diversification of Lysozyme in Insectivorous Bats
Liu, Y; He, G; Xu, H; Han, X; Jones, G; Rossiter, SJ; Zhang, S (2014-11) -
Altered structure of bat-prey interaction networks in logged tropical forests revealed by metabarcoding.
Hemprich-Bennett, DR; Kemp, VA; Blackman, J; Struebig, MJ; Lewis, OT; Rossiter, SJ; Clare, EL (Wiley, 2021-08-26)Habitat degradation is pervasive across the tropics and is particularly acute in Southeast Asia, with major implications for biodiversity. Much research has addressed the impact of degradation on species diversity; however, ... -
As Blind as a Bat? Opsin Phylogenetics Illuminates the Evolution of Color Vision in Bats.
Simões, BF; Foley, NM; Hughes, GM; Zhao, H; Zhang, S; Rossiter, SJ; Teeling, EC (2018-11-23)Through their unique use of sophisticated laryngeal echolocation bats are considered sensory specialists amongst mammals and represent an excellent model in which to explore sensory perception. While several studies have ... -
Characterization of microsatellite loci in the greater horseshoe bat Rhinolophus ferrumequinum
Rossiter, SJ; Burland, TM; Jones, G; Barratt, EM (1999-11) -
Cochlea development shapes bat sensory system evolution.
Anthwal, N; Hall, RP; de la Rosa Hernandez, FA; Koger, M; Yohe, LR; Hedrick, BP; Davies, KTJ; Mutumi, GL; Roseman, CC; Dumont, ER (2023-11-23)Sensory organs must develop alongside the skull within which they are largely encased, and this relationship can manifest as the skull constraining the organs, organs constraining the skull, or organs constraining one ... -
Common ancestors of bats were omnivorous suggested by resurrection of ancestral sweet receptors.
Li, Y; Jiao, H; Sin, SYW; Wang, R; Rossiter, SJ; Zhao, H (2023-08-30) -
Comparative analyses of bat genomes identify distinct evolution of immunity in Old World fruit bats
Tian, S; Zeng, J; Jiao, H; Zhang, D; Zhang, L; Lei, C-Q; Rossiter, SJ; Zhao, H (2023) -
Comparative genomics reveals contraction in olfactory receptor genes in bats
Tsagkogeorga, G; Muller, S; Dessimoz, C; Rossiter, SJ (2017-03-21) -
Convergent evolutionary shifts in rhodopsin retinal release explain shared opsin repertoires in monotremes and crocodilians
Guo, J; Chi, H; Zhang, L; Song, S; Rossiter, SJ; Liu, Y (2023) -
Convergent phenotypic evolution of rhodopsin for dim-light sensing across deep-diving vertebrates.
Xia, Y; Cui, Y; Wang, A; Liu, F; Chi, H; Potter, JHT; Williamson, J; Chen, X; Rossiter, SJ; Liu, Y (Oxford University Press, 2021-08-31)Rhodopsin comprises an opsin attached to a retinal chromophore, and is the only visual pigment conferring dim-light vision in vertebrates. On activation by photons, the retinal group becomes detached from the opsin, which ... -
Convergent spectral shifts to blue-green vision in mammals extends the known sensitivity of vertebrate M/LWS pigments.
Chi, H; Cui, Y; Rossiter, SJ; Liu, Y (PNAS, 2020-04-14)Daylight vision in most mammals is mediated predominantly by a middle/long wavelength-sensitive (M/LWS) pigment. Although spectral sensitivity and associated shifts in M/LWS are mainly determined by five critical sites, ... -
Corrigendum to "Diversification and introgression in four chromosomal taxa of the Pearson's horseshoe bat (Rhinolophus pearsoni) group" [Mol. Phylogenet. Evol. 183 (2023) 107784].
Zhou, W; Furey, NM; Soisook, P; Thong, VD; Lim, BK; Rossiter, SJ; Mao, X (2023-12) -
The database of the PREDICTS (Projecting Responses of Ecological Diversity In Changing Terrestrial Systems) project
Hudson, LN; Newbold, T; Contu, S; Hill, SLL; Lysenko, I; De Palma, A; Phillips, HRP; Alhusseini, TI; Bedford, FE; Bennett, DJ (2017-01) -
Degenerative expansion of a young supergene.
Stolle, E; Pracana, R; Howard, P; Paris, CI; Brown, SJ; Castillo-Carrillo, C; Rossiter, SJ; Wurm, Y (Oxford University Press, 2018-12-21)Long term suppression of recombination ultimately leads to gene loss, as demonstrated by the depauperate Y and W chromosomes of long-established pairs of XY and ZW chromosomes. The young social supergene of the Solenopsis ... -
Dietary Diversification and Specialisation in New World Bats Facilitated by Early Molecular Evolution.
Potter, JHT; Davies, KTJ; Yohe, LR; Sanchez, MKR; Rengifo, EM; Struebig, M; Warren, K; Tsagkogeorga, G; Lim, BK; Dos Reis, M (Oxford University Press, 2021-02-15)Dietary adaptation is a major feature of phenotypic and ecological diversification, yet the genetic basis of dietary shifts is poorly understood. Among mammals, Neotropical leaf-nosed bats (family Phyllostomidae) show ... -
Dietary Diversification and Specialization in Neotropical Bats Facilitated by Early Molecular Evolution (vol 38, pg 3864, 2021)
Potter, JHT; Davies, KTJ; Yohe, LR; Sanchez, MKR; Rengifo, EM; Struebig, M; Warren, K; Tsagkogeorga, G; Lim, BK; dos Reis, M (Oxford University Press, 2021-08-18)This is a correction to: Molecular Biology and Evolution, Volume 38, Issue 9, September 2021, Pages 3864–3883, https://doi.org/10.1093/molbev/msab028 -
Dietary Diversification and Specialization in Neotropical Bats Facilitated by Early Molecular Evolution.
Potter, JHT; Davies, KTJ; Yohe, LR; Sanchez, MKR; Rengifo, EM; Struebig, M; Warren, K; Tsagkogeorga, G; Lim, BK; Dos Reis, M (Oxford University Press, 2021-08-23)Dietary adaptation is a major feature of phenotypic and ecological diversification, yet the genetic basis of dietary shifts is poorly understood. Among mammals, Neotropical leaf-nosed bats (family Phyllostomidae) show ...