乔坤,作为“第五类人才计划”引进东北农业大学园艺学院,副教授、东北农业大学“学术骨干”。主要研究方向为植物抗逆分子生物学,从事环境胁迫(盐碱、重金属毒害和CO2)响应基因的克隆、表达调控和功能研究,及植物对环境适应的分子机理、遗传改良和生物修复。
联系方式
电话:18642167166 邮箱:kunqiao@neau.edu.cn
教育及工作经历
2004.09-2008.06:辽宁师范大学生命科学学院,生物技术,学士;
2008.09-2011.06:辽宁师范大学生命科学学院,植物分子生物学,硕士;
2011.09-2015.06:东北林业大学盐碱地生物资源环境研究中心,生物化学与分子生物学,博士;
2015.09-2019.06:中国科学院大学/深圳大学 生命科学学院,生物化学与分子生物学,博士后
2019.07-至今:东北农业大学 园艺学院 副教授
科研项目
1. 第五类人才计划A类,2019.07-2024.07,50万元,结题,主持
2. 黑龙江省自然科学基金优秀青年项目(YQ2020C002),羊草CNR蛋白调控Cd/Pb转运和富集的分子机制,2020.07-2023.07,10万元,结题,主持
3. 黑龙江省博士后落户科研启动基金(LBH-Q19084). 水稻CNR蛋白家族调控Cd/Pb转运和累积的分子机制,2020.01.01--2021.12.31,6万元,结题,主持
4. 国家自然科学青年基金项目(31800200),TaPCR2调控Zn/Mn/Cd转运及籽粒大小的机制研究,2019.01-2021.12,20万元,结题,主持
5. 国家自然基金联合基金项目(U1632111),基于同步辐射的水稻茎节Ⅰ调控籽粒Zn、Cd累积机制探究,2017.01-2020.12,50万元,在研,参加
6. 区域性国际合作基金项目(Y4ZK111B01),东南亚水稻低镉种质资源鉴定和籽粒镉累积的分子机制,2016.09-2018.08,30万元,结题,参加
7. 黑龙江省自然科学基金优秀青年项目(YQ2020C006),表皮蜡质合成基因CER1调控尖叶石竹耐旱性的分子机制研究,2020.07-2023.07,10万元,结题,参加
发表论文情况(第一或通讯作者)
1. Zhang, HM, Guan, J, Lin, YY, Chai, TY, Zhou, AM, Hu, CX, Qiao, K*. Cytoplasmic and mitochondrial citrate synthases mediate cadmium detoxification and tolerance in plants. Journal of Hazardous Materials 2026, 508, 141896. (中科院一区)
2. Wang, JL, Di, GL, Lin, YY, Mu, LL, Zhuang, X, Zhang, DM, Han, WB, Chai, TY, Zhou, AM, Qiao, K*. LcSHMT4 from Sheepgrass Improves Tolerance to Cadmium and Manganese and Enhances Cd and Mn Accumulation in Grains. Plants 2025, 15, 91. (中科院二区)
3. Wang, M, Han, T, Huang, FH, Li, XC, Shan, JY, Zhang, DM, Shen, ZB, Wang, JL, Qiao, K*. Saline-Alkaline Stress-Driven Rhizobacterial Community Restructuring and Alleviation of Stress by Indigenous PGPR in Alfalfa. Plants 2025, 14, 3844. (中科院二区)
4. Qiao, SY, Wei, DW, Chen, H, Yu, JH, Gong, SF, Niu, ZY, Zhou, AM, Qiao, K*, Wang, JG. The Defense Response of Honeyberry to Root Rot Pathogens: Evidence Based on Pathogen Identification and Host Mechanism. Plants 2025, 14, 3820. (中科院二区)
5. Zhang, YX, Guan, J, Chai, TY, Qiao, K*. A biofortification tool enhances iron and manganese tolerance and accumulation in plants. Journal of Science and Food Agriculture 2025, 105, 8296-8306. (中科院二区)
6. Liu, BB, Zhou, AM, Li, SG, Chai, TY, Liu, TY, Wang, JG, Qiao, K*. A novel NADP+-isocitrate dehydrogenase contributes to cadmium/lead detoxification and tolerance in plants. International Journal of Biological Macromolecules 2025, 312, 144094. (中科院二区)
7. Liu, BB, Wang, Q, Guan, J, Gong, SF, Chai, TY, Wang, JG, Qiao, K*. DsGGCT2-1 involved in the detoxification of Cd and Pb through the glutathione catabolism in Dianthus spiculifolius. Plant Physiology and Biochemistry 2025, 225, 109976. (中科院二区)
8. Shan, QH, Guan, J, Yang, YH, Chai, TY, Gong, SF, Wang, JG, Qiao, K*. Cadmium-induced protein AS8: A protein to improve Cd accumulation and transport via Cd uptake in poplar. Plant Physiology and Biochemistry 2024, 216, 109199. (中科院二区)
9. Qiao, K, Ran, Y, Zhang, L, Liu, X, Sun, ZM, Chai, TY, Gong, SF, Hu, ZL. Scenedesmus acuminatus as a potential phycoremediator: Enrichment and detoxification of cadmium/lead. Algal Research 2024, 82, 103112. (中科院二区)
10. Guan, J, Zhang YX, Li DF, Shan QH, Hu ZL, Chai TY, Zhou AM, Qiao, K*. Synergistic role of phenylpropanoid biosynthesis and citrate cycle pathways in heavy metal detoxification through secretion of organic acids. Journal of Hazardous Materials 2024, 476, 135106. (中科院一区)
11. Ran, Y, Sun, DX, Liu, X, Zhang, L, Niu, ZY, Chai, TY, Hu, ZL, Qiao, K*. Chlorella pyrenoidosa as a potential bioremediator: Its tolerance and molecular responses to cadmium and lead. Science of the Total Environment 2024, 912, 168712. (中科院二区)
12. Qiao, K, Shan, QH, Zhang, HZ, Lv, FL, Zhou, AM. Populus euphratica plant cadmium tolerance PePCR3 improves cadmium tolerance. Tree Physiology 2023, 43, 1950-1963. (中科院二区)
13. Guan, J, Yang, YH, Shan, QH, Zhang, HZ, Zhou, AM, Gong, SF, Chai, TY, Qiao, K*. Plant cadmium resistance 10 enhances tolerance to toxic heavy metals in poplar. Plant Physiology and Biochemistry 2023, 203, 108043. (中科院二区)
14. Shan, QH, Yang, YH, Guan, J, Chai, TY, Gong, SF, Wang, JG, Qiao, K*. New potential transporter CIPAS8 enhances cadmium hypersensitivity and cobalt tolerance. Plant Cell Reports 2023, 42, 1179-1190. (中科院二区)
15. Tong, MY, Liu, X, Guan, J, Lin, YY, Zhou, AM, Qiao, K*. Novel biofortification candidate: MTP1 increases microelement contents and decreases toxic heavy metal accumulation in grains. Chemosphere 2023, 318, 137967. (中科院二区)
16. Qiao, K, Wang, Q, Liu, X, Gong, SF, Wang, JG. Cadmium/lead tolerance of six Dianthus species and detoxification mechanism in Dianthus spiculifolius. Chemosphere 2023, 312, 137258. (中科院二区)
17. Hu, XF, Wang, D, Ren, S, Feng, S, Zhang, HZ, Zhang, JZ, Qiao, K*, Zhou, AM*. Inhibition of root growth by alkaline salts due to disturbed ion transport and accumulation in Leymus chinensis. Environmental and Experimental Botany 2022, 200, 104907. (中科院二区)
18. Qiao, SY, Tao, Y, Shan, QH, Wang, JG, Chai, TY, Gong, SF, Qiao, K*. Physiological and gene expression responses of six annual ryegrass cultivars to cobalt, lead, and nickel stresses. International Journal of Molecular Sciences 2021, 22, 13583. (中科院三区)
19. Wang, JG, Shan, QH, Ran, Y, Sun, DX, Zhang, HZ, Zhang, JZ, Gong, SF, Zhou, AM, Qiao, K*. Molecular Characterization of a Tolerant Saline-Alkali Chlorella Phosphatidate Phosphatase That Confers NaCl and Sorbitol Tolerance. Frontiers in Microbiology 2021, 12, 738282. (中科院二区)
20. Wang, JG, Zhao, JC, Feng, S, Zhang, ZJ, Gong, SF, Qiao, K,* Zhou, AM. Comparison of cadmium uptake and transcriptional responses in roots reveal key transcripts from high and low-cadmium tolerance ryegrass cultivars. Ecotoxicology and Environmental Safety 2020, 203, 110961. (中科院二区)
21. Qiao, K, Tian, YB, Hu, ZL, Chai, TY. Wheat cell number regulator CNR10 enhances the tolerance, translocation, and accumulation of heavy metals in plants. Environmental Science and Technology 2019, 53, 860-867. (中科院一区)
22. Qiao, K, Liang, S, Wang, FH, Wang, H, Hu, ZL, Chai, TY. Effects of cadmium toxicity on diploid wheat (Triticum urartu) and the molecular mechanism of the cadmium response. Journal of Hazardous Materials 2019, 394, 1-10. (中科院一区)
23. Qiao, K, Wang, FH, Gong, L, Liang, S, Tian, SQ, Hu, ZL, Chai, TY. New biofortification tool: wheat TaCNR5 enhances zinc and manganese tolerance and increases zinc and manganese accumulation in grains. Journal of Agricultural and Food Chemistry 2019, 67, 9877-9884. (中科院一区)
24. Qiao, K, Wang, FH, Liang, S, Wang, H, Hu, ZL, Chai, TY. Improved Cd, Zn and Mn tolerance and reduced Cd accumulation in grains with wheat-based cell number regulator TaCNR2. Scientific Reports 2019, 9, 870. (中科院三区)
25. Qiao, K, Wang, M, Takano, T, Liu, SK. Overexpression of Acyl-CoA-binding protein 1 (ChACBP1) from saline-alkali-tolerant Chlorella sp. enhances stress tolerance in Arabidopsis. Frontiers in Plant Science 2018, 9, 1772. (中科院二区)
26. Qiao, K, Wang, FH, Liang, S, Wang, H, Hu, ZL, Chai, TY. Heterologous expression of TuCAX1a and TuCAX1b enhances Ca2+ and Zn2+ translocation in Arabidopsis. Plant Cell Reports 2019, 38, 597-607. (中科院二区)
27. Qiao, K, Gong, L, Tian, YB, Wang, H, Chai, TY. The metal-binding domain of wheat heavy metal ATPase 2 (TaHMA2) is involved in zinc/cadmium tolerance and translocation in Arabidopsis. Plant Cell Reports 2018, 37, 1343-1352. (中科院二区)
28. Qiao, K, Takano, T, Liu, SK. Discovery of two novel highly tolerant NaHCO3 Trebouxiophytes: Identification and characterization of microalgae from extreme saline-alkali soil. Algal Research 2015, 9, 245-253. (中科院二区)
29. Qiao, K, Li, SG, Li, HY, Tong, SM, Hou, HS. Molecular cloning and sequence analysis of methionine adenosyltransferase from the economic seaweed Undaria pinnatifida. Journal of Applied Phycology 2013, 25, 81-87. (中科院三区)
