代表性论文：

Zhang Z, Liu C, Li K, Li X, Xu M, and Guo Y* (2021) CLE14 functions as a “brake signal” suppressing age-dependent and stress-induced leaf senescence through promoting JUB1-mediated ROS scavenge in Arabidopsis. Molecular Plant  doi: https://doi.org/10.1016/j.molp.2021.09.006.

Guo Y*, Hiatt E, Bonnet C, Kudithipudi D, Lewis RS, Shi H, Patra B, Zhao X, Dorlhac de Borne F, Gilles T, Yang S, Zhang H, Zhang M, Lusso M, Berger IJ, Xu D, Wen L (2021) Molecular regulation and genetic manipulation of alkaloid accumulation in tobacco plants. Studies in Natural Products Chemistry (Atta ur, Rahman edited), Elsevier Vol. 70:119-149.

Guo Y#, Ren G#, Zhang K#, Li Z#, Miao Y*, Guo H* (2021) Leaf senescence: progression, regulation, and application. Molecular Horticulture 1:5.

Wang Q#, Guo C#, Li Z, Sun J, Wang D, Xu L, Li X*, Guo Y* (2021) Identification and analysis of bZIP family genes in potato and their potential roles in stress responses. Frontiers in Plant Science 12:637343.

Li L#, Li K#, Ali A, Guo Y* (2021) AtWAKL10, a cell wall associated receptor-like kinase, negatively regulates leaf senescence in Arabidopsis thaliana. International Journal of Molecular Sciences 22(9): 4885.

Li W, Wen L, Chen Z, Zhang Z, Pang X, Deng Z, Liu T, Guo Y* (2021) Study on metabolic variation in whole grains of four proso millet varieties reveals metabolites important for antioxidant properties and quality traits. Food Chemistry 357: 129791.

Guo C#, Wang Q#, Li Z, Sun J, Zhang Z, Li X*, Guo Y* (2021) Bioinformatics and expression analysis of IDA-Like genes reveal their potential functions in flower abscission and stress response in tobacco (Nicotiana tabacum L.). Frontiers in Genetics 12: 670794.

Wang Q#, Guo C#, Li Z, Sun J, Deng Z, Wen L, Li X*, Guo Y* (2021) Potato NAC transcription factor StNAC053 enhances salt and drought tolerance in transgenic Arabidopsis. International Journal of Molecular Sciences 22(5): 2568.

Zhang Z, Xu M and Guo Y* (2020) Ring/U-Box protein AtUSR1 functions in promoting leaf senescence through JA signaling pathway in Arabidopsis. Frontiers in Plant Science 11: 608589.

Zhang Z, Liu C and Guo Y* (2020) Wheat transcription factor TaSNAC11-4B positively regulates leaf senescence through promoting ROS production in transgenic Arabidopsis. International Journal of Molecular Sciences 21(20): 7672.

Zhang Z, Li W, Gao X, Xu M and Guo Y* (2020) DEAR4, a member of DREB/CBF family, positively regulates leaf senescence and response to multiple stressors in Arabidopsis thaliana. Frontiers in Plant Science 11: 367.

Gao X#, Wu X#, Liu G, Zhang Z, Chao J, Li Z, Guo Y* and Sun Y* (2019) Characterization and mapping of a novel premature leaf senescence mutant in common tobacco (Nicotiana tabacum L.). Plants 8(10): 415.

Ahmad S and  Guo Y* (2019) Signal transduction in leaf senescence: progress and perspective. Plants 8(10): 405.

Cao S, Zhang Z, Wang C, Li X, Guo C, Yang L and Guo Y* (2019) Identification of a novel melon transcription factor CmNAC60 as a potential regulator of leaf senescence. Genes 10(8): 584.

Li X#, Guo C#, Ahmad S, Wang Q, Yu J, Liu C and Guo Y* (2019) Systematic analysis of MYB family genes in potato and their multiple roles in development and stress responses. Biomolecules 9(8): 317.

Li X#, Ahmad S#, Ali A, Guo C, Li H, Yu J, Zhang Y, Gao, X, Guo Y* (2019) Characterization of Somatic Embryogenesis Receptor-Like Kinase 4 as a negative regulator of leaf senescence in Arabidopsis. Cells 8(1):50.

Li W, Li X, Chao J, Zhang Z, Wang W and Guo Y* (2018) NAC family transcription factors in tobacco and their potential role in regulating leaf senescence. Frontiers in Plant Science 9: 1900.

Li X#, Ahmad S#, Guo C, Yu J, Cao S, Gao X, Li W, Li H, Guo Y* (2018) Identification and characterization of LRR-RLK family genes in potato reveal their involvement in peptide signaling of cell fate decisions and biotic/abiotic stress responses. Cells 7(9): 120.

Li X#, Hamyat M#, Liu C, Ahmad S, Gao X, Guo C, Wang Y*, Guo Y* (2018) Identification and characterization of the WOX family genes in five Solanaceae species reveal their conserved roles in peptide signaling. Genes 9(5): 260.

Guo Y. (editor) (2018) Plant Senescence – Methods and Protocols, Humana Press, New York, NY, 367 pages.

Li W, Guo Y* (2018) RNA-Seq analysis of the transcriptome of leaf senescence in tobacco. Methods in Molecular Biology 1744: 331-337.

Zhang Z, Guo Y* (2018) Hormone treatments in studying leaf senescence. Methods in        Molecular Biology 1744: 125-132.

Ali A, Gao X, Guo Y* (2018) Initiation, progression, and genetic manipulation of leaf senescence. Methods in Molecular Biology 1744: 9-31.

Li W, Zhang H, Li X, Zhang F, Liu C, Du Y, Gao X, Zhang Z, Zhang X, Hou Z, Zhou H, Sheng X, Wang G, Guo Y* (2017) Integrative metabolomic and transcriptomic analyses unveil nutrient remobilization events in leaf senescence of tobacco. Scientific Reports 7(1): 12126.

Guo Y#, Flegel K#, Kumar J, McKay DJ, Buttitta LA* (2016) Ecdysone signaling induces two phases of cell cycle exit in Drosophila cells. Biology Open, 5(11): 1648-1661.

Guo Y and Gan S* (2014) Translational researches on leaf senescence for enhancing plant productivity and quality. Journal of Experimental Botany 65 (14): 3901-3913.

Li W and Guo Y* (2014) Transcriptome, transcription factors and transcriptional regulation of leaf senescence. Journal of Bioinformatics and Comparative Genomics, 1: 1-3.

Guo Y (2013) Towards systems biological understanding of leaf senescence. Plant Molecular Biology 82:519-528.

Gao X and Guo Y* (2012) CLE peptides in plants: proteolytic processing, structure-activity relationship, and ligand-receptor interaction. Journal of Integrative Plant Biology 54(10): 738-45.

Guo Y and Gan S* (2012) Convergence and divergence in gene expression profiles induced by leaf senescence and 27 senescence-promoting hormonal, pathological and environmental stress treatments. Plant, Cell & Environment 35(3):644-655.

Guo Y, Ni J, Denver R, Wang X and Clark SE* (2011) Mechanisms of molecular mimicry of plant CLE peptide ligands by the parasitic nematode Globodera rostochiensis. Plant Physiology 157(1):476-484.

Guo Y and Gan S* (2011) AtMYB2 regulates whole plant senescence by inhibiting cytokinin-mediated branching at late stages of development in Arabidopsis. Plant Physiology 156 (3): 1612-1619.

Ni J, Guo Y, Jin H, Hartsell J and Clark SE* (2011) Characterization of a CLE processing activity. Plant Molecular Biology 75(1-2): 67-75.

Guo Y, Han L, Hymes M, Denver RJ and Clark SE* (2010) CLAVATA2 forms a distinct CLE-binding receptor complex regulating Arabidopsis stem cell specification. Plant Journal 63(6): 889-900.

Guo Y and Clark SE* (2010) Membrane distributions of two ligand-binding receptor complexes in the CLAVATA pathway. Plant Signaling & Behavior 5(11): 1442-1445.

Zhou C, Cai Z, Guo Y and Gan S* (2009) An Arabidopsis Mitogen-Activated Protein Kinase Cascade, MKK9-MPK6, Plays a Role in Leaf Senescence. Plant Physiology 150: 167-77.

Stenvik GE, Tandstad NM, Guo Y, Shi CL, Kristiansen W, Holmgren A, Clark SE, Aalen RB and Butenko MA* (2008) The EPIP peptide of INFLORESCENCE DEFICIENT IN ABSCISSION is sufficient to induce abscission in arabidopsis through the receptor-like kinases HAESA and HAESA-LIKE2. Plant Cell 20(7): 1805-17.

Guo Y and Gan S* (2007) Genetic manipulation of leaf senescence. In “Senescence Processes in Plants” (S. Gan, ed.), Blackwell Publishing, Oxford, UK, pp. 304-322.

Guo Y and Gan S* (2006) AtNAP, a NAC family transcription factor, has an important role in leaf senescence. Plant Journal 46: 601-612.

Guo Y and Gan S* (2005) Leaf senescence: signals, execution, and regulation. Current Topics in Developmental Biology 71: 83-112.

Guo Y#, Cai Z# and Gan S* (2004) Transcriptome of Arabidopsis leaf senescence. Plant, Cell & Environment 27: 521-549.