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2021 March Vol.34 No.1 ISSN 1598-8384

신진과학자

신진과학자 소개

상현규
상 현 규 (Hyunkyu Sang)

전남대학교 농식품생명공학부 E-mail : hksang@jnu.ac.kr


[학 력]
  • 2002 - 2009

    충남대학교 응용생물학과, 학사

  • 2009 - 2011

    충남대학교 농생물학과, 석사

  • 2011 - 2017

    University of Massachusetts, Amherst, 박사

[경 력]
  • 2017 - 2019

    University of Massachusetts, Amherst, 연구∙교육 조교

  • 2017 - 2019

    Michigan State University, 박사후연구원

  • 2019 - 2019

    가톨릭관동대학교, 국제성모병원, 박사후연구원

  • 2019.9 - 현재

    전남대학교 농식품생명공학부, 조교수

주요 연구 관심 분야 소개

  • 항진균제 저항성 기전 연구
  • 유용미생물기반 진균병 제어
  • 식물-미생물 상호작용 연구

[연구성과 - 주요논문]

  • 1. Peng J, Sang H, Proffer T, Gleason J, Outwater C, Jung G, Sundin GW. 2020. A method for the examination of SDHI fungicide resistance mechanisms in phytopathogenic fungi using a heterologous expression system in Sclerotinia sclerotiorum. Phytopathology. doi.org/10.1094/PHYTO-09-20-0421-R (Equal contribution)
  • 2. Peng J, Rojas JA, Sang H, Proffer T, Outwater C, Vilgalys R, Sundin GW. 2020. Draft genome sequence resource for Blumeriella jaapii, the cherry leaf spot pathogen. Phytopathology 110: 1507-1510
  • 3. Sang H, Kim JI. 2020. Advanced strategies to control plant pathogenic fungi by host-induced gene silencing (HIGS) and spray-induced gene silencing (SIGS). Plant Biotechnol. Rep. 14: 1-8
  • 4. Roth MG, Oudman KA, Griffin A, Jacobs JL, Sang H, Chilvers MI. 2020. Diagnostic qPCR assay to detect Fusarium brasiliense, a causal agent of soybean sudden death syndrome and root rot of dry bean. Plant Dis. 104: 246-254
  • 5. Park JH, Oh J, Sang H, Shrestha B, Lee H, Koo J, Cho SI, Choi JS, Lee MH, Sung GH. 2019. Identification and antifungal susceptibility profiles of Cyberlindnera fabianii in Korea. Mycobiology 47: 449-456
  • 6. Noel ZA, Sang H, Roth MG, Chilvers MI. 2019. Convergent evolution of C239S mutation in Pythium s.l. β-tubulin coincides with inherent insensitive to ethaboxam. Phytopathology 109: 2087-2095
  • 7. Chang HX, Tan R, Hartman GL, Sang H, Wen Z, Domier LL, Whitham SA, Wang D, Chilvers MI. 2019. Foliar chlorosis of sudden death syndrome is a dominant susceptibility trait controlled by two STAY-GREEN genes of soybean. Plant Physiol. 180:711-717
  • 8. Wang J, Sang H, Jacobs JL, Oudman K, Hanson L, Chilvers MI. 2019. Soybean sudden death syndrome causal agent Fusarium brasiliense present in Michigan. Plant Dis. 103:1234-1243 (Equal contribution)
  • 9. Sang H, Popko J, Jung G. 2019. Evaluation of a Sclerotinia homoeocarpa population with multiple fungicide resistance phenotypes under differing selection pressures. Plant Dis. 103:685-690
  • 10. Sang H, Chang HX, Chilvers MI. 2019. A Sclerotinia sclerotiorum transcription factor involved in sclerotial development and virulence on pea. mSphere 4: e00615-18
  • 11. Popko J, Sang H, Lee J, Yamada T, Hoshino Y, Jung G. 2018. Resistance of Sclerotinia homoeocarpa field isolates to succinate dehydrogenase inhibitor fungicides. Plant Dis. 102: 2625-2631. (Equal contribution)
  • 12. Sang H, Jacobs JL, Wang J, Mukankusi C, Chilvers MI. 2018. First report of Fusarium cuneirostrum from common bean (Phaseolus vulgaris) in Uganda. Plant Dis. 102:2639
  • 13. Jacobs JL, Oudman K, Sang H, Chilvers MI. 2018. First report of Fusarium brasiliense causing root rot of dry bean, in the United States. Plant Dis. 102: 2035
  • 14. Sang H, Witte A, Jacobs JL, Wang J, Chang HX, Roth MG, Chilvers MI. 2018. Fluopyram sensitivity and functional characterization of SdhB in Fusarium solani species complex causing soybean sudden death syndrome. Front. in Microbiol. 9:2335
  • 15. Green R, Sang H, Im J, Jung G. 2018. Chlrothalonil biotransformation by cytochrome P450 monooxygenases in Sclerotinia homoeocarpa. FEMS Microbiol. Lett. 365: fny214
  • 16. Chang HX, Noel ZA, Sang H, Chilvers MI. 2018. Annotation resource of tandem repeat-containing effectors in fifty fungi. Fungal Genet. Biol. 119: 7-19.
  • 17. Sang H, Hulvey JP, Green R, Xu H, Im J, Chang T, Jung G. 2018. A xenobiotic detoxification pathway through transcriptional regulation in filamentous fungi. mBio 9: e00457-18
  • 18. Chang HX, Sang H, Wang J, McPhee KE, Zhuang X, Porter LD, Chilvers MI. 2018. Exploring the genetics of lesion and nodal resistance in pea (Pisum sativum L.) to Sclerotinia sclerotiorum using genome-wide association studies and RNA-Seq. Plant Direct 2:1-17
  • 19. Kessler D, Sang H, Bousquet A, Hulvey J, Garcia D, Rhee S, Jung G. 2018. Nucleic adaptability of heterokaryons to fungicides in a multinucleate fungus of Sclerotinia homoeocarpa. Fungal Genet. Biol. 115:64-77. (Equal contribution)
  • 20. Li J, Sang H, Guo H, Popko JT, He L, White JC, Dhankher OP, Jung G, Xing B. 2017. Antifungal mechanisms of ZnO NPs and Ag nanoparticles to Sclerotinia homoeocarpa. Nanotechnology 28:155101 (Equal contribution)
  • 21. Allan-Perkins E, Cambell-Nelson K, Popko JT, Sang H, Jung G. 2017. Investigating selection of demethylation inhibitor fungicide insensitive Sclerotinia homoeocarpa isolates by boscalid, flurprimidol, and paclobutrazo. Crop science 57:S-301–S-309
  • 22. Morshedloo MR, Craker LE, Salami A, Nazeri V, Sang H, Maggi F. 2017. Effect of prolonged water stress on essential oil content, compositions, and gene expression patterns of mono- and sesquiterpene synthesis in two oregano (Origanum vulgare L.) subspecies. Plant Physiol. Biochem. 111:119-128
  • 23. Sang H, Popko J, Chang T, Jung G. 2017. Molecular mechanisms involved in qualitative and quantitative resistance to the dicarboximide fungicide iprodione in Sclerotinia homoeocarpa field isolates. Phytopathology 107:198-207
  • 24. Sang H, Hulvey J, Popko JT, Lopes J, Swaminathan A, Chang T, Jung G. 2015. A pleiotropic drug resistance transporter is involved in reduced sensitivity to multiple fungicide classes in Sclerotinia homoeocarpa. Mol. Plant Pathol. 16:251-261 (Equal contribution)
  • 25. Sang H, An TJ, Kim CS, Shin GS, Sung GH, Yu SH. 2013. Two novel Talaromyces species isolated from medicinal crops in Korea. J. Microbiol. 51:704-708
  • 26. Sang H, An TJ, Kim CS, Choi YP, Deng JX, Paul NC, Sung GH, Yu SH. 2013. Penicillium daejeonium sp. nov., a new species isolated from a grape and schisandra fruit in Korea. J. Microbiol. 51:536-539
  • 27. Hulvey J, Popko JT, Sang H, Berg A, Jung G. 2012. Overexpression of ShCYP51B and ShatrD in Sclerotinia homoeocarpa isolates exhibiting practical field resistance to a demethylation inhibitor fungicide. Appl. Environ. Microbiol. 78:6674-6682
  • 28. Paul NC, Deng JX, Sang H, Choi YP, Yu SH. 2012. Distribution and antifungal activity of endophytic fungi in different growth stages of chili pepper (Capsicum annuum L.) in Korea. Plant Pathol. J. 28: 10-19
  • 29. Deng JX, Paul NC, Sang H, Lee JH, Hwang YS, Yu SH. 2012. First report on isolation of Penicillium adametzioides and Purpureocillium lilacinumfrom decayed fruit of cheongsoo grapes in Korea. Mycobiology 40: 66-71
  • 30. Kim WK, Sang H, Woo SK, Park MS, Paul NC, Yu SH. 2007. Six species of Penicillium associated with blue mold of grape. Mycobiology 35:180-185