1.       Yu F#, Shi J#, Zhou JY#, Gu JL, Chen QH, Li J, Cheng W, Mao DD, Tian LF, Buchanan B*, Li LG, Chen LB, Li DP*, Luan S* (2010) ANK6, a Mitochondrial Ankyrin Repeat Protein, is Required for Male-female Gamete Recognition in Arabidopsis thaliana. Proceedings of the National Academy of Sciences of the United States of America 107: 22332–22337.

2.       Yu F, Qian LC, Nibau C, Duan QH, Kita D, Levasseur K, Li X, Lu CQ, Li H, Hou CC, Li LG, Buchanan BB*, Chen LB*, Cheung A, Li DP*, Luan S* (2012) FERONIA Receptor Kinase Pathway Suppresses Abscisic Acid Signaling in Arabidopsis by Activating ABI2 Phosphatase. Proceedings of the National Academy of Sciences of the United States of America 109: 14693-14698. 

3.       Yu F, Li J, Huang Y, Liu L, Li DP*, Chen LB*, Luan S* (2014a) FERONIA Receptor Kinase Controls Seed Size in Arabidopsis thaliana. Molecular Plant 7:920-922. 

4.       Yu F#, Tian W#, Luan S* (2014b) From Receptor-Like Kinases to Calcium Spikes: What Are the Missing Links?Molecular Plant 7:1501-1504.

5.       Yu DS#, Yu F#, Du CQ, Li XS, Zhao XY*, Liu XM* (2015) RPN1a, a Subunit of the 26S Proteasome, Controls Trichome Development in Arabidopsis. Plant Physiology and Biochemistry 88:82-88.

6.       Mao DD#, Yu F*#, Li J, Van de Poel B, Tan D, Li JL, Liu Y, Li XS, Dong MQ, Chen LB, Li DP, Luan S* (2015) FERONIA Receptor Kinase Interacts with S-adenosylmethionine Synthetase and Suppresses S-adenosylmethionine Production and Ethylene Biosynthesis in Arabidopsis. Plant, Cell & Environment 38:2566-2574. 

7.       Yang T#, Wang L#, Li CY, Liu Y, Zhu SR, Qi YY, Liu XM, Lin QL*, Luan S, Yu F* (2015) Receptor Protein Kinase FERONIA Controls Leaf Starch Accumulation by Interacting with Glyceraldehyde-3-Phosphate Dehydrogenase. Biochemical and Biophysical Research Communications 465:77-82.

8.       Chen J#, Yu F*#, Liu Y, Du CQ, Li XS, Zhu SR, Wang XC, Lan WZ, Rodriguez PL, Liu XM, Li DP, Chen LB, Luan S* (2016) FERONIA Interacts with ABI2-type Phosphatases to Facilitate Signaling Cross-talk Between Abscisic Acid and RALF Peptide in Arabidopsis. Proceedings of the National Academy of Sciences of the United States of America113:E5519-E5527. 

9.       Yu DS#, Li XS#, Zhao XY#, Du CQ, Chen J, Li CY, Sun MS, Wang L, Lin JZ, Tang DY, Yu F*, Liu XM* (2016) RPN1a Negatively Regulates ABA Signaling in Arabidopsis. Plant Physiology and Biochemistry 108:279-285.

10.    Yu F, Luan S* (2016) Peptide Signaling in Plants: Finding Partners is the Key.Cell Research 26:755-756.

11.    Du CQ#, Li XS#, Chen J#, Chen W, Li B, Li CY, Wang L, Li JL, Zhao XY, Lin JZ, Liu XM*, Luan S*, Yu F* (2016) Receptor Kinase Complex Transmits RALF Peptide Signal to Inhibit Root Growth in Arabidopsis. Proceedings of the National Academy of Sciences of the United States of America 113:E8326-E8334. 

12.    Li CY#, Wang L#, Cui YC, He LM, Qi YY, Zhang JX, Lin JZ, Liao HD, Lin QL, Yang T, Yu F*, Liu XM* (2016) Two FERONIA Like Receptor Genes (FLR) are Required to Maintain Architecture, Fertility and Seed Yield in Rice. Molecular Breeding 36: 151-162.

13.    Yu F (2017) Molecular Mechanism of Cross-talk Between Abscisic Acid and RALF Peptide in Arabidopsis. Science Foundation in China 4:50-50.

14.    Liao HD, Zhang X, Tang RJ, Luan S*, Yu F* (2017) FERONIA Receptor Kinase at the Crossroad of Hormone Signaling and Stress Responses. Plant and Cell Physiology 58: 1143-1150.

15.    Lu CQ#, Yu F#, Tian LF#, Huang XY, Tan H, Xie ZJ, Hao XH, Li DP*, Luan S*, Chen LB* (2017) RPS9M, a Mitochondrial Ribosomal Protein, Is Essential for Central Cell Maturation and Endosperm Development in Arabidopsis. Frontiers in Plant Science 8:2171.

16.    Li CY#, Liu XM#, Qiang XN, Li XY, Li XS, Zhu SR, Wang L, Wang Y, Liao HD, Luan S, Yu F* (2018) EBP1 Nuclear Accumulation Negatively Feeds Back on FERONIA-Mediated RALF1 Signaling. PLOS Biology 16: e2006340.  Weekly cover story

Highlighted by Stegmann M (2018) EBP1: A crucial growth regulator downstream of receptor kinases across kingdoms. PLOS Biology 16: e3000056.

17.    于峰（2019）受体激酶——植物环境适应性的调节枢纽。生物技术通报 35:1.

18.    强晓楠，李鑫，陈佳，廖红东，于峰* （2019）拟南芥RALF多肽家族的功能多样性初步分析。生物技术通报 35:2-10. （封面论文）

19.    Xu GY#, Chen W#, Song L, Chen Q, Zhang H, Liao H, Zhao G, Lin F, Zhou H*, Yu F*. (2019) FERONIA phosphorylates E3 ubiquitin ligase ATL6 to modulate the stability of 14-3-3 proteins in response to the carbon/nitrogen ratio. Journal of Experimental Botany 70:6375-6388.

20.    Yang ZH#, Xing JJ#*, Wang  L#, Liu Y, Qu JN, Tan Y, Fu XQ, Lin QL, Deng HF*, Yu F*. (2020) Mutations of Two FERONIA-like Receptor Genes Enhance Rice Blast Resistance without Growth Penalty. Journal of Experimental Botany. 6:2112-2126.

21.    Wang L#, Yang T#, Lin QL*, Wang BQ, Li X, Luan S, Yu F*. (2020) Receptor Kinase FERONIA Regulates Flowering Time in Arabidopsis. BMC Plant Biology. 20:26.

22.    Zhu SR#, Estevez JM#, Liao HD, Zhu YH, Yang T, Li CY, Wang YC, Li L, Liu XM, Pacheco M, Guo HW, Yu F*. (2020) The RALF1–FERONIA Complex Phosphorylates eIF4E1 to Promote Protein Synthesis and Polar Root Hair Growth. Molecular Plant. 13:698-716.Cover Story，Molecular Plant Best of 2020

Highlighted by Marjorie Guichard (2020) On-site Manufacturing in Tip-growing Cells Through RALF1-FERONIA-Mediated Local mRNA Translation. Molecular Plant. 13:682-684.

23. Zhu SR#, Pacheco M#, Estevez JM*, Yu F*. (2020) Autocrine Regulation of Root Hair Size by the RALF-FERONIA-RSL4 Signaling Pathway. New Phytologist. 227:45-49.

24.  Chen J, Zhu SR, Ming ZH, Liu XM*, Yu F* (2020) FERONIA Cytoplasmic Domain: Node of Varied Signal Outputs. aBIOTECH. 1:135-146.

25. Wang L#, Yang T#, Wang BQ, Lin QL*, Zhu SR, Li CY, Ma YC, Tang J, Xing JJ, Li XS, Liao HD, Staiger D, Hu ZQ, Yu F* (2020) RALF1-FERONIA Complex Affects Splicing Dynamics to Modulate Stress Responses and Growth in Plants. Science Advances. 6.eaaz1622.

26. Yu M, Li RL, Cui YN, Chen WJ, Li B, Zhang X, Bu YF, Cao YY, Xing JJ, JEWARIA, PK Li XJ, Bhalerao R, Yu F*, Lin JX* (2020) The RALF1-FERONIA Interaction Modulates Endocytosis to Mediate Control of Root Growth in Arabidopsis. Development.147:dev189902.

27. Zhang X#, Yang ZH#, Wu DS, Yu F* (2020) RALF-FERONIA Signaling: Linking Plant Immune Response with Cell Growth. Plant Communications. 1:100084.

28. Wang L#, Wang D#, Yang Z#, Jiang S, Qu J, He W, Liu Z, Xing J, Ma Y, Lin Q*, Yu F* (2020)  The Role of FERONIA-Like Receptor Genes in Regulating Grain Size and Quality in Rice. Science China Life Science. In Press.

29. Chen H#, Kong YQ#, Chen J, Li L, Li XS, Yu F*, Ming ZH* (2020) Crystal Structure of the Extracellular Domain of the Receptor-Like Kinase TMK3 from Arabidopsis thaliana. Acta Cryst. F 76, 384–390.

30. Zhang X#, Peng H#, Zhu SR#, Xing JJ, Li X, Zhu ZZ, Zheng JY, Wang L, Wang BQ, Chen J, Ming ZH, Luan S, Coleman-Derr D, Peng YS*, Liao HD*, Peng DL, Yu F* (2020) Nematode-encoded RALF Peptide Mimics Facilitate Parasitism through the FERONIA Receptor Kinase in Plant. Molecular Plant. 13:1434-1454.

     Highlighted by Chun-Lin Shi (2020) Hijacking Plant Receptor by Nematode-Derived Peptide Mimics. Molecular Plant. 13:1351.

  Faculty Opinions/F1000 recommended https://facultyopinions.com/prime/738635379?subscriptioncode=439d3e2b-7360-48a1-b2cd-3604c054c963&utm_medium=email&utm_source=prime_ypp

31. Li L#, Li B#, Zhu SR, Wang L, Song LM, Chen Jia, Ming ZH, Liu XM*, Li XS*, Yu F* (2021) TMK4 receptor kinase negatively modulates ABA signaling by phosphorylating ABI2 and enhancing its activity. JIPB. 63:1161-1178.

32.  Zhu SR, Fu Q, Xu F, Zhen HP, Yu F* (2021) New paradigms in cell adaptation: Decades of discoveries on the CrRLK1L receptor kinase signalling network. New Phytologist. 232:1168-1183.

33. Wu DS#, Wang LF#, Zhang Y, Bai LY*, Yu F*(2021) Emerging roles of pathogen-secreted host mimics in plant disease development. Trends in Parasitology. 37:1082-1095

34. He W#, Wang L#, Lin QL*, Yu F* (2021) Rice seed storage proteins: Biosynthetic pathways and the effects of environmental factors. JIPB. 63:1999-2019

35. Chen WJ, Zhou HN et al. Yu F*, Zhu SR* (2021) CAR modulates plasma membrane nano-organization and immune signaling downstream of RALF1-FERONIA ligand-receptor signaling system.  bioRxiv: https://biorxiv.org/cgi/content/short/2021.10.13.464316v1

36. Tang J#, Wu DS#, Li XX, Wang LF, Xu L, Zhang Y, Xu F, Liu HB, Xie QJ, Dai SJ, Coleman-Derry Devin Zhu SR, Yu F* (2022) Plant immunity suppression via PHR1-RALF-FERONIA shapes the root microbiome to alleviate phosphate starvation. EMBO J.41:e 109102.

   FacultyOpinions/F1000 recommended   https://facultyopinions.com/prime/741682231

37. Javier MP#, Song LM#, Gabarain VB, Peralta JM, Lehuede TU, Ibeas MA, Zhu SR, Shen YN, Yu F*, Estevez JM* (2022) Cell surface receptor kinase FERONIA linked to nutrient sensor TORC1 signaling controls root hair growth at low temperature in Arabidopsis thaliana. BioRxiv https://www.biorxiv.org/content/10.1101/2022.01.10.475584v1

38. Liu ZM, Jiang S, Jiang LL, Li WJ, Tang YQ, He W, Wang ML, Xing JJ, Cui YC, Lin QL*, Yu F*, Wang L* (2022) Transcription factor OsSGL is a regulator of starch synthesis and grain quality in rice. Journal of Experimental Botany. erac068

39.  Chen WJ#, Hu ZT#, Yu MT, Zhu SR, Xing JJ, Song LM, Pu WX*, Yu F* (2022) A molecular link between autophagy and circadian rhythm in plants. JIPB. In Press

40. Song LM#, Xu GY#, Li TT#, Zhou HN, Lin QL, Chen J, Wang L, Wu DS, Li XX, Wang LF, Zhu SR*, Yu F* (2022) The RALF1-FERONIA complex interacts with and activates TOR signaling in response to low nutrients. Molecular Plant. In Press.

41. Kong YQ#, Chen J#, Chen H, Shen YN, Wang LF, Yan YJ, Zhou H, Zheng HP, Yu F*, Ming ZH* (2022) The structural and biochemical basis for FER receptor kinase early signaling initiation in Arabidopsis. BioRxiv https://www.biorxiv.org/content/10.1101/2022.03.30.486374v1