基本信息

工作经历

2020年1月13日–至今                   中国农业大学                      教授

2017年1月3日–2020年1月          农业与农业食品加拿大         研究科学家

2013年5月–2017年1月2日          萨斯喀彻温大学, 加拿大       研究主任

2008年7月–2013年4月                萨斯喀彻温大学, 加拿大       博士后

教育经历

博士 (植物病理学)                     中国农业大学, 北京

理学硕士 (植物病理学)              阿格拉大学, 阿格拉

理学学士 (生命科学)                  阿格拉大学, 阿格拉

社会、学术兼职

副主编: Phytopathology Research; Scientific Reports; International Journal of Molecular Sciences (Topical Advisory Panel Member); Current Issues in Molecular Biology

教学工作

Pathogenomics (病原基因组学，全英文课， 课程编号74190403)

Outline of Plant Protection (植物保护概论, 全英文课，课程编码 34319012)

研究方向

1. Molecular genetics and genomics of plant-fungal pathogen interactions

2. Pathogenomics

3. Quantitative genetics of fungal disease resistance in crops  

科研项目

2022.01–2025.12 国家自然科学基金-面上项目 (32172363; 主持)

2020.01–2025.12 中国农业大学高层次引进人才启动基金 (主持)

奖励情况

中国农业大学杰出人才

FEMS Young Scientists Meeting Grant Award

Chinese Government Scholarship

Slovakian Government Scholarship

代表性论著

Books and book chapters:

1. Bhadauria V (2017) Next-generation Sequencing and Bioinformatics for Plant Science. Caister Academic Press, Norfolk, UK. (Book; ISBN 978-1-910190-65-4)

2. Bhadauria V (2016) OMICS in Plant Disease Resistance. Caister Academic Press, Norfolk, UK. (Book; ISBN 978-1-910190-35-7)

3. Bhadauria V, Banniza S (2013) Molecular basis of the hemibiotrophic parasitism in the lentil anthracnose pathogen Colletotrichum truncatum, p83-90. In: Berhardt LV (editor), Advances in Medicine and Biology, vol 66. Nova Science Publishers, New York, USA. (Book chapter)

Publications:

(^#equal contribution; ^†corresponding author)

69. Bhadauria V^#,†, Han T^#, Li G^#, Ma W^#, Zhang M, Yang J, Zhao W, Peng Y (2024) A gln-tRNA-based CRISPR/Cas9 knockout system enables the functional characterization of effector candidates in the genetically recalcitrant brassica anthracnose fungus Colletotrichum higginsianum. International Journal of Biological Macromolecules 254: 127953.

68. Bhadauria V^†, Zhang M, Ma W, Yang J, Zhao W, Peng Y (2024) The hidden truths of fungal virulence and adaptation on hosts: Unraveling the conditional dispensability of minichromosomes in the hemibiotrophic Colletotrichum pathogens. International Journal of Molecular Sciences 25(1): 198.

67. Bhadauria V^†, Zhao W^† (2024) The molecular genetics and genomics of plant-pathogen interactions. International Journal of Molecular Sciences 25(7): 3970.

66. Bhadauria V^†, Peng Y^† (2024) Unraveling the phosphorylation landscape: a leap forward in understanding the rice blast fungus pathogenicity. Phytopathology Research 6: 50.

65. Li Z, Yang J, Ji X, Liu J, Yin C, Bhadauria V, Zhao W, Peng Y (2024) First telomere-to-telomere gapless assembly of the rice blast fungus Pyricularia oryzae. Scientific Data 11: 380.

64. Li Z, Chen J, Liu C, He S, Wang M, Wang L, Bhadauria V, Wang S, Cheng W, Liu H, Yang X, Xu M, Peng Y, Zhu W (2024) Natural variation in the interaction of maize ZmLecRK1 with ZmBAK1-L1 determines patterns of resistance to multiple pathogens. Molecular Plant 17(10): 1606–1623.

63. Qiu T, Wei S, Fang K, Zhang M, Li Y, Feng Y, Cheng Y, Zhang S, Tian J, Gao A, Yang Q, Yang M, Bhadauria V, Li J, Peng Y, Zhao W (2024) The atypical Dof transcriptional factor OsDes1 contributes to stay-green, grain yield, and disease resistance in rice. Science Advances 10(34): eadp0345.

62. Zhang X, Liu Y, Yuan G, Wang S, Wang D, Zhu T, Wu X, Ma M, Guo L, Guo H, Bhadauria V, Liu J, Peng Y (2023) The synthetic NLR RGA5^HMA5 requires multiple interfaces within and outside the integrated domain for effector recognition. Nature Communications 15: 1104.

61. Liu C, He S, Chen J, Wang M, Li Z, Wei L, Chen Y, Du M, Liu D, Li C, An C, Bhadauria V, Lai J, Zhu W (2024) A dual-subcellular localized β-glucosidase confers pathogen and insect resistance without a yield penalty in maize. Plant Biotechnology Journal 22(4): 1017–1032.

60. Meng F, Zheng X, Wang J, Qiu T, Yang Q, Fang K, Bhadauria V, Peng Y, Zhao W (2024) The GRAS protein OsDLS involves in brassinosteroid signaling and positively regulates blast resistance by forming a module with OsGSK2 and OsWRKY53 in rice. Plant Biotechnology Journal 22(2): 363–378.

59. Wang Y, Yue J, Yang N, Zheng C, Zheng Y, Wu X, Yang J, Zhang H, Liu L, Ning Y, Bhadauria V, Zhao W, Xie Q, Peng Y, Chen Q (2023) An ERAD-related ubiquitin-conjugating enzyme boosts broad-spectrum disease resistance and yield in rice. Nature Food 4: 774-787.

58. Liu H, Lu X, Li M, Lun Z, Yan X, Yin C, Yuan G, Wang X, Liu N, Liu D, Wu M, Luo Z, Zhang Y, Bhadauria V, Yang J, Talbot NJ, Peng Y (2023) Plant immunity suppression by an exo-β-1,3-glucanase and an elongation factor 1α of the rice blast fungus. Nature Communications 14: 5491.

57. Ma W, Yang J, Ding J, Duan C, Zhao W, Peng Y, Bhadauria V^† (2023) CRISPR/Cas9-mediated deletion of large chromosomal segments identifies a minichromosome modulating the Colletotrichum graminicola virulence on maize. International Journal of Biological Macromolecules 245: 125462.

56. Qian N, Feng C, Cheng Y, Zhang G, Bhadauria V, Lu X and Zhao W (2023) Two species of Stemphylium, S. astragali and S. henanense sp. nov., causing leaf and stem spot disease on Astragalus sinicus L. in China. Phytopathology 113(6): 945–952.

55. Liu N, Huang M, Liang X, Cao M, Lun Z, Zhang Y, Yang J, Bhadauria V, Zhao W, Yan J, Peng Y, Lu X (2023) Magnaporthe oryzae endoplasmic reticulum membrane complex regulates the biogenesis of membrane proteins for pathogenicity. New Phytologist 238(3): 1163–1181.

54. Xu X, Zhao R, Xu X, Tang L, Shi W, Chen D, Peng J, Bhadauria V, Zhao W, Yang J, Peng Y (2023) MoSnf5 regulates fungal virulence, growth and conidiation in Magnaporthe oryzae. Journal of Fungi 9(1): 18.

53. Shi W, Yang J, Chen D, Yin C, Zhang H, Xu X, Pan X, Wang R, Fei L, Li M, Qi L, Bhadauria V, Liu J, Peng Y (2022) The rice blast fungus SR protein 1 regulates alternative splicing with unique mechanisms. PLoS Pathogens 18(12): e1011036.

52. Ma W, Yang J, Ding J, Zhao W, Peng Y, Bhadauria V^† (2022) Gapless reference genome assembly of Didymella glomerata, a new fungal pathogen of maize causing Didymella leaf blight. Frontiers in Plant Science 13: e1022819.   

51. Ma W^#, Gao X^#, Han T, Mohammed NT, Yang J, Ding J, Zhao W, Peng Y, Bhadauria V^† (2022) Molecular genetics of anthracnose resistance in maize. Journal of Fungi 8(5): e540. 

50. Ma W^#, Yang J^#, Gao X, Han T, Liu J, Ding J, Zhao W, Peng Y, Bhadauria V^† (2022) First report of Didymella glomerata causing Didymella leaf blight on maize. Plant Disease 106(9): 2522.

49. Wang Y, Yang N, Zheng Y, Yue J, Bhadauria V, Peng Y, Chen Q (2022) Ubiquitination in the rice blast fungus Magnaporthe oryzae: from development and pathogenicity to stress responses. Phytopathology Research 4: e1.

48. Liu Y, Zhang X, Yuan G, Wang D, Zheng Y, Ma M, Guo L, Bhadauria V, Peng Y, Liu J (2021) A designer rice NLR immune receptor confers resistance to the rice blast fungus carrying non-corresponding avirulence effectors. PNAS 118 (44): e2110751118.

47. TariqJaveed M, Mateen A, Wang S, Qiu S, Zheng X, Zhang J, Bhadauria V, Sun W (2021) Versatile effectors of phytopathogenic fungi target host immunity. Journal of Integrative Plant Biology 63(11): 1856–1873.

46. Li Z, Yang J, Peng J, Cheng Z, Liu X, Zhang Z, Bhadauria V, Zhao W, Peng Y (2021) Transcriptional landscapes of long non-coding RNAs and alternative splicing in Pyricularia oryzae revealed by RNA-Seq. Frontiers in Plant Science 12: e723636.

45. Gordon A, McCartney C, Knox RE, Ereful N, Hiebert CW, Konkin DJ, Hsueh Y, Bhadauria V, Sgroi M, O'Sullivan DM, Hadley C, Boyd LA, Menzies JG (2020) Genetic and transcriptional dissection of resistance to Claviceps purpurea in the durum wheat cultivar Greenshank. Theoretical and Applied Genetics 133: 1873–1886.

44. Bhadauria V^†, MacLachlan R, Pozniak C, Cohen-Skali A, Li L, Halliday J, Banniza S^† (2019) Genetic map-guided genome assembly reveals a virulence-governing minichromosome in the lentil anthracnose pathogen Colletotrichum lentis. New Phytologist 221(1): 431–445.

43. Sari E, Bhadauria V, Ramsay L, Borhan MH, Lichtenzveig J, Bett KE, Vandenberg A, Banniza S (2018) Defense responses of lentil (Lens culinaris) genotypes carrying non-allelic resistance genes to Ascochyta lentis infection. PLOS One 13(9): e0204124.

42. Banniza S, Warale R, Menat J, Cohen-Skali A, Bhadauria V (2018) The long path to understanding a host-pathogen system: Colletotrichum lentis on lentil. Canadian Journal of Plant Pathology 40(2): 199-209.

41. Bhadauria V^#,†, Popescu L^#,† (2018) Quantitative genetics of disease resistance in wheat. Current Issues in Molecular Biology 27: 105–108.

40. Naidoo S, du Toit Y, Zwart L, Visser EA, Bhadauria V, Shuey L (2018) Dual RNA-sequencing to elucidate the plant-pathogen duel. Current Issues in Molecular Biology 27: 127­–142.

39. Morgounov A, Sonder K, Abugalieva A, Bhadauria V, Cuthbert RD, Shamanin V, Zelenskiy Y, DePauw RM (2018) Effect of climate change on spring wheat yields in North America and Eurasia in 1981-2015 and implications for breeding. PLOS One 13(10): e0204932.

38. Yates S, Lagüe M, Knox RE, Cuthbert RD, Clarke F, Clarke J, Ruan Y, Singh JS, Bhadauria V^† (2018) Crop Information Engine and Research Assistant (CIERA) for managing genealogy, phenotypic and genotypic data for breeding programs. bioRxiv doi: https://doi.org/10.1101/439505

37. Bhadauria V^#,†, Popescu L^#,† (2018) Next-generation sequencing and bioinformatics for plant sciences (Editorial). Current Issues in Molecular Biology 27: 1.

36. Chen X^#, Bhadauria V^#, Ma B (2018) ChIP-Seq: A powerful tool for studying protein-DNA interactions in plants. Current Issues in Molecular Biology 27: 171-180.

35. Gomez-Casati DF, Busi MV, Barchiesi J, Peralta DA, Hedin N, Bhadauria V (2018) Applications of bioinformatics to plant biotechnology. Current Issues in Molecular Biology 27: 89–104.

34. Bhadauria V, Ramsay L, Vandenberg A, Bett KE, Banniza S (2017) QTL mapping reveals genetic determinants of fungal disease resistance in the wild lentil Lens ervoides. Scientific Reports 7: e3232.

33. Bhadauria V, Vijayan P, Wei Y, Banniza S (2017) Transcriptome analysis reveals a complex interplay between resistance and effector genes during the compatible lentil-Colletotrichum lentis interaction. Scientific Reports 7: e42338.

32. Sari E, Bhadauria V, Vandenberg A, Banniza S (2017) Genotype-dependent interaction of lentil lines with Ascochyta lentis. Frontiers in Plant Science 8: 764.

31. Zhang Y, Zhang P, Bhadauria V, Chen X, Ma B (2017) An efficient CAPS marker for bacterial-blight resistance gene xa25 in rice. Canadian Journal of Plant Pathology 39(2): 117–120.

30. Caudillo-Ruiz K, Bhadauria V, Banniza S (2017) Etiology of Stemphylium blight on lentil in Canada. Canadian Journal of Plant Pathology 39(4): 422–432.

29. Yang J, Hsiang T, Bhadauria V, Chen X, Li G (2017) Plant fungal pathogenesis. BioMed Research International 2017: 9724283.

28. Bhadauria V^#, Wong MML^#, Bett KE, Banniza S (2016) Wild help for enhancing genetic resistance in lentil against fungal diseases. Current Issues in Molecular Biology 19: 3–6. Cover feature

27. Bhadauria V (2016) Omics in plant disease resistance. Current Issues in Molecular Biology 19:1¬–2.

26. Francisco M, Soengas P, Velasco P, Bhadauria V, Maria EC, Rodríguez VM (2016) Omics approach to identify factors involved in Brassica disease resistance. Current Issues in Molecular Biology 19: 31-42.

25. Gomez-Casati DF, Pagani MA, Busi MV, Bhadauria V (2016) Omics approaches for the engineering of pathogen resistant plants. Current Issues in Molecular Biology 19: 89–98.

24. Chen X, Bhadauria V, Ma B (2016) Current status of proteomic studies on defense responses in rice. Current Issues in Molecular Biology 19: 7–12.

23. Bhadauria V, MacLachlan R, Pozniak C, Banniza S (2015) Candidate effectors contribute to race differentiation and virulence of the lentil anthracnose pathogen Colletotrichum lentis. BMC Genomics 16: e628.

22. Bhadauria V, Banniza S (2014) What lies ahead in the post-genomics era: A perspective on genetic improvement of crops for fungal disease resistance? Plant Signaling and Behavior 9: e28503.

21. Armstrong-Cho C, Tetreault M, Banniza S, Bhadauria V, Morrall RAA (2014) Reports of Aphanomyces euteiches in Saskatchewan. Canadian Plant Disease Survey 94: 193–194.

20. Bhadauria V, Banniza S, Vandenberg A, Selvaraj G, Wei Y (2013) Overexpression of a novel biotrophy-specific Colletotrichum truncatum effector CtNUDIX in hemibiotrophic fungal phytopathogens causes incompatibility with their host plants. Eukaryotic Cell 12(1): 2–11. Cover feature

19. Bhadauria V, Bett KE, Zhou T, Vandenberg A, Wei Y, Banniza S (2013) Identification of Lens culinaris defense genes responsive to the anthracnose pathogen Colletotrichum truncatum. BMC Genetics 14: e31.

18. Kumar M, Bhadauria V, Singh K, Singh C, Yadav AK (2013) Evaluation of fungicide efficacy for the management of Alternaria leaf spot disease on chilli. Plant Pathology Journal 12(1): 32–35.

17. Kumar M, Bhadauria V, Singh K, Singh C, Yadav AK (2013) Screening of chilli germplasm for resistance to Alternaria leaf spot disease. Archives of Phytopathology and Plant Protection 46(4): 463–469.

16. Banniza S, Bhadauria V, Peluola C, Armstrong-Cho C, Morrall RAA (2013) First report of Aphanomyces euteiches in Saskatchewan. Canadian Plant Disease Survey 93: 163–164.

15. Bhadauria V, Banniza S, Vandenberg A, Selvaraj G, Wei Y (2012) Peroxisomal alanine: glyoxylate aminotransferase AGT1 is indispensable for appressorium function of the rice blast pathogen, Magnaporthe oryzae. PLOS One 7(4): e36266.

14. Bhadauria V, Banniza S, Vandenberg A, Selvaraj G, Wei Y (2012) Alanine: glyoxylate aminotransferase 1 is required for mobilization and utilization of triglycerides during the infection process of the rice blast pathogen, Magnaporthe oryzae. Plant Signaling and Behavior 7(9): 1206–1208.

13. Bhadauria V, Banniza S, Vandenberg A, Selvaraj G, Wei Y (2011) EST mining identifies proteins putatively secreted by the anthracnose pathogen Colletotrichum truncatum. BMC Genomics 12: e327.

12. Feng J, Bhadauria V, Liu G, Selvaraj G, Hughes GR, Wei Y (2011) Molecular characterization of promoter regions reveals Cis-acting elements responsible for expression regulation of Fusarium graminearum lipase gene Lip1. Microbiological Research 166(8): 618–628.

11. Bhadauria V, Banniza S, Vandenberg A, Selvaraj G, Wei Y (2011) Cataloguing proteins secreted during the biotrophy-necrotrophy transition of the anthracnose pathogen Colletotrichum truncatum. Plant Signaling and Behavior 6(10): 1457–1459.

10. Bhadauria V, Wang L, Peng Y (2010) Proteomic changes associated with deletion of the Magnaporthe oryzae conidial morphology-modulating gene COM1. Biology Direct 5: e61.

9. Bhadauria V, Banniza S, Wang L, Wei Y, Peng Y (2010) Proteomic studies of phytopathogenic fungi, oomycetes and their interactions with hosts. European Journal of Plant Pathology 126(1):81–95.

8. Bhadauria V, Miraz P, Kennedy R, Banniza S, Wei Y (2010) Dual trypan-aniline blue fluorescence staining methods to study fungal-plant interactions. Biotechnic & Histochemistry 85(2):99–105.

7. Bhadauria V, Peng Y (2010) Optimization of a protein extraction technique for fungal proteomics. Indian Journal of Microbiology 50: S127–131.

6. Bhadauria V, Peng Y (2010) Rice blast fungus proteomics. Archives of Phytopathology and Plant Protection 43(2):149-153.

5. Bhadauria V (2010) Rice blast fungus transcriptomics. Archives of Phytopathology and Plant Protection 43(8): 723–727.

4. Bhadauria V, Banniza S, Wei Y, Peng Y (2009) Reverse genetics for functional genomics of phytopathogenic fungi and oomycetes. Comparative and Functional Genomics 2009: 1–11.

3. Bhadauria V, Zhao W, Wang L, Zhang Y, Liu J, Yang J, Kong L, Peng Y (2007) Advances in fungal proteomics. Microbiological Research 162(3): 193-200.

2. Bhadauria V, Popescu L, Zhao W, Peng Y (2007) Fungal transcriptomics. Microbiological Research 162(4): 285–298.

1. Zhang H, Pan HY, Wei Y, Bhadauria V (2006) Selective methylation of one of the two promoters residing in T-DNA inserted in a retroelement of rice. Russian Journal of Plant Physiology 53(2): 238–245.