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師資隊伍
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徐沛
2020-01-02 15:34:28


徐沛,1981年生,博士、研究員、博士生導師,大科尊龙凯时app派長、黨委副書記(兼)。主要研究方向為植物表型計量與質量安全性狀遺傳改良。主持國家重點研發計劃政府間重點專項、國家自然科科基金委中國—以色列聯合研究項目、國家高層次人才特殊支持計劃、湖南省重點研發計劃、國家自然科科基金面上項目等多項;獲湖南省科技進步二、三等獎各1項;在Plant Physiol、Plant J、Plant Biotechnol J 、iScience、J Hazard Mater等本領域重要期刊發表SCI論文40餘篇,主編科術著作2部,獲國家發明專利和計算機軟著授權8項。兼任中國園藝科會豆類蔬菜分會副理事長、青年分會常務理事和分子育種分會理事;湖南省海洋食品品質及危害物控制技術重點實驗室主任;SCI期刊Plant Breeding領域主編、Legume Research編委和Front Plant Sci專刊主編。入選國家“萬人計劃”青年拔尖人才(第2批)、湖南省高校創新領軍人才(首批),獲評“湖南省農業科技先進工作者”(2021)。

Dr. Xu received his PhD from Nanjing Agricultural University in 2008. In 2010 and 2012, he worked as a visiting scientist at the Hebrew University of Jerusalem and UC-Riverside, respectively. Currently he is a professor and dean at the college of life sciences of China Jiliang University in Hangzhou, leading the Lab of Plant Phenomics and Safety & Quality Traits Improvement.


Research interests

Dr. Xu’s research focuses on phenomics, genetics and molecular biology of quality & safety traits, such as drought tolerance, heavy metal uptake and distribution in vegetable crops especially vegetable legumes, aiming to unravel their genetic control and regulatory mechanisms to facilitate marker-assisted selection (MAS), marker assisted recurrent selection (MARS) and genomic selection (GS). Both traditional breeding strategies and state-of-the-art approaches such as microarray, (re)sequencing, KASP assay are being applied in research to gain knowledge to accelerate plant breeding. Current main research projects include: 1) joint phenomic-genomic approach to dissect dynamic stress response traits; 2) manipulating heavy metal uptake/distribution in plants by molecular approaches; and 3) Genetic and molecular approaches toward balancing growth, quality and safety.  


Awards & Academic Services

Top-notch Young Scholar, National Ten-Thousand Talents Program

Vice chair of the Vegetable Legume Section, Chinese Society for Horticultural Sciences

Executive council member of the Young Section, Chinese Society for Horticultural Sciences

Editor of the journal “Plant Breeding” & “Legume Research”

Guest editor of the journal “Frontiers in Plant Science”


Selected Publications

Sun T, Hu YN, Wang ZY, Xia WJ, Lv QQ, Wang YG, Fang PP, Xu P* (2022) A tissue atlas of cadmium accumulation and the correlation with thiol-containing chelates in zucchini provide insights into cadmium partitioning and food safety. J Hazard Mater. 421: 126756. DOI:10.1016/j.jhazmat.2021.126756. (*Corresponding author)

Xia WJ, Zhang PP, Wu XY, Li MX, Sun T, Fang PP, Pandey AK, Xu P* (2022) Mutant library resources for legume crops and the emerging new screening technologies. Euphytica. 218:27. DOI: 10.1007/s10681-022-02979-0. (*Corresponding author)

Pandey AK, Jiang LB, Moshelion M*, Gosa SC, Sun T, Lin Q, Wu RL*, Xu P* (2021) Functional physiological phenotyping with functional mapping: a general framework to bridge the phenotype-genotype gap in plant physiology. iScience. 24:s102846. DOI:10.1016/j.isci.2021.102846. (*Corresponding author)

Xu P*, Wang Y, Sun F, Wu R*, Du H, Wang Y, Jiang L, Wu X, Wu X, Yang L, Xing N, Hu Y, Wang B, Huang Y, Tao Y, Gao Q, Liang C, Li Y, Lu Z, Li G* (2021) Long-read genome assembly and genetic architecture of fruit shape in the bottle gourd. Plant J. 107:956-968. (*Corresponding author)

Fang P, Sun T, Wang YG, Ding Y, Pandey AK, Zhu C, Xu P* (2021) Plant gasotransmitters: light molecules interplaying with heavy metals. Rev Environ Sci Biotechnol. 20:31-53. (*Corresponding author)

Pandey AK, Rubiales D, Wang Y, Fang P, Sun T, Liu N, Xu P* (2021) Omics resources and omics-enabled approaches for achieving high productivity and improved quality in pea (Pisum sativum L.). Theor Appl Genet. 134(3), 755-776. (*Corresponding author)

Li YW, Wu XY, Xu WZ, Sun YD, Wang YD, Li GJ, Xu P* (2021) High-throughput physiology-based stress response phenotyping: advantages, applications and perspective in horticultural plants. Hort Plant J. 7 (3): 181-187. (*Corresponding author)

Wang Y, Wang LP, Xing NL, Wu XH, Wu XY, Wang BG, Lu ZF, Wang YH*, Tao Y, Li GJ, Xu P* (2020) A universal pipeline for mobile mRNA detection and insights into heterografting advantages under chilling stress. Hort Res. 7:13. (*Corresponding author)

Li G, Wu X, Hu Y, Mu~noz-Amatriaín M, Luo J, Zhou W, Wang B, Wang Y, Wu X, Huang L, Lu Z, Xu P* (2019) Orphan genes are involved in drought adaptations and ecoclimatic-oriented selections in domesticated cowpea. J Exp Bot. 70: 3101-3110. (*Corresponding author)

Wu XY, Wang BG, Hu YW, Wu XH, Lu ZF, Wang Y, Li GJ, Xu P* (2018) Fine mapping Ruv2, a new rust resistance gene in cowpea (Vigna unguiculata), to a 193-kb region enriched with NBS-type genes. Theor Appl Genet. 131: 2709-2718.

Wang Y, Xu P*, Wu X, Wu X, Wang B, Huang Y, Hu Y, Lin J, Lu Z, Li G* (2018) GourdBase: a genome-centered multi-omics database for the bottle gourd (Lagenaria siceraria), an economically important cucurbit crop. Scientific Reports 8: 3604 (*Corresponding author)

Wang L, Wu X, Li G, Wu X, Qin D, Tao Y, Xu P* (2018) Generating Homo- and Heterografts Between Watermelon and Bottle Gourd for the Study of Cold-responsive MicroRNAs. J. Vis. Exp. 141: e58242. doi:10.3791/58242 (*Corresponding author)

X Wu, B Wang, X Wu, Z Lu, G Li, P Xu* (2018) SNP marker-based genetic mapping of rust resistance gene in the vegetable cowpea landrace ZN016. Legume Res. 41: 222-225.  (*Corresponding author)

Xu P*, Wu X, Mu~noz-Amatriaín M, Wang B, Wu X, Hu Y, Huynh BL, Close TJ, Roberts PA, Zhou W, Lu Z, Li G (2017) Genomic regions, cellular components and gene regulatory basis underlying pod length variations in cowpea (V. unguiculata L. Walp). Plant Biotechnol J 15: 547-557 (*Corresponding author)

Mu~noz-Amatriaín M, Mirebrahim H, Xu P, Wanamaker SI, Luo M, Alhakami H, Alpert M, Atokple I, Batieno BJ, Boukar O, Bozdag S, Cisse N, Drabo I, Ehlers JD, Farmer A, Fatokun C, Gu YQ, Guo YN, Huynh BL, Jackson SA, Kusi F, Lawley CT, Lucas MR, Ma Y, Timko MP, Wu J, You F, Roberts PA, Lonardi S, Close TJ (2017) Genome resources for climate-resilient cowpea, an essential crop for food security. Plant J. 89, 1042-1054

Wang L, Li G, Wu X, Xu P* (2016) Comparative proteomic analyses provide novel insights into the effects of grafting wound and hetero-grafting per se on bottle gourd. Scientia Horticulturae 200:1-6 (*Corresponding author)

Xu P*, Moshelion M*, Wu X, Halperin O, Wang B, Luo J, Wallach R, Wu X, Lu Z, Li G* (2015) Natural variation and gene regulatory basis for the responses of asparagus beans to soil drought. Front. Plant Sci. 6:891. doi: 10.3389/fpls.2015.00891 (*Corresponding author)

Luo J, Li GJ, Xu P* (2015) AMBAB: a bioinformatic system for the assistance of molecular breeding in asparagus bean (V. unguiculata ssp. sesquipedialis) and other plant species. Legume Research 38: 321-323. (*Corresponding author)

Xu P*, Xu S, Wu X, Tao Y, Wang B, Wang S, Qin D, Lu Z, Li G* (2014) Population genomic analyses from low-coverage RAD-Seq data: a case study on the non-model cucurbit bottle gourd. Plant J. 77: 430-442 (* Corresponding author)

Xu P, Wu XH, Wang BG, Hu TT, Lu ZF, Liu YH, Qindehui, Wang S, Li GJ (2013) QTL mapping and epistatic interaction analysis for several characterized and novel horticulturally important traits. BMC Genetics 14:4.

Xu P, Wu XH, Wang BG, Luo J, Liu YH, Ehlers JD, Close TJ, Philip RA, Lu ZF, Wang S, Li GJ. (2012). Genome wide linkage disequilibrium in Chinese asparagus bean (Vigna. unguiculata ssp. sesquipedialis) germplasm: implications for domestication history and genome wide association studies. Heredity, 109: 34-40.

Xu P, Wu XH, Luo J, Wang BG, Liu YH, Ehlers JD, Lu ZF, Wang S, Li GJ (2011) Partial sequencing of the bottle gourd reveals markers useful for phylogenetic analysis and breeding. BMC Genomics 12:467

Xu P, Wu X, Wang B, Liu Y, Ehlers JD, et al. (2011). A SNP and SSR Based Genetic Map of Asparagus Bean (Vigna. unguiculata ssp. sesquipedialis) and Comparison with the Broader Species. PLoS ONE 6(1): e15952.

Xu P, Hu T, Yang Y, Wu X, Wang B, Liu Y, Qin D, Ehlers JD, Close TC, Lu Z, Li G (2011) Mapping genes governing flower and seed coat color in asparagus bean (Vigna. unguiculata. ssp sesquipedalis) based on SNP and SSR markers. HortScience 46: 1102-1104.

Xu P, Zhu HL, Xu HB, Zhang ZZ, Zhang CQ, Zhang LX, Ma ZQ (2010) Com and phylogenetic analysis of wheat cryptochrome gene family. Mol Biol Rep 37: 825-837.

Xu P, Wu XH, Wang BG, Liu YH, Qin DH et al. (2010). Development and polymorphism of Vigna unguiculata ssp. unguiculata microsatellite markers used for phylogenetic analysis in asparagus bean (Vigna unguiculata ssp. sesquipedialis (L.) Verdc.). Mol Breeding 25: 675-684.

Xu P, Xiang Y, Zhu HL, Xu HB, Zhang ZZ et al. (2009). Wheat cryptochromes: subcellular localization and involvement in photomorphogenesis and osmotic stress responses. Plant Physiol 149: 760-774.

Xu P, Yang YW, Zhang ZZ, Chen WH, Zhang CQ et al. (2008). Expression of the nuclear gene TaFAd is under mitochondrial retrograde regulation in anthers of male sterile wheat plants with Timophevii cytoplasm. J Exp Bot 59: 1375-1381.



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