方长旬 研究员菌草与生态学院（碳中和学院）

1. 水稻化感抑草的分子生态学机制

2. 水稻防御UV-B辐射的生理与分子生态学机制

3. 功能基因调控水稻提高耐寒的生理与分子生态学机制

本科生课程：《植物生理学》, 《植物生理学》（双语课）(主讲)；《植物生理生化实验》(主讲)

研究生课程：《植物生态学》、《高级植物生理学》(共同承担)；《现代生态学研究方法与技术》 (参与)

1.国家自然科学基金面上项目(32471589). 2025.01-2028.12. 主持

2.福建省自然科学基金面上项目(2024J01368). 2024.11-2027.11. 主持

3.化感水稻灵敏性抑制靶标稗草的分子调控机制研究(31871556). 国家自然科学基金面上项目. 2019.01-2022.12. 主持

4.不同化感潜力水稻对稗草分泌物DIMBOA的耐受性差异及其分子机制研究(2020J01547). 福建省自然科学基金面上项目. 2020.11-2023.11, 主持

5.UV-B辐射下水稻开启解聚环丁烷嘧啶二聚体(CPD)的过程与机制研究. 福建农林大学杰出青年科研人才计划. 2019.01-2021.12. 主持

6.福建农林大学生命科学学院“一流学科建设高层次拔尖人才培养计划”(第三层次). 2017.01-2019.12

7.丝氨酸羧甲基转移酶(SHMT)对水稻抗寒的调控作用研究(GBMUC-2018-001).福建农林大学作物遗传育种与综合利用教育部重点实验室开放研究基金. 2018.06-2019.05. 主持

8.硅调控特定基因提高水稻修复UV-B伤害的分子机制研究(31300336). 国家自然科学基金青年项目.  2014.01-2016.12. 主持

9.不同硅含量水稻对 UV-B 损伤的修复能力差异及其分子机制研究(2015J01079). 福建省自然科学基金项目. 2015.04-2018.04. 主持

第一作者/共同第一作者论文：

[1]Fang CX, Yang LK, Chen WX, Li LL, Zhang PL, Li YZ, He HB, Lin WX*. MYB57 transcriptionally regulates MAPK11 to interact with PAL2;3 and modulate rice allelopathy. Journal of Experimental Botany, 2020, 71(6):2127-2141.

[2]Fang CX, Zhang PL, Li LL, Yang LK, Mu D, Yan X, Li Z, Lin WX*. Serine hydroxymethyltransferase localized in the endoplasmic reticulum plays a role in scavenging H₂O₂ to enhance rice chilling tolerance. BMC Plant Biology, 2020, 20: 236.

[3]Fang CX, Li LL, Zhang PL, Wang DH, Yang LK, Reza BM, Lin WX*. Lsi1 modulates the antioxidant capacity of rice and protects against ultraviolet-B radiation. Plant Science, 2019, 278:96-106.

[4]Fang CX, Zhang PL, Jian X, Chen WS, Lin HM, Li YZ, Lin WX*. Overexpression of Lsi1 in cold-sensitive rice mediates transcriptional regulatory networks and enhances resistance to chilling stress. Plant Science, 2017, 262:115-126.

[5]Fang CX, Chen WX, Li CX, Jian X, Li YZ, Lin HM, Lin WX*. Methyl-CpG binding domain protein acts to regulate the repair ofcyclobutane  pyrimidine dimers on rice DNA. Scientific Reports, 2016, 6:34569.

[6]Fang CX, Yu Y, Chen WS, Jian X, Wang QS, Zheng HP, Lin WX*.Role of allene oxide cyclase in the regulation of rice phenolic acids synthesis and allelopathic inhibition on barnyardgrass. Plant Growth Regulation, 2016, 79(3):265–273

[7]Fang CX, Li YZ, Li CX, Li BL, Ren YJ, Zheng HP, Zeng XM, Shen LH, Lin WX*.Identification and comparative analysis of microRNAs in barnyardgrass (Echinochloa crus-galli) in response to rice allelopathy. Plant, Cell & Environment, 2015, 38(7):1368–1381.

[8]Fang CX, Xu TC, Ye CL, Huang LK, Wang QS, Lin WX*. Method for RNA extraction and cDNA library construction from microbes in crop rhizosphere soil. World Journal of Microbiology and Biotechnology, 2014,30(2):783-789.

[9]Fang CX, Zhuang YE, Xu TC, Li YZ, Li Y, Lin WX*. Changes in rice allelopathy and rhizosphere microflora by inhibiting rice phenylalanine ammonia-lyase gene expression. Journal of Chemical Ecology, 2013, 39(2):204-212.

[10]Fang CX, Wang QS, Yu Y, Li QM, Zhang HL, Wu XC, Chen T, Lin WX*. Suppression and overexpression of Lsi1 induce differential gene expression in rice under ultraviolet radiation. Plant Growth Regulation, 2011, 65(1):1-10.

[11]Fang CX, He HB, Wang QS, Qiu L, Wang HB, Zhuang YE, Xiong J, Lin WX*. Genomic analysis of allelopathic response to low nitrogen and barnyardgrass competition in rice (Oryza sativa L.). Plant Growth Regulation, 2010, 61(3):277-286.

[12]Fang CX, Wu XC, Zhang HL, Xiong J, Wu WX, Lin WX*.UV-induced differential gene expression  in rice cultivars analyzed by SSH. Plant Growth Regulation, 2009, 59(3):245-253.

[13]Fang CX, Xiong J, Qiu L, Wang HB, Song BQ, He HB, Lin RY, Lin WX*. Analysis of gene expressions associated with increased allelopathy in rice induced by exogenous salicylic acid. Plant Growth Regulation, 2009, 57(2):163-172.

[14]Wu XC, Fang CX(co-fist author), Chen JY, Wang QS, Chen T, Lin WX*, Huang ZL. A Proteomic analysis of leaf responses to enhanced ultraviolet-B radiation in two rice (Oryza sativa L.) cultivars differing in UV sensitivity. Journal of Plant Biology, 2011, 54(4):251-261.

[15]方长旬, 王清水, 余彦, 黄力坤, 吴杏春, 林文雄*.硅及其吸收基因(Lsi1)调节水稻耐UV-B辐射的作用.作物学报, 2011,37(6):1005-1011.

[16]方长旬, 王清水, 余彦, 罗美蓉, 黄力坤, 熊君, 沈荔花, 林文雄*. 不同胁迫条件下化感与非化感水稻PAL多基因家族的差异表达.生态学报, 2011, 31(16): 4760-4767.

[17]方长旬, 许铁城, 黄力坤, 王清水, 何海斌, 林文雄*.水稻品种“Lemont”响应低氮培养及共培稗草的上调表达基因分析.中国生态农业学报, 2012, 20(9):1185−1190.

通讯作者/共同通讯作者论文：

[1]     Zhang HB, Mu D, Li YS. Li XL , Yan X, Li K, Jiao YY, Li JY, Lin HM, Lin WX, Fang CX*. Glutathione S-transferase activity facilitates rice tolerance to the barnyard grass root exudate DIMBOA. BMC Plant Biology, 2024, 24: 117.

[2]     Boorboori MR*, Lin WX, Fang CX*. Comparison of Japonica and Indica Rice (Wild type and Lsi1 transgenic) in the use of silicon in reducing arsenic toxicity. Silicon, 2023, 15:6199-6214.

[3]      Liu YZ, Liu Y, Zeng CL,Wang JY, Nyimbo WJ, Jiao YY, Wu LK*, Chen T, Fang CX*, LinWX*. Intercropping with Achyranthes bidentata alleviates Rehmannia glutinosa consecutive monoculture problem by reestablishing rhizosphere microenvironment. Frontiers in Plant Science, 2022, 13:1041561.

[4]      Li JY, Lin SX, Ma HY, Wang YP, He HB*, Fang CX*. Spatial-temporal distribution of allelopathic rice roots in paddy soil and its impact on weed-suppressive activity at the seedling stages. Frontiers in Plant Science, 2022, 13:940218.

[5]     Li Z, Muhammad UK, Yan X, Mu D, Xie YB, Muhammad W, Wu X, Letuma P, Fang CX*, Lin WX*. Deciphering the molecular mechanisms of chilling tolerance in Lsi1-overexpressing rice. International Journal of Molecular Sciences, 2022, 23, 4667. 

[6]     杨陆可, 王浩, 高钰杰, 严雪, 母丹, 林文雄*，方长旬*.水稻OsMYB57基因表达的调控与其化感抑草作用. 中国生态农业学报(中英文), 2022, 30(2): 236-247.

[7]     Lin ZM, Muhammad UK, Fang CX*, Lin WX*. Crop allelopathy types: Current research status and prospects in China. Chinese Journal of Eco-Agriculture, 2022, 30(3): 343−355

[8]     Boorboori MR, Li Z, Yan X, Dan M, Zhang Z, Lin W, Fang CX*. Comparison of silicon-evoked responses on arsenic stress between different Dular rice genotypes. Plants, 2021, 10:2210.

[9]     Boorboori MR, Lin WX, Jiao YY, Fang CX*. Silicon modulates molecular and physiological activities in Lsi1 transgenic and wild rice seedlings under arsenic stress. Agronomy, 2021, 11: 1532.

[10]   Boorboori MR, Gao YJ, Wang H, Fang CX*. Usage of Si, P, Se, and Ca Decrease Arsenic Concentration/Toxicity in Rice, a Review. Applied Sciences, 2021, 11(17): 8090.

[11]   李兰兰，母丹，严雪，杨陆可，林文雄*，方长旬*.OsPAL2;3对水稻化感抑制稗草能力的调控作用. 作物学报，2021, 47(2):197-209.

[12]   Boorboori MR, Lin WX*, Fang CX*. The effects of arsenic and silicon on the oxidative and non-oxidative enzymes in the seedlings of three different rice (Oryza sativa L.) varieties in different growth periods. Applied Ecology and Environmental Research, 2020, 18(4):5263-5278.

[13]   Boorboori MR, Lin WX*, Zhang WS, Fang CX*. The role of silicon to increase arsenic tolerance in rice (oryza sativa L.) seedlings by reinforcing anti-oxidative defense. Biagro, 2020,32(3): 159-168

[14]   Zhang Q, Zheng XY, Lin SX, Gu CZ, Li L, Li JY, Fang CX*, He HB*. Transcriptome analysis reveals that barnyard grass exudates increase the allelopathic potential of allelopathic and non-allelopathic rice (Oryza sativa) accessions. Rice, 2019, 12: 30.

[15]   Lin HM, He JY, Lin WW, Li YZ, Fang CX*, Lin WX*. Lsi1-regulated Cd uptake and phytohormones accumulation in rice seedlings in presence of Si. Plant Growth Regulation, 2018, 86(2):149-157.

科技成果

1. 林文雄，林生，吴林坤，张志兴，方长旬，陈婷，张重义，林伟伟，黄冬寿，彭来真.太子参连作介导土壤环境灾变机理与消减关键技术.2019年福建省科技进步奖一等奖
   

2. 林文雄,陈鸿飞,张志兴,黄锦文,李经勇,方长旬,徐倩华,屠乃美,陈婷,任万军,刘正忠,唐永群.再生稻高产高效清洁生产关键技术与应用,2017年教育部高等学校科学研究优秀成果奖科技进步奖二等奖

3. 林文雄,林瑞余,张志兴,方长旬,唐莉娜,陈婷,沈荔花,熊君,何海斌,何华勤.水稻高产优质安全栽培的分子机理与关键技术，2012年福建省科技进步奖一等奖

4. 林文雄, 魏道智, 吴则焰, 孙小霞, 吴杏春, 熊君, 方长旬, 张志兴, 陈婷, 何海斌, 林瑞余, 张重义, 林向民, 陈冬梅. 强化“四位一体”和教研相长理念培养生态学创新型人才, 2014年福建省高等教育优秀成果特等奖.

授权国家发明专利

1. 方长旬，杨陆可，李兰兰，张鹏丽，林文雄. 一种有效垂钓水稻启动子DNA结合蛋白的方法. ZL 201811420354.6

2. 方长旬，林文雄，李颖哲，李程勋. 一种利用稻秆粉加粘细菌抑制稻田杂草生长的方法. ZL 201510123478.8

3. 方长旬，林文雄，李程勋，李颖哲，林威鹏.  一种水培液中微生物基因组DNA的提取方法.  ZL 201410270513.4

4. 方长旬，林文雄，黄力坤，许铁城，林瑞余.  一种土壤cDNA文库的构建方法.  ZL201110277886.0

5. 方长旬，林文雄，王清水，余彦，黄力坤，林瑞余.  一种土壤微生物基因组DNA和总RNA的提取方法.  ZL201010548527.X

6. 王海斌，方长旬，陈荣山，叶陈英，林志华，何海斌，林文雄.  一种快速、高效提取水稻组织总RNA的方法.  ZL200910310602.6