罗梓楠

 
职务职称:
湖南农业大学内聘教授,神农学者特聘教授(III)
最高学历:
博士研究生
研究领域:
花生遗传育种
E-mail:
luozinan@hunau.edu.cn
 
工作经历:
2021.03至今,4188云顶集团,内聘教授
2017.11-2021.01,美国农业部农业研究服务署(USDA-ARS),博士后,导师:Hussein Abdel-Haleem
学习经历:
2013.08-2017.08,俄亥俄州立大学(美国),园艺与作物科学专业,硕-博士,导师:Katrina Cornish
2007.09-2011.06,湖南农业大学,生物技术专业,学士
 
 
硕士生导师,现与团队PI共同指导博士研究生3名,硕士研究生4名。主讲遗传学及实验技术、遗传学大实验等本科生课程。
 
 
  湖南农业大学神农学者III层次引进人才,作物遗传育种学术型硕士生导师,农艺与种业专业型硕士生导师。湖南农业大学花生团队骨干成员。主要开展花生遗传育种研究:搜集并创制花生高产优质抗逆新种质,利用全基因组关联分析、基因组选择等技术筛选控制花生高产优质及生育期适宜等性状的基因,并揭示其分子机理,开发分子标记,为后续的分子标记辅助育种及全基因组选择奠定基础。同时,结合基因编辑等手段,创造出满足“南方食用型特色小籽花生”生产需求的耐低钙且农艺性状优良的花生种质,为花生基因组设计育种提供理论基础和基因资源。 曾先后参与国际项目USDA-ARS、USDA-NIFA等科研项目3项,累计科研经费285万美元;曾在Industrial Crops and Products, Frontiers in Plant Science, BMC Plant Biology等杂志上发表SCI论文10多篇,其中以第一作者或通讯作者发表SCI论文10篇,累计影响因子46.93。同时,担任Industrial Crops and Products, Plant Genome, BMC Evolutionary Biology等杂志审稿人,曾担任Association for the Advancement of Industrial Crops(AAIC)及National Association of Plant Breeders(NAPB)学会会员。
 
 
•USDA-ARS (2020-21410-007-00D),Enhancing Abiotic Stress Tolerance of Cotton, Oilseed s, and Other Industrial and Biofuel Crops Using High Throughput Phenotyping and Other Genetic Approaches, 2018-2020年,结题,35万美元,参加
•USDA-NIFA SBAR (2017-68005-26867),Sustainable Bioeconomy for Arid Regions, 2017-2020年,结题,150万美元,参加
•USDA-NIFA (2016-67009-25639), Genomics and Phenomics to Identify Yield and Drought Tolerance Alleles for Improvement of Camelina as a Biofuel Crop, 201 6-2019年,结题,100万美元,参加
 
 
第一作者或通讯作者论文
•Luo, Z., Fahlgren, N., Kutchan, T., Schachtman, D., Ge, Y., Gesch, R., George, S., Dyer, J.M., and Abdel-Haleem, H*. (2021). Discovering candidate genes related to flowering time in the spring panel of Camelina sativa. Industrial Crops and Products 173:114104.
•Luo, Z., Szczepanek, A., Abdel-Haleem, H*. (2020). Genome-wide association study (GWAS) analysis of camelina seedling germination under salt stress condition. Agronomy 10(9), 1444.
•Luo, Z.#, Mullen, C.#, Abdel-Haleem, H*. (2020). Pyrolysis GC/MS analysis of improved guayule genotypes. Industrial Crops and Products, 155.
•Luo, Z.*, Brock, J., Dyer, J.M., Kutchan, T., Schachtman, D., Augustin, M., Ge, Y., Fahlgren, N., and Abdel-Haleem, H*. (2019). Genetic diversity and population structure of a Camelina sativa spring panel. Frontiers in Plant Science 10, 184.
•Luo, Z.*, Tomasi, P., Fahlgren, N., and Abdel-Haleem, H*. (2019). Genome-wide association study (GWAS) of leaf cuticular wax components in Camelina sativa identifies genetic loci related to intracellular wax transport. BMC Plant Biology 19, 187.
•Luo, Z.*, Abdel-Haleem, H*. (2019). Phenotypic diversity of USDA guayule germplasm collection grown under different irrigation conditions. Industrial Crops and Products, 142.
•Luo, Z., Thorp, K., Abdel-Haleem, H.* (2019). A high-throughput quantification of resin and rubber contents in Parthenium argentatum using near-infrared (NIR) spectroscopy. Plant Methods 15:154.
•Luo, Z., Iaffaldano, B.J., Zhuang, X., Fresnedo-Ramírez, J., and Cornish, K*. (2018). Variance, inter-trait correlation, heritability, and marker-trait association of rubber yield-related characteristics in Taraxacum kok-saghyz. Plant Molecular Biology Reporter 36(4):576-587.
•Luo, Z., Iaffaldano, B.J., and Cornish, K*. (2018). Colchicine-induced polyploidy has the potential to improve rubber yield in Taraxacum kok-saghyz. Industrial Crops and Products 112, 75-81.
•Luo, Z., Iaffaldano, B.J., Zhuang, X.F., Fresnedo-Ramirez, J., and Cornish, K*. (2017). Analysis of the first Taraxacum kok-saghyz transcriptome reveals potential rubber yield related SNPs. Scientific Reports 7, 1-13
专著章节
•Abdel-Haleem, H.*, Luo, Z.*, Ray D. (2019) Genetic Improvement of Guayule (Parthenium argentatum A. Gray): An Alternative Rubber Crop. In: Al-Khayri J., Jain S., Johnson D. (eds) Advances in Plant Breeding Strategies: Industrial and Food Crops. Springer, Cham
参与作者论文
•Liu, D., Zhan, J., Luo, Z., Zeng, N., Zhang, W., Zhang, H., Li, L*. (2021). Quantitative proteomics and relative enzymatic activities reveal different mechanisms in two peanut cultivars (Arachis hypogaea L.) under waterlogging conditions. Frontiers in Plant Science 12:716114.