許強華 教授

發布時間:2024-03-07

浏覽次數:10621

1.個人基本情況:

許強華,女,博士,教授,博士生導師,上海市“曙光學者”、上海市“浦江學者”,上海市“青年科技啟明星”,伟德BETVLCTOR海洋學者,伟德BETVLCTOR首屆海鷗學者。四川大學生命科學學院動物學專業理學學士;西北大學生命科學學院動物學專業理學碩士(動物遺傳方向);浙江大學生命科學學院動物學專業理學博士(保護遺傳與分子生态學方向);日本九州大學生命科學學府訪問學者(一年);美國密歇根州立大學漁業與野生動物學系訪問學者(兩年)。以研究海洋動物環境适應與分子進化機制為核心内容,聚焦南極與深淵海域,開展極端環境海洋生物适應進化機制與基因資源挖掘研究工作,解析水生物種響應低溫、低氧環境脅迫的調控網絡與适應性進化。先後主持科技部重點研發計劃課題1項,主持國家自然科學基金項目4項、主持教育部科學技術研究項目1項、主持上海市教委曙光項目、上海市科委浦江人才計劃等各級課題10餘項,骨幹參加國家科技部重點研發計劃2項、國家基金委國際合作項目、國家基金委重點項目、國家海洋863等多個重大項目。以第一/通訊作者(含共同)BMC Biology, Frontiers in Cell and Developmental Biology, Molecular Ecology, Gigascience, Molecular Biology & Evolution等國際知名雜志上發表SCI收錄論文40餘篇,SCI引用檢索他引次數達700餘次。研究成果獲2019年度海洋科學技術獎一等獎(排名第22/15)、2020年教育部高等學校科學研究優秀成果獎一等獎(排名第22/12)。

 

 

2.主要研究方向:

實驗室主要研究方向是極端環境動物适應進化機制與基因資源挖掘,特别關注南極極端低溫、青藏高原低氧、以及深淵極端環境條件下,動物的适應性分子發育及進化機制。目前實驗室的研究方向包括:

[1]南極魚類适應極端低溫環境下的心血管發育與進化機制;

[2]青藏高原裂腹魚高原适應的分子進化機制;

[3]深淵宏生物的适應性進化機制;

[4]魚類的低溫/低氧脅迫适應與分子進化機制;

[5]魚類抗逆基因的挖掘和利用。

 

 

3.承擔的科研項目:

[1]國家重點研發計劃、耐高溫大口黑鲈和抗鍊球菌病羅非魚新品種培育、2022-2026、子課題負責人。

[2]國家重點研發計劃、重要養殖生物應對溫度脅迫的生理和發育響應機制與生态效應研究、2018-2022、子課題負責人。

[3]國家科技部重點研發計劃、深淵宏生物生命過程前沿科學研究、2018-2021、課題負責人。

[4]國家自然科學基金面上項目、青藏高原裂腹魚血細胞的分子發育與适應機制研究、2018-2021、項目負責人。

[5]國家自然科學基金面上項目、南極冰魚血紅細胞丢失的表觀遺傳調控與低氧适應機制研究、2016-2019、項目負責人。

[6]國家自然基金委國際(地區)合作與交流項目、魚類免疫在極端環境下的進化、2017-2019、骨幹參加人員。

[7]上海市浦江人才計劃項目、南極冰魚心髒增大相關microRNA的篩選與功能鑒定、2016-2018、項目負責人。

[8]國家教育部科學技術研究項目、青藏高原裂腹魚類遺傳種質資源開發及應用研究、2013-2016、項目負責人。

[9]上海市教委曙光人才計劃項目、南極冰魚血紅細胞丢失的分子進化機制研究、2013-2016、項目負責人。

[10]國家基金委重點項目、青藏高原裂腹魚類的分子進化和高原适應的機制研究、2012-2016、骨幹參加人員。

[11]國家自然科學基金重大研究計劃培育項目、南極冰魚心血管發育和功能适應的分子進化研究、2012-2014、項目負責人。

[12]國家自然科學基金青年科學基金項目、三疣梭子蟹鹽度适應相關重要基因的克隆及其調控研究、2009-2011、項目負責人。

[13]國家海洋863重點項目、海洋文昌魚的人工繁育與養殖及其生殖相關功能基因的研究、2009-2012、子項目負責人。

[14]上海市科委青年科技啟明星人才計劃項目、2009-2011、項目負責人。

 

 

4.代表性SCI 論文(*通訊作者):

[1] Ying Lu#, Wenhao Li#, Yalin Li#, Wanying Zhai#, Xuming Zhou#, Zhichao Wu, Shouwen Jiang, Taigang Liu, Huamin Wang, Ruiqin Hu, Yan Zhou, Jun Zou, Peng Hu, Guijun Guan, Qianghua Xu*, Adelino V. M. Canário* and Liangbiao Chen* (2022). Population genomics of an icefsh reveals mechanisms of glacier-driven adaptive radiation in Antarctic notothenioids. BMC Biology, 20: 231. https://doi.org/10.1186/s12915-022-01432-x (IF: 7.364共同通訊)

[2] Wenhao Li, Faxiang Wang, Shouwen Jiang, Binbin Pan, Qi Liu, Qianghua Xu*(2022). Morphological and molecular evolution of hadal amphipod’s eggs provides insights into embryogenesis under high hydrostatic pressure. Frontiers in Cell and Developmental Biology, 2022, 10:987409. doi: 10.3389/fcell.2022.987409. (IF: 6.081通訊作者)

[3] Jiulin Chan, Daoqiang Geng, Binbin Pan, Qiming Zhang, Qianghua Xu* (2022). Gut microbial divergence between three hadal amphipod species from the isolated hadal trenches. Microbial Ecology, 84:627–637. https: //doi.org/ 10.1007/ s00248-021-01851-3. (IF=4.192通訊作者)

[4]Ruonan Jia#, Shaojun Huang#, Wanying Zhai#, Shouwen Jiang, Wenhao Li, Faxiang Wang, Qianghua Xu* (2022). Comparative proteomic analysis of head kidney among three Antarctic fshes. Marine Biology, 2022, 169:58. https://doi.org/10.1007/s00227-022-04043-w (通訊作者)

[5] Linghui Shi, Lei Chen, Shouwen Jiang, Zhichao Wu, Yan Zhou, Qianghua Xu* (2022). Hematogenesis Adaptation to Long-Term Hypoxia Acclimation in Zebrafish (Danio rerio). Fishes, 2022, 7, 98. https://doi.org/10.3390/fishes7030098. (通訊作者)

[6] Qi Liu, Shouwen Jiang, Wenhao Li, Binbin Pan, Qianghua Xu*(2022). Trimethylamine N-Oxide (TMAO) and Trimethylamine (TMA) Determinations of Two Hadal Amphipods. Journal of Marine Science and Engineering, 2022, 10,454. https://doi.org/10.3390/ (通訊作者)

[7] Lingyue Zhu, Daoqiang Geng, Binbin Pan, Wenhao Li, Shouwen Jiang, Qianghua Xu* (2022). Trace elemental analysis of the exoskeleton, leg muscle and gut of three hadal amphipods. Biological Trace Element Research, 200, 1395–1407 10.1007/ s12011-021-02728-9.(通訊作者)

[8] Zhicong Zhang, Fengyu Ji, Shouwen Jiang, Zhichao Wu, Qianghua Xu* (2022). Scale Development-Related Genes Identified by Transcriptome Analysis. Fishes, 2022, 7, 64. https://doi.org/10.3390/fishes7020064 (通訊作者)

[9] Congcong Wang#*, Qin Zhang#, Yang Liu, Qianghua Xu* (2022). Characterization of EPO H131S as a key mutation site in the hypoxia adaptive evolution of Gymnocypris dobula. Fish Physiol Biochem. https://doi.org/10.1007/s10695-022-01080-6 (共同通訊).

[10] Wenhao Li#, Faxiang Wang#, Shouwen Jiang, Binbin Pan, Jiulin Chan, Qianghua Xu* (2021). The Adaptive Evolution and Gigantism Mechanisms of the Hadal “Supergiant” Amphipod Alicella gigantea. Frontiers in Marine Science, 2021,8:743663 (IF:5.247, 通訊作者)

[11] Jiulin Chan, Daoqiang Geng, Binbin Pan, Qiming Zhang, Qianghua Xu* (2021). Metagenomic insights into the structure and function of intestinal microbiota of the hadal amphipods. Frontiers in Microbiology, https://doi.org/10.3389/ fmicb.2021.668989 (IF: 6.064通訊作者)

[12] Shaojun Huang#, Ruonan Jia#, Ruiqin Hu, Wanying Zhai, Shouwen Jiang, Wenhao Li, Faxiang Wang, Qianghua Xu*(2021). Specific immunity proteomic profile of the skin mucus of Antarctic fish Chionodraco hamatus and Notothenia coriiceps. Journal of Fish Biololy, 2021;99:1998–2007. (通訊作者)

[13] Jiulin Chan, Binbin Pan, Daoqiang Geng, Qiming Zhang, Shun Zhang, Jian Guo, Qianghua Xu* (2020). Genetic diversity and population structure analysis of three deep-sea amphipod species from geographically isolated hadal trenches in the Pacific Ocean. Biochemical Genetics, 58:157-170 (通訊作者)

[14] Congcong Wang#, Xiaohui Wu#, Xingxing Hu, Huapeng Jiang, Liangbiao Chen*, Qianghua Xu* (2020). Hypoxia-inducible factor 1α from a high-altitude fish enhances cytoprotection and elevates Nitric Oxide production in hypoxic environment. Fish Physiol Biochem, 46:39-49, doi.org/10.1007/s10695-019-00694-7(共同通訊)

[15] Shaojun Huang, Shan Jiang, Qianghua Xu* (2020). Acute salinity stress in Gill Na+/K+-ATPase in the swimming crab, Portunus trituberculatus (Brachyura, portunidae). Crustaceana, 93(6): 587-609(通訊作者)

[16] Liangbiao Chen#, Ying Lu#, Wenhao Li#, Yandong Ren, Mengchao Yu, Shouwen Jiang, Yanxia Fu, Jian Wang, Sihua Peng, Kevin T. Bilyk, Katherine R. Murphy, Xuan Zhuang, Mathias Hune; Wanying Zhai, Wen Wang, Qianghua Xu*, Chi-Hing Christina Cheng*. (2019) Genomic bases for colonizing the freezing Southern Ocean revealed by the genomes of Antarctic toothfish and Patagonia robalo. GigaScience. DOI: 10.1093/gigascience/giz016 (共同通訊).

[17] Jiulin ChanBinbin PanDaoqiangGengQiming ZhangShun ZhangJian GuoQianghua Xu* (2019). Genetic diversity and population structure analysis of three deep-sea amphipod species from geographically isolated hadal trenches in the Pacific Ocean. Biochemical Genetics. doi.org/10.1007/s10528-019-09935-z(通訊作者)

[18] Congcong Wang#, Xiaohui Wu#, Xingxing Hu, Huapeng Jiang, Liangbiao Chen*, Qianghua Xu* (2019). Hypoxia-inducible factor 1α from a high-altitude fish enhances cytoprotection and elevates Nitric Oxide production in hypoxic environment. Fish Physiol Biochem, doi.org/10.1007/s10695-019-00694-7(共同通訊)

[19] Jiulin Chan, Xingxing Hu, Congcong Wang, Qianghua Xu*(2018). MiRNA-152 targets GATA1 to regulate erythropoiesis in Chionodraco hamatus. Biochemical and Biophysical Research Communications 501: 711-717(通訊作者)

[20] Dongsheng Zhang#, Mengchao Yu#,, Peng Hu, Sihua Peng, Yimeng Liu, Weiwen Li, Congcong Wang, Shunping He, Wanying Zhai, Qianghua Xu*, and Liangbiao Chen*(2017). Genetic Adaptation of Schizothoracine Fish to the Phased Uplifting of the Qinghai–Tibetan Plateau. G3: Genets Genomics Genetics, 7:1207-1275(共同通訊)

[21] Mengchao Yu#, Dongsheng Zhang#, Peng Hu, Sihua Peng, Weiwen Li, Shunping He, Wanying Zhai, Qianghua Xu*, Liangbiao Chen* (2017). Divergent adaptation to Qinghai-Tibetan Plateau implicated from transciptome study of Gymnocypris dobula and Schizothorax nukiangensis. Biochemical Systematics and Ecology, 71:97-105(共同通訊)

[22] Lixue Cao#, Qiao Huang#, Zhichao Wu#, Dongdong Cao#, Zhanling Ma#, Qianghua Xu, Peng Hu, Yanxia Fu, Yu Shen, Jiulin Chan, Congzhao Zhou, Wanying Zhai, and Liangbiao Chen* (2016) Neofunctionalization of zona pellucida proteins enhances freeze-prevention in the eggs of Antarctic notothenioids. Nature Communication, 7:12987(參加作者)

[23] Qianghua Xu*, Chi Zhang, Dongsheng Zhang, Huapeng Jiang, Sihua Peng, Yang Liu, Kai Zhao, Congcong Wang and Liangbiao Chen*.(2016). Analysis of the erythropoietin of a Tibetan Plateau schizothoracine fish (Gymnocypris dobula) reveals enhanced cytoprotection function in hypoxic environments. BMC Evolutionary Biology 16 (1): 11(第一/共同通訊)

[24] Jiulin Chan, Weiwen Li, Xingxing Hu, Yimeng Liu, Qianghua Xu* (2016). Genetic diversity and population structure analysis of Qinghai-Tibetan plateau schizothoracine fish (Gymnocypris dobula) based on mtDNA D-loop sequences. Biochemical Systematics and Ecology, 69: 152-160(通訊作者)

[25] Weiwen Li, Yang Liu, Qianghua Xu* (2016). The complete mitochondrial genome of Schizothorax yunnanensis paoshanensis (Cyprinidae: Schizothorax). Mitochondrial DNA Part A, 27(4): 2504-2505(通訊作者)

[26] Weiwen Li, Yang Liu, Qianghua Xu* (2016). Complete mitochondrial genome of Schizothorax nukiangensis Tsao (Cyprinidae: Schizothorax) . Mitochondrial DNA Part A, 27(5): 3549-3550(通訊作者)

[27] Qianghua Xu*, Chang Cai, Xingxing Hu, Yun Liu, Yanan Guo, Peng Hu, Zuozhou Chen, Sihua Peng, Dongsheng Zhang, Shouwen Jiang, Zhichao Wu, Jiulin Chan and Liangbiao Chen* (2015). Evolutionary suppression of erythropoiesis via the modulation of TGF-β signaling in an Antarctic icefish. Molecular Ecology, 24: 4664–4678  (IF: 6.449第一/共同通訊)

[28] WeiwenLi, Xinjun Chen, Qianghua Xu*, Jiangfeng Zhu, Xiaojie Dai, Liuxiong Xu (2015). Genetic population structure of the Thunnus albacares in the central Pacific Ocean based on mtDNA COI gene sequences. Biochemical Genetics, 53:8–22(通訊作者)

[29] Shaojun Huang, Qianghua Xu* (2015). Molecular cloning of the Calcyclin Binding Protein gene from Portunus trituberculatus and its roles in salinity stress adaptation. Journal of Shellfish Research 34(3):1057–1064 (通訊作者)

[30] Zhichao Wu, Qianghua Xu*, Jiangfeng Zhu, Xiaojie Dai, Liuxiong Xu (2014). Genetic population structure of the bigeye tuna Thunnus obesus in the central Pacific Ocean based on mtDNA Cytb sequences. Fishery Science, 80:415–426 (通訊作者)

[31] Qianghua Xu#, Guang Li#, Lixue Cao#, Zhongjun Wang, Hua Ye, Xiaoyin Chen, Xi Yang, Yiquan Wang, Liangbiao Chen* (2012). Proteomic characterization and evolutionary analyses of zona pellucida domain-containing proteins in the egg coat of the cephalochordate, Branchiostoma belcheri. BMC evolutionary biology, 12:239 (共一作者)

[32] Qianghua Xu*, Ye Qin (2012). Molecular cloning of heat shock protein 60 (PtHSP60) from Portunus trituberculatus and its expression response to salinity stress. Cell Stress and Chaperones, 17:589-601 (第一/通訊作者)

[33] Qianghua Xu, Jun Tan, Liangbiao Chen* (2012). Characterization and evolution analyses of a Jun like gene in amphioxus Branchiostoma japonicum. Journal of Genetics and Genomics 39(11): 607-611.

[34] Qianghua Xu*, Yang Liu (2011). Gene Expression Profiles of the Swimming Crab Portunus trituberculatus Exposed to Salinity Stress. Marine Biology 158:2161-2172 (第一/通訊作者)

[35] Qianghua Xu*, Ru Liu (2011). Development and Characterization of Microsatellite Markers for the Genetic Analysis of the Swimming Crab, Portunus trituberculatus. Biochemical Genetics 49:202-212 (第一/通訊作者)

[36] Qianghua Xu*, Yang Liu, Ronglei Liu (2010). Expressed sequence tags from cDNA library prepared from gills of the swimming crab, Portunus trituberculatus. Journal of Experimental Marine Biology and Ecology, 394:105-115 (第一/通訊作者)

[37] Qianghua Xu*, Ronglei Liu, Yong Liu (2009). Genetic population structure of the swimming crab, Portunus trituberculatus in the East China Sea based on mtDNA 16S rRNA sequences. Journal of Experimental Marine Biology and Ecology, 371:121-129(第一/通訊作者)

[38] Yong Liu, Ronglei Liu, Liangcheng Ye, Jun Liang, Fujun Xuan and Qianghua Xu*(2009). Genetic differentiation between populations of swimming crab Portunus trituberculatus along the coastal waters of the East China Sea. Hydrobiologia, 618: 125-137(通訊作者)

[39] Qianghua Xu#, C.-H. Christina Cheng#, Peng Hu#, Hua Ye, ZuoZhou Chen, Lixue Cao, Lei Chen, Yu Shen and Liangbiao Chen* (2008). Adaptive evolution of hepcidin genes in Antarctic notothenioid fishes. Molecular Biology and Evolution, 25(6): 1099-1112 (共一)

[40] Zuozhou Chen#, C.-H. Christina Cheng#, Junfang Zhang#, Lixue Cao, Lei Chen, Longhai Zhou, Yudong Jin, Hua Ye, Cheng Deng, Zhonghua Dai, Qianghua Xu, Peng Hu, Shouhong Sun, Yu Shen, and Liangbiao Chen* (2008). Transcriptomic and genomic evolution under constant cold in Antarctic notothenioid fish. Proc. Natl. Acad. Sci. USA, 105(35): 12944–12949 (參加作者) 

[41] Qianghua Xu, Shengguo Fang*, Zhenwei Wang, Zhiping Wang (2006). Heavy Metal Distribution in Tissues and Eggs of Chinese Alligators (Alligator sinensis). Archives of Environmental Contamination and Toxicology, 50(4): 580-586.

[42] Qianghua Xu, Shengguo Fang* (2006). Variable Number Tandem Repeats in the Mitochondrial DNA Control Region of the Chinese Alligator, Alligator sinensis. Amphibia-Reptilia, 27(1): 93-101.

[43] Qianghua Xu, Shengguo Fang*, Zhiping Wang, Zhenwei Wang (2005). Microsatellite analysis of genetic diversity in the Chinese alligator (Alligator sinensis) Changxing captive population. Conservation genetics, 6(6): 941-951.

[44] Qianghua Xu, Yoshinori Katakura, Makiko Yamashita, Shengguo Fang, Takashi Tamura, Shin-ei Matsumoto, Yoshihira Aiba, Kiichiro Teruya, Ryuhei Nishikawa, and Sanetaka Shirahata. (2004) IL-10 augments antibody production in in vitro immunized lymphocytes by inducing Th2-type response and B cell maturation. Bioscience, Biotechnology and Biochemistry, 68(11): 2279-2284.

[45] Sihua Peng, Qianghua Xu, Xuefeng Bruce Ling, Xiaoning Peng, Wei Du, Liangbiao Chen* (2003). Molecular classification of cancer types from microarray data using the combination of Genetic Algorithms and Support Vector Machines. FEBS Letters, 555(2):358-362.

 

 

5. 代表性中文論文(*通訊作者)

[1]賈若南,林楓,許強華*(2022).低氧脅迫下斑馬魚鰓中核糖體蛋白基因家族的表達分析.伟德BETVLCTOR學報,2022,31(2):359-368.

[2]林楓,賈若南,王法祥,許強華*(2022).低氧脅迫下斑馬魚鰓 microRNAs 差異分析.南方水産科學,2022,18(3):86-93.

[3]宋汝浩,胡瑞芹*,李根芳,張智聰,許強華*(2022).基于轉錄組學技術對斑馬魚肝髒組織低氧脅迫影響的研究. 南方水産科學,2022,18(6).

[4]孫鳳宇,許強華*(2022).血液發生相關 microRNAs 研究進展.遺傳,2022,9(44): 756-771.

[5]王小彤,李文豪,林楓,江守文,翟萬營,吳智超,許強華*(2021). 獨角雪冰魚與其他三種南極魚鰓組織的轉錄組差異分析. 基因組學與應用生物學,2021,40(7-8):2574-2582.

[6]許強華, 陳良标*(2021). 南極魚類适應低溫的遺傳基礎研究進展.大連海洋大學學報, 2021,36(2):177-186.

[7]裴田瑛, 顔帥帥, 許強華*(2021).斑馬魚miR-30e對血細胞生成的作用機制研究.大連海洋大學學報,2021,36(2): 229-233.

[8]吳煜國, 林楓, 江守文, 賈若南, 蔣聰伍, 許強華*(2021).長期低氧脅迫下斑馬魚的卵巢轉錄組特征分析. 基因組學與應用生物學,2021,40(5).

[9]陳祺,顔帥帥,許強華*(2020).南極獨角雪冰魚(Chionodraco hamatus)miR-204對斑馬魚胚胎血管發育的作用機制研究.中國農業科技導報,2020,22(3):167-172.

[10]趙文靜, 許強華* (2019).伯氏肩孔南極魚和革首南極魚皮膚微生物多樣性的研究.大連海洋大學報,2019(06):792-797.

[11]武曉會,劉洋,許強華*(2019).軟刺裸鯉和齊口裂腹魚肌肉和骨骼中的元素分析. 中國農業科技導報,2019,21(11):163-169.

[12]耿道強,産久林,潘彬彬,許強華*,劉志國(2020). 三種深淵鈎蝦腸道微生物組成與群落結構研究.伟德BETVLCTOR學報,2020.

[13]狄治朝,周濤,許強華*(2018).低氧脅迫與常氧條件下斑馬魚鰓中熱休克蛋白基因家族的表達差異比較. 大連海洋大學學報,2018,33(6):690-695.

[14]武曉會,劉洋,狄治朝,趙文靜,王叢叢,許強華*2018).低氧對斑馬魚細胞存活能力的影響. 南方農業學報,2018,49(8):1641-1647.

[15]陳祺,許強華*(2018).血管發育相關microRNAs的研究進展. 生理學報,2018,70(5):548-556.

[16]孫建飛,劉洋,許強華*(2017).獨角雪冰魚和伯氏肩孔南極魚骨骼中的元素分析. 大連海洋大學學報,2017,32(4):387-392.

[17]劉雲,王叢叢,郭亞南,許強華*(2016).海七鰓鳗pma-miR-200c-3p對斑馬魚心髒發育的作用研究. 大連海洋大學學報,2016,31(5):510-515.

[18]劉洋,李偉文,王叢叢,郭亞楠, 許強華*(2016).3種不同類型餌料在蟹籠誘捕中的效果比較. 江蘇農業科學,2016,44(06):351-353.

[19]郭亞南,王叢叢,劉雲,武曉會,孫建飛,許強華*2016).miR-210-5p對南極獨角雪冰魚心髒發育的作用機制研究.伟德BETVLCTOR學報,2016,25(4):481-487.

[20]胡星星,王叢叢,産久林,許強華*(2016).南極獨角雪冰魚(Chionodraco hamatus)miR-7132對紅細胞發生的作用研究. 海洋與湖沼,2016,47(3):587-593.

[21]王桂志,張永,張弛, 許強華*2016).獨角雪冰魚和伯氏肩孔南極魚TRPV1基因的克隆及低溫适應功能檢測.大連海洋大學學報,2016,31(2):124-130.

[22]蔡暢,王叢叢,吳智超,劉雲,郭亞楠,許強華*2015).Cas9-CRISPR敲除hae3基因對斑馬魚血紅蛋白生成的影響.大連海洋大學學報,2015,30(6):573-579.

[23]李偉文,陳良标,劉洋,郭亞楠,許強華*2015).深淵的物種組成與食物供應的研究進展. 浙江海洋學院學報(自然科學版),2015,34(6):571-577.

[24]劉秀榮,王叢叢,許強華*2015).南極獨角雪冰魚HSP90β基因cDNA序列克隆及其原核表達. 伟德BETVLCTOR學報,2015,24(5):668-677.

[25]張馳,姜華鵬,王叢叢,許強華*2015).南極冰魚和伯氏肩孔南極魚EPO基因預測及生物信息學分析. 海洋與湖沼,2015,46(5):1193-1201.

[26]姜華鵬,張馳,王叢叢,許強華*2015).軟刺裸鯉和齊口裂鳆魚HIF1B和HIF2A的克隆及低氧适應性的表達分析. 淡水漁業,2015,45(5):11-18.

[27]産久林,姜華鵬,劉一萌,胡星星,王叢叢,許強華*2015).COⅠ和16S rRNA基因在高原裂腹魚物種鑒定中的應用.水生态學雜志,2015,36(4):98-104.

[28]鄭真真,許強華*,戴小傑,朱江峰(2014).基于線粒體控制區部分序列的大青鲨種群遺傳結構研究.大連海洋大學學報,2014,29(05):463-468.

[29]李偉文,許強華*,陳新軍,戴小傑,朱江峰(2014).基于線粒體控制區的中部太平洋黃鳍金槍魚種群遺傳結構的研究.伟德BETVLCTOR學報,2014,23(5):782-788.

 

 

6. 科研工作獲獎情況:

[1]“魚類抗凍蛋白基因的起源和低溫适應的分子發育機制研究”獲2020年度教育部高等學校科學研究優秀成果獎一等獎(排名第22/12)。

[2]“極地魚類适應性進化機制研究”獲2019年度海洋科學技術獎一等獎(排名第22/15)。

[3]“青藏高原裂腹魚類分子生态與分子适應機制研究”獲2019年度伟德BETVLCTOR科學成果獎(自然科學類)三等獎(第1完成人)。

[4]2016年度上海市科委“浦江學者”稱号。

[5]獲伟德BETVLCTOR“海洋學者”稱号(2014-2016)。

[6]2013年度上海市教委“曙光學者”稱号。

[7]“三疣梭子蟹種群遺傳結構與環境鹽度适應研究”獲2013年度伟德BETVLCTOR科學成果獎(自然科學類)三等獎,第1完成人。

[8]獲伟德BETVLCTOR首屆“海鷗學者”稱号(2011-2014)。

[9]2009年度上海市科委“青年科技啟明星”稱号。

[10]Adaptive evolution of hepcidins in Antarctic notothenioid fishes”獲國家海洋局2009年度極地科學優秀論文二等獎。

 

 

7. 聯系方式:

電話: 021-61900213

E-mail: qhxu@shou.edu.cn

聯系地址: 上海市臨港新城滬城環路999号,伟德BETVLCTOR海洋科學學院

郵編: 201306






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