毛秀光 - 华东师范大学 - 生态与环境科学学院

个人简介

教育经历教育背景 2007. 9 - 2010. 7: 华东师范大学, 分子生态学，博士 2004. 9 - 2007. 7: 中科院昆明动物研究所，细胞遗传学，硕士 1998. 9 - 2002. 7: 西北大学，学士学习经历 2010. 3 - 2010. 4: Queen Mary University of London 2004. 9 - 2005. 7: 中科院上海生科院生化与细胞研究所工作经历 2020. 2 - 至今：华东师范大学, 生态与环境科学学院，副研究员 2014. 11 - 2020.1：华东师范大学, 河口海岸科学研究院，副研究员 2012. 3 - 2014. 3: Queen Mary University of London, 欧盟玛丽居里学者 2010. 7 - 2012. 6: 华东师范大学, 博士后

研究领域

蝙蝠多样性与进化课题组主要研究领域：分子生态学、进化基因组学、生态基因组学主要研究问题： 1）适应性进化：以回声定位、冬眠为例，研究适应性表型产生及变异的分子基础 2）系统发育与物种形成 3）染色体重排与基因组进化 4）病毒与宿主共进化

近期论文

查看导师新发文章（温馨提示：请注意重名现象，建议点开原文通过作者单位确认）

Wu JY, Duan C, Lan LJ, Chen WL, Mao XG*. 2024. Sex differences in cochlear transcriptomes in horseshoe bats. Animals, 14(8), 1177. Liu ML#, Wang CL#, Huo LF#, Cao J#, Mao XG#, He ZQ#, Hu CX#, Sun HJ#, Deng WJ, He WY, Chen YF, Gu MF, Liao JY, Guo N, He XY, Wu Q, Chen JK, Zhang LB*, Wang XQ*, Shang CP*, Dong J*. 2024. Complexin-1 enhances ultrasound neurotransmission in the mammalian auditory pathway. Nature Genetics (accepted). Lan LJ#, Zhan X#, Yang SX#, Li LJ*, Mao XG*. 2023. Chromosome-level genome assembly of the Stoliczka’s Asian trident bat (Aselliscus stoliczkanus). Scientific Data, 10, 902. Li QQ, Wu JY, Mao XG*. 2023. The roles of different gene expression regulators in acoustic variation in the intermediate horseshoe bat revealed by long-read and short-read RNA sequencing data. Current Zoology, zoad045. Zhou WW, Furey NM, Soisook P, Thong VD, Lim BK, Rossiter SJ*, Mao XG*. 2023. Diversification and introgression in four chromosomal taxa of the Pearson's horseshoe bat (Rhinolophus pearsoni) group. Molecular Phylogenetics and Evolution, 183, 107784. Chen WL, Zhou WW, Li QQ, Mao XG*. 2023. Sex differences in gene expression and alternative splicing in the Chinese horseshoe bat. PeerJ, 11, e15231. Li QQ, Chen WL, Mao XG*. 2022. Characterization of microRNA and gene expression in the cochlea of an echolocating bat (Rhinolophus affinis). Ecology and Evolution,12, e9025. Chen WL, Mao XG*. 2022. Impacts of seasonality on gene expression in the Chinese horseshoe bat. Ecology and Evolution,12, e8923. Chen WL, Mao XG*. 2021. Extensive alternative splicing triggered by mitonuclear mismatch in naturally introgressed Rhinolophus bats. Ecology and Evolution, 11, 12003-12010. Ding YT#, Chen WL#, Li QQ, Rossiter SJ, Mao XG*. 2021. Mitonuclear mismatch alters nuclear gene expression in naturally introgressed Rhinolophus bats. Frontiers in Zoology, 18, 42. Ding YT, Chen WL*, Mao XG. 2021.The complete mitochondrial genome of Rhinolophus affinis himalayanus. Mitochondrial DNA Part B, 6 (1), 164-165. Ma L, Sun HJ, Mao XG*. 2020. Transcriptome sequencing of cochleae from constant-frequency and frequency-modulated echolocating bats. Scientific Data,7, 341. Sun HJ, Chen WL, Wang JY, Zhang LB, Rossiter SJ*, Mao XG*. 2020. Echolocation call frequency variation in horseshoe bats: molecular basis revealed by comparative transcriptomics. Proceedings of The Royal Society B-Biological Sciences,287, 20200875. Sun HJ, Wang JY, Xing YT, Pan Yi-Hsuan, Mao XG*. 2020. Gut transcriptomic changes during hibernation in the greater horseshoe bat (Rhinolophus ferrumequinum). Frontiers in Zoology, 17, 21. Mao XG*, Rossiter SJ. 2020. Genome-wide data reveal discordant mitonuclear introgression in the intermediate horseshoe bat (Rhinolophus affinis). Molecular Phylogenetics and Evolution, 150, 106886. Mao XG*, Tsagkogeorga G, Thong VD, Rossiter SJ*. 2019. Resolving evolutionary relationships among six closely related taxa of the horseshoe bats (Rhinolophus) with targeted resequencing data. Molecular Phylogenetics and Evolution, 139, 106551. Wu HN, Xing YT, Sun HJ, Mao XG*. 2019. Gut microbial diversity in two insectivorous bats: Insights into the effect of different sampling sources. MicrobiologyOpen, 8(4), e00670. Thong VD*, Mao XG, Csorba, G., Bates, P., Ruedi, M., Viet, N. V., ... & Son, N. T. 2018. First records of Myotis altarium (Chiroptera: Vespertilionidae) from India and Vietnam. Mammal Study, 43, 67-73. Shi HZ#, Xing YT#, Mao XG*. 2017. The little brown bat nuclear genome contains an entire mitochondrial genome: real or artifact? Gene, 629, 64-67. Mao XG*, Tsagkogeorga G, Bailey SB, Rossiter SJ*. 2017. Genomics of introgression in the Chinese horseshoe bat (Rhinolophus sinicus) revealed by transcriptome sequencing. Biological Journal of Linnean Society, 121, 698-710. Xing YT, Mao XG*. 2016. The complete mitochondrial genome of the Thomas’s horseshoe bat (Rhinolophus thomasi) using next-generation sequencing and Sanger sequencing. Mitochondrial DNA Part B 1, 964-965. Shi HZ#,Dong J#, Irwin DM, Zhang SY*, Mao XG*. 2016. Repetitive transpositions of mitochondrial DNA sequences to the nucleus during the radiation of horseshoe bats (Rhinolophus, Chiroptera). Gene, 581, 161-169. Shi HZ, Zhang SY, Mao XG*. 2016. The complete mitochondrial genome of the king horseshoe bat (Rhinolophus rex) using next-generation sequencing and Sanger sequencing. Mitochondrial DNA Part A, 27, 4545-4546 Shi HZ, Ren M, Zhang SY, Mao XG*. 2016. A complete mitochondrial genome of the Damaraland mole rat Fukomys damarensis retrieved from the published genome of the Brandt's bat Myotis brandtii. Mitochondrial DNAPart A, 27, 4282-4283. Mao XG*, Zhang SY, Rossiter SJ. 2016. Differential introgression suggests candidate beneficial and barrier loci between two parapatric subspecies of Pearson′s horseshoe bat (Rhinolophus pearsoni). Current Zoology, 62, 405-412. Bailey SB*, Mao XG, Struebig M, Tsagkogeorga G, Csorba G, Heaney LR, Sedlock J, Stanley W, Rouillard J, Rossiter SJ. 2016. The use of museum samples for large‐scale sequence capture: a study of congeneric horseshoe bats (family Rhinolophidae). Biological Journal of Linnean Society,117,58-70. Dong J#, Mao XG#, Sun HJ, Irwin DM, Zhang SY, Hua PY*. 2014. Introgression of mitochondrial DNA promoted by natural selection in the Japanese pipistrelle bat (Pipistrellus abramus). Genetica, 142, 483-494. Mao XG, Zhu GJ, Zhang JP, Zhang SY, Rossiter SJ*. 2014. Differential introgression among loci across a hybrid zone of the intermediate horseshoe bat (Rhinolophus affinis). BMC Evolutionary Biology, 14, 154. Mao XG#, Dong J#, Hua PY, He GM, Zhang SY, Rossiter SJ*. 2014. Heteroplasmy and ancient translocation of mitochondrial DNA to the nucleus in the Chinese Rufoushorseshoe bat (Rhinolophus sinicus) complex. PLoS ONE, 9, e98035. Mao XG, He GM, Hua PY, Jones G, Zhang SY, Rossiter SJ*. 2013. Historical introgression and the persistence of alleles in the intermediate horseshoe bat (Rhinolophus affinis). Molecular Ecology, 22, 1035-1050. Mao XG, He GM, Zhang JP, Rossiter SJ*, Zhang SY*. 2013. Lineage divergence and historical gene flow in the Chinese horseshoe bat (Rhinolophus sinicus). PLoS ONE, 8, e56786. Mao XG, Thong VD, Bates PJJ, Jones G, Zhang SY, Rossiter SJ*. 2013. Multiple cases of asymmetric introgression among horseshoe bats detected by phylogenetic conflicts across loci. Biological Journal of Linnean Society, 110, 346-361. Mao XG, Zhang JP, Zhang SY, Rossiter SJ*. 2010. Historical male-mediated introgression in horseshoe bats revealed by multi-locus DNA sequence data. Molecular Ecology, 19, 1352-1366. Mao XG, Zhu GJ, Zhang SY, Rossiter SJ*. 2010. Pleistocene climatic cycling drives intra-specific diversification in the intermediate horseshoe bat (Rhinolophus affinis) in Southern China. Molecular Ecology, 19, 2754-2769. Mao XG, Wang JH, Su WT, Wang YX, Yang FT, Nie WH*. 2010. Karyotypic evolution in family Hipposideridae (Chiroptera, Mammalia) revealed by comparative chromosome painting, G- and C-banding. Chinese Zoological Research, 31, 453-460. Zhang LB*, Gong YY, Zhu GJ, Hong TY, Zhao XD, Mao XG. 2010. New record of a bat species from China,Megaderma spasma(Linnaeus, 1758). Chinese Zoological Research, 31, 336-340. Mao XG, Yang L, Yingying Z, Beibei H and Shuyi Z*. 2009. Development of 19 polymorphic microsatellite loci for the intermediate horseshoe bat, Rhinolophus affinis(Rhinolophidae, Chiroptera). Conservation Genetics, 10, 709-711. Mao XG, Nie WH, Wang JH, Su WT, Feng Q, Wang YX, Dobigny G*, Yang FT*. 2008. Comparative cytogenetics of bats (Chiroptera): the prevalence of Robertsonian translocations limits the power of chromosomal characters in resolving interfamily phylogenetic relationships. Chromosome Research, 16, 155-170. Mao XG, Nie WH, Wang JH, Su WT, Ao L, Feng Q, Wang YX, Volleth M, Yang FT*. 2007. Karyotype evolution inRhinolophusbats (Rhinolophidae, Chiroptera) illuminated by cross-species chromosome painting and G-banding. Chromosome Research, 15, 835-848. Mao XG, Wang JH, Su WT, Zhang LB, Zhao XD, Wei L, Nie WH, Yang FT*. 2007. The G- and C-banded karyotypes of four bat species from China. Chinese Journal of Zoology, 42, 33-40. Ao L, Mao XG, Nie WH, Gu XM, Feng Q, Wang JH, Su WT, Wang YX, Volleth M, Yang FT*. 2007. Karyotypic evolution and phylogenetic relationships in the order Chiroptera as revealed by G-banding comparison and chromosome painting. Chromosome Research, 15, 257-267. Ao L, Gu XM, Feng Q, Wang JH, O'Brien PC, Fu B, Mao XG, Su WT, Wang YX, Volleth M, Yang FT*, Nie WH*. 2006. Karyotype relationships of six bat species (Chiroptera, Vespertilionidae) from China revealed by chromosome painting and G-banding comparison.Cytogenetic Genome Research, 115, 145-153. Wang F, Li WH, Li DW, Mao XG, Gao LY. 2003. A study on the technical process forextracting and identifying active compounds from the testa of Ginkgo biloba L. Journal of Northwest University (China),33, 689-692.

学术兼职

学术责任： Molecular Ecology, Molecular Phylogenetics and Evolution, GigaScience, Communications Biology, Royal Society Open Science, Biology, Scientific Reports, Conservation Genetics, Journal of Mammalogy, Genetica, Frontier of Biogeography, Peer J, North-western Journal of Zoology, Heliyon, Zoological Research, Integrative Zoology等期刊杂志的审稿人