[1] Zeng JJ, Yang MY, Deng J, Zheng DY, Lai ZX, Wang-Pruski G, Xu H, Guo RF. The function of BoTCP25 in the regulation of leaf development of Chinese kale. Frontiers in plant science, 2023,141127197-1127197.
[2] Yao Y, Wang XQ, Chen BX, Zheng SR, Wang-Pruski G, Chen XD, Guo RF. Evaluation of Reference Genes Suitable for Gene Expression during Root Enlargement in Cherry Radish Based on Transcriptomic Data. Horticulturae, 2022, 9(1): 20-20.
[3] Niu FF, Ji C, Liang ZZ, Guo RF, Chen YX, Zeng YL, Jiang LW. ADP-ribosylation factor D1 modulates Golgi morphology,cell plate formation, and plant growth in Arabidopsis. Plant Physiol. 2022; 190(2): 1199-1213.
[4] Tang WL, Zhao YJ, Zeng JJ, Li ZW, Fu ZL, Yang MY, Zeng DL, Chen XD, Lai ZX, Wang-Pruski G, Guo RF. Integration of Small RNA and Transcriptome Sequencing Reveal the Roles of miR395 and ATP Sulfurylase in Developing Seeds of Chinese Kale. Front Plant Science. 2022; 12: 778848.
[5] Zhao YJ, Chen ZY, Chen JX, Chen BX, Tang WL, Chen XD, Lai ZX, Guo RF. Comparative transcriptomic analyses of glucosinolate metabolic genes during the formation of Chinese kale seeds. BMC Plant Biology. 2021; 21(1): 394.
[6] Chen JX, Chen ZY, Li ZW, Zhao YJ, Chen XD, Wang-Pruski G, Guo RF. Effect of Photoperiod on Chinese Kale (Brassica alboglabra) Sprouts Under White or Combined Red and Blue Light. Front Plant Science. 2021; 11: 589746.
[7] Lin YS, Guo RF, Ji CY, Zhou J,Jiang LW. New insights into AtNBR1 as a selective autophagy cargo receptor in Arabidopsis[J].Plant Signaling Behavior, 2021, 16(1)
[8] Ji CY, Zhou J, Guo RF, Lin YS, Chun-Hong Kung, Hu S, Ng Wing Yin, Zhuang XH, Jiang LW. AtNBR1 is a selective autophagic receptor for AtExo70E2 in Arabidopsis. Plant physiology, 2020, 184(2): 777-791.
[9] Guo RF, Wang XR, Han XY, Chen XD, Wang-Pruski G. Physiological and transcriptomic responses of water spinach (Ipomoea aquatica) to prolonged heat stress. BMC Genomics. 2020;21(1):533.
[10] Lyu ML, Iftikhar J, Guo RF, Wu BH, Cao JS. Patterns of Expansion and Expression Divergence of the Polygalacturonase Gene Family in Brassica oleracea.International Journal of Molecular Sciences,2020,21(16):
[11] Ye H, Ji CY, Guo RF, Jiang LW. Membrane Contact Sites and Organelles Interaction in Plant Autophagy. Front Plant Sci. 2020;11:477.
[12] Miao HY, Guo RF, Chen JL, Wang QM, Lee YJ, Liu B. The γ-tubulin complex protein GCP6 is crucial for spindle morphogenesis but not essential for microtubule reorganization in Arabidopsis. Proc Natl Acad Sci U S A. 2019;116(52):27115-27123.
[13] Guo RF, Li WJ, Wang XR, Chen BX, Huang ZK, Liu T, Chen XD, Xu H, Lai ZX.Effect of photoperiod on the formation of cherry radish root. Scientia Horticulturae,2019,244193-199.
[14] Guo RF, Deng YP, Huang ZK, Chen XD, Xu H, Lai ZX. Identification of miRNAs Affecting the Establishment of Brassica Alboglabra Seedling. Front Plant Science. 2016;7:1760.
[15] Guo RF, Huang ZK, Deng YP, Chen XD, Xu H, Lai ZX. Comparative Transcriptome Analyses Reveal a Special Glucosinolate Metabolism Mechanism in Brassica alboglabra Sprouts. Front Plant Science. 2016;7:1497.
[16] Zheng XL, Liu SC, Cheng CZ, Guo RF, Chen YK, Xie LY, Mao YY, Lin YL, Zhang ZH, Lai ZX. Cloning and expression analysis of betalain biosynthesis genes in Amaranthus tricolor. Biotechnol Lett. 2016;38(4):723-729.
[17] Guo RF, Chen XD, Lin YL, Xu H, Thu MK, Lai ZX. Identification of Novel and Conserved miRNAs in Leaves of In vitro Grown Citrus reticulata “Lugan” Plantlets by Solexa Sequencing.Frontiers in Plant Science,2016,61212.
[18] Zhao YT, Wang JS, Liu YY, Miao HY, Cai CX, Shao ZY, Guo RF, Sun B, Jia CG, Zhang LP, Gigolashvili T, Wang QM. Classic myrosinase-dependent degradation of indole glucosinolate attenuates fumonisin B1-induced programmed cell death in Arabidopsis.The Plant journal, 2015, 81(6): 920-33.
[19] Guo RF, Hou QM, Yuan GF, Zhao YT, Wang QM. Effect of 2,4-epibrassinolide on main health-promoting compounds in broccoli sprouts.LWT-Food Science and Technology,2014,58(1):287-292.
[20] Liu LH, Jia CG, Zhang M, Chen DL, Chen SX, Guo RF, Guo DP, Wang QM. Ectopic expression of a BZR1-1D transcription factor in brassinosteroid signalling enhances carotenoid accumulation and fruit quality attributes in tomato.Plant biotechnology journal,2014,12(1):105-15.
[21] Guo RF, Shen WS, Qian HM, Zhang M, Liu LH, Wang QM. Jasmonic acid and glucose synergistically modulate the accumulation of glucosinolates in Arabidopsis thaliana.Journal of experimental botany,2013,64(18):5707-19.
[22] Guo RF, Qian HM, Shen WS, Liu LH, Zhang M, Cai CX, Zhao YT, Qiao JJ, Wang QM. BZR1 and BES1 participate in regulation of glucosinolate biosynthesis by brassinosteroids in Arabidopsis.[J].Journal of experimental botany,2013,64(8):2401-12.
[23] Guo RF, Yuan GF, Wang QM. Effect of NaCl treatments on glucosinolate metabolism in broccoli sprouts.[J].Journal of Zhejiang University. Science. B,2013,14(2):124-31.
[24] Guo RF, Yuan GF, Wang QM. Sucrose enhances the accumulation of anthocyanins and glucosinolates in broccoli sprouts[J].Food Chemistry,2011,129(3):1080-1087.
[25] Guo RF, Yuan GF, Wang QM. Effect of sucrose and mannitol on the accumulation of health-promoting compounds and the activity of metabolic enzymes in broccoli sprouts[J].Scientia Horticulturae,2011,128(3):159-165.
[26] Yuan GF, Wang XP, Guo RF, Wang QM. Effect of salt stress on phenolic compounds, glucosinolates, myrosinase and antioxidant activity in radish sprouts. Food Chemistry,2010,121(4):1014-1019.
[27] Xu CJ, Guo RF, Yan HZ, Yuan J, Sun B, Yuan GF, Wang QM. Effect of nitrogen fertilization on ascorbic acid, glucoraphanin content and quinone reductase activity in broccoli floret and stem. Journal of Food Agriculture & Environment 2010(8): 179-184.
[28] 曾家晶,赵怡娇,曾东琳,唐为玲,李尊文,Wang-PruskiG,赖钟雄,郭容芳.芥蓝TCP家族全基因组鉴定及表达分析[J].中国农业大学学报,2022,27(08):76-92.
[29] 陈家璇,陈泽源,赵怡娇,Wang-PruskiG,郭容芳.芥蓝MAM基因家族成员鉴定、分析及表达[J].应用与环境生物学报,2022,28(02):491-497.
[30] 曾东琳,唐为玲,曾家晶,Wang-PruskiG,赖钟雄,郭容芳.芥蓝SPL基因家族鉴定及表达分析[J].西北植物学报,2022,42(03):361-370.
[31] 刘涛,陈家璇,Wang-PruskiG,郭容芳.基于转录组的芥蓝NAC家族成员鉴定与分析[J].分子植物育种,2022,20(22):7332-7341.
[32] 郭容芳,陈晓东.基于生产实践现状和科学研究前沿的案例教学法在农林类研究生培养过程中的应用[J].园艺与种苗,2021,41(02):87-91.
[33] 赵怡娇,唐为玲,李尊文,赖钟雄,郭容芳.芥蓝AOP基因家族生物信息学分析[J].应用与环境生物学报,2021,27(06):1653-1661.
[34] 陈冰星,陈泽源,赵怡娇,唐为玲,Wang-PruskiG,郭容芳.芥蓝miR156a家族进化特性及表达分析[J].西北植物学报,2020,40(08):1313-1322.
[35] 徐涵,郭容芳,张玉苗,李蓉,肖学宸,曹子谊,王姗姗,张可轩,陈晓慧,陈晓东,陈裕坤,叶炜,叶开温,林玉玲,赖钟雄.植物耐盐性:演化和盐基因组学[J].热带作物学报,2020,41(10):1979-1989.
[36] 陈冰星,王晓倩,刘涛,王苏苏,Wang-PruskiG,赖钟雄,郭容芳.不同光质光周期对樱桃萝卜生长发育及营养品质的影响[J].西北植物学报,2020,40(01):77-86.
[37] 郭容芳.网络考试在教学改革中的应用及思考[J].园艺与种苗,2019,(07):60-62.
[38] 王杏茹,李文静,陈冰星,刘涛,尚维,赖钟雄,郭容芳.蕹菜耐受长时间高温后的miRNA分析[J].园艺学报,2019,46(03):486-498.
[39] 李蓉,吴晓佩,王雪晶,陈裕坤,郭容芳,林玉玲,赖钟雄,徐涵.文心兰RFNR的克隆、亚细胞定位及其与LFNR不同的胁迫响应机制研究[J].园艺学报,2018,45(11):2164-2176.
[40] 李文静,王杏茹,刘涛,陈冰星,赖钟雄,郭容芳.芥蓝miR172家族成员进化特性比较及时空表达分析[J].西北植物学报,2018,38(08):1443-1450.
[41] 李蓉,谢析颖,王雪晶,苏立遥,林玉玲,郭容芳,陈裕坤,赖钟雄,徐涵.兰科植物FNR基因的密码子偏好性分析[J].热带作物学报,2018,39(06):1137-1145.
[42] 邱栋梁,马翠兰,刘爽,郭容芳,张志忠,申宝营,何碧珠.来华留学生课程教学质量体系建设与探索——以《园艺产品质量学》为例[J].福建教育学院学报,2018,19(04):92-94.
[43] 郭容芳,黄忠凯,邓延平,赖钟雄.不同品种花椰菜的芽菜营养品质分析[J].福建农业学报,2017,32(06):607-612.
[44] 谢析颖,李蓉,林玉玲,郭容芳,陈裕坤,赖钟雄,徐涵.霍山石斛转录因子MYB1R1密码子选用偏好性分析[J].分子植物育种,2017,15(05):1683-1690.
[45] 李莹,陈冰星,郭容芳.无土栽培番茄果实中亚硝酸盐积累的规律[J].园艺与种苗,2017,(04):3-5.
[46] 黄静雯,郭容芳.浅谈家庭蔬菜创新栽培[J].现代园艺,2016,(23):60-61.
[47] 郭容芳,邓延平,黄忠凯,赖钟雄.不同颜色花椰菜的芽菜生物活性物质及其抗氧化能力分析[J].福建农业学报,2016,31(11):1175-1180.
[48] 郭容芳,赖钟雄.新型网络资源在蔬菜栽培学教学中的应用[J].园艺与种苗,2016,(07):33-35.
[49] 徐小萍,谢燕萍,慕尧,钟春水,陈芳兰,张梓浩,陈裕坤,郭容芳,林玉玲,赖钟雄.HPLC法测定LED不同光质下迷迭香愈伤组织中鼠尾草酸含量[J].广东农业科学,2015,42(15):77-81+2.
[50] 苗慧莹,郭容芳,赵彦婷,汪俏梅.芥子油苷代谢调控和葡萄糖信号转导研究进展[J].食品安全质量检测学报,2012,3(05):367-372.
[51] 孙勃,许映君,袁高峰,郭容芳,魏佳,李振,刘娜,汪俏梅.花椰菜主要生物活性物质及其抗氧化能力分析[J].核农学报,2010,24(02):330-335.
[52] 孙勃,许映君,徐铁锋,袁高峰,郭容芳,汪炳良,汪俏梅.青花菜不同器官生物活性物质和营养成分的研究[J].园艺学报,2010,37(01):59-64.