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    姓  名: 张有君
    职  称: 研究员
    职  务: 副主任
    电话/传真: 86-10-64807633
    电子邮件: yjzhang@genetics.ac.cn
    实验室主页:
    研究方向: 植物代谢与合成生物学

    简历介绍:

    张有君,博士,研究员,博士生导师
        2002-2006年,兰州大学,本科
        2009-2011年,香港大学,硕士
        2013-2016年,马克斯普朗克植物分子生理研究所,博士
        2016-2017年,马克斯普朗克植物分子生理研究所,博士后       
        2017-2023 年,马克斯普朗克植物分子生理研究所和保加利亚植物系统和生物技术中心担任项目组长       
        2023年11月 - 今,中国科学院遗传与发育生物学研究所,研究员,种子创新全国重点实验室副主任

    研究领域:

    研究领域:植物代谢与合成生物学

        植物代谢与合成生物学研究深度融合了人工智能和合成生物学的优势,为植物科学领域提供了一套全新的研究策略。以作物种质资源为基础,通过人工智能辅助设计,计算模拟和基因工程等手段,对现有的生物系统进行改造和优化,进而实现新型化合物合成,代谢通路优化甚至重构,生物系统升级乃至创制全新的人工合成植物(https://www.youjunzhang.cn)。

        欢迎报考本课题组研究生!
        本课题组目前招收副研究员、博士后、科研助理
        具体请联系yjzhang@genetics.ac.cn

    研究方向:
        本课题组主要利用人工智能、基因工程、分子生物学并合成生物学手段,优化或者从头设计核心酶,多酶复合体,代谢通路和生物系统,从而增加代谢通路和生物系统的效率,特异性和稳定性,进一步改造植物的代谢通路和生物系统,聚焦实现植物固氮,提高碳固定效率和合成重要天然产物。

        1.酶和酶复合体设计和改造
        通过学习来自公共数据库如UniProt、PDB等的蛋白质信息,并结合深度学习技术(如Transformer、图神经网络等)等手段,对植物体内关键代谢酶及其多酶复合体进行从头设计与重构。通过AI辅助的突变位点筛选、底物通道优化和界面工程,结合高通量定向进化和酶活性筛选平台,实现酶催化效率、底物专一性及热稳定性的大幅提升,进而重编程植物的固碳、固氮、次生代谢物的代谢通路,提升天然产物产量并构建高效合成生物工厂(Ye et al. Journal of Genetics and Genomics)。

        2.植物固氮改造
        基于AI驱动的的固氮酶设计和改造,构建新型固氮系统,尝试实现真核细胞和非豆科植物固氮 (Liu et al. 2025 Trends in biotechnology, Liu et al. 2024 Trends in plant science)

        3.光合系统改造
        基于AI驱动的Rubisco改造,新型固碳酶设计和新型碳固定循环设计,构建人工多酶复合体实现底物区室化,以协同优化光合效率与关键代谢通量 (Qin et al. 2025 Journal of Integrative Plant Biology, Zhao et al. 2025 Current Opinion in Plant Biology)。


        4.次级代谢产物设计和合成
        基于AI驱动的蛋白代谢物互作,蛋白复合体鉴定,以及化合物生物逆合成,鉴定复杂天然产物合成途径。构建人工多酶复合体实现底物区室化,实现高效天然产物的合成 (Qin et al. 2025 Cell Reprots, Fernie et al. 2025 Nature Plants, Liu et al 2024 Molecualar Plant)。

    社会任职:

    获奖及荣誉:

    承担科研项目情况:

    代表论著:

    代表论著:(#Co-first author, *corresponding author)
    87. Zhao Z, Fernie A.R. & Zhang Y. (2025). Engineering Nitrogen and Carbon Fixation for Next-Generation Plants. Current Opinion in Plant Biology 85:102699.
    86. Wu S., Zhang Y., Luzarowska U., Yang L., Salem M. A., Thirumalaikumar V. P., Sade N., Galperin V. E., Fernie A., Sampathkumar A., Bershtein S., Fusari C. M. & Brotman Y. (2025). The Homeostasis of Beta-Alanine Is Key for Arabidopsis Reproductive Growth and Development. The Plant Journal 122(1): e70134.
    85. Qin K., Ye X., Luo S., Fernie A.R. & Zhang Y. (2025). Engineering Carbon Assimilation in Plants. Journal of Integrative Plant Biology 67(4): 926-948.
    84. Qin K., Liu F., Zhang C., Deng R., Fernie A.R. & Zhang Y. (2025). Systems and Synthetic Biology for Plant Natural Product Pathway Elucidation. Cell Reports 44(6): 115715.
    83. Nejamkin A., Decima Oneto C., Zhang Y., Luquet M., Galatro A., Del Castello F., Massa G.A., Feingold S., Fernie A.R., Lamattina L., Correa-Aragunde N.& Foresi N. (2025). Metabolic Profiling Reveals Increased Nitrogen Remobilization in Potato Plants That Express a Cyanobacterial No/No3-Producing Enzyme. Journal of Plant Growth Regulation
    82. Liu F., Zhao Z., Fernie A.R. & Zhang Y. (2025).Towards establishing functional nitrogenase activities within plants. Trends in Biotechnology
    81. Decros G., Zhang Y. & Fernie A.R. (2025). Mitochondrial Support of High Rates of Photosynthesis. Plant Communications 6(3): 101285.
    80. Cao Y., Chen Q., Xu X., Fernie A.R., Li J. & Zhang Y. (2025). Insights from Natural Rubber Biosynthesis Evolution for Pathway Engineering. Trends in Plant Science
    79. Zhang Y., Qin K. & Fernie A.R. (2024). Plant Tissue Culture and Metabolite Profiling for High-Value Natural Product Synthesis. Methods in Molecular Biology 2827: 405-416.
    78. Ye X., Qin K., Fernie A.R. & Zhang Y. (2024).Prospects for Synthetic Biology in 21(St) Century Agriculture. Journal of Genetics and Genomics
    77. Timm S., Klaas N., Niemann J., Jahnke K., Alseekh S., Zhang Y., Souza P. V. L., Hou L. Y., Cosse M., Selinski J., Geigenberger P., Daloso D. M., Fernie A.R. & Hagemann M. (2024). Thioredoxins O1 and H2 Jointly Adjust Mitochondrial Dihydrolipoamide Dehydrogenase-Dependent Pathways Towards Changing Environments. Plant Cell & Environment 47(7): 2542-2560.
    76. Qiu H., Zhang X., Zhang Y., Jiang X., Ren Y., Gao D., Zhu X., Usadel B., Fernie A.R. & Wen W. (2024). Depicting the Genetic and Metabolic Panorama of Chemical Diversity in the Tea Plant. Plant Biotechnology Journal 22(4): 1001-1016.
    75. Luo M., Yang W., Bai L., Zhang L., Huang J.W., Cao Y., Xie Y., Tong L., Zhang H., Yu L., Zhou L.W., Shi Y., Yu P., Wang Z., Yuan Z., Zhang P., Zhang Y., Ju F., Zhang H., Wang F., Cui Y., Zhang J., Jia G., Wan D., Ruan C., Zeng Y., Wu P., Gao Z., Zhao W., Xu Y., Yu G., Tian C., Jin L.N., Dai J., Xia B., Sun B., Chen F., Gao Y.Z, Wang H., Wang B., Zhang D., Cao X., Wang H. &Huang T. (2024). Artificial Intelligence for Life Sciences: A Comprehensive Guide and Future Trends. The Innovation Life 2(4): 100105.
    74. Liu F., Fernie A.R. & Zhang Y. (2024). Can a Nitrogen-Fixing Organelle Be Engineered within Plants? Trends in Plant Science 29(11): 1168-1171.
    73. Liu F., Fernie A.R. & Zhang Y. (2024). Plant Gene Co-Expression Defines the Biosynthetic Pathway of Neuroactive Alkaloids. Molecular Plant 17(3): 372-374.
    72. Fernie A.R., Liu F. & Zhang Y. (2024). Post-Genomic Illumination of Paclitaxel Biosynthesis. Nature Plants 10(12): 1875-1885.
    71. Dorrell R.G., Zhang Y., Liang Y., Gueguen N., Nonoyama T., Croteau D., Penot-Raquin M., Adiba S., Bailleul B., Gros V., Pierella Karlusich J.J., Zweig N., Fernie A.R., Jouhet J., Marechal E. & Bowler C. (2024). Complementary Environmental Analysis and Functional Characterization of Lower Glycolysis-Gluconeogenesis in the Diatom Plastid. The Plant Cell 36(9): 3584-3610.
    70. Zhang Y., Wiese L., Fang H., Alseekh S., de Souza L.P., Scossa F., Molloy J.J., Christmann M. & Fernie A.R. (2023). Synthetic Biology Identifies the Minimal Gene Set Required for Paclitaxel Biosynthesis in a Plant Chassis. Molecular Plant 16(12): 1951-1961.
    69. Zhang Y., Jaime S. M., Bulut M., Graf A. & Fernie A.R. (2023). The Conditional Mitochondrial Protein Complexome in the Arabidopsis Thaliana Root and Shoot. Plant Communications 4(5): 100635.
    68. Zhang Y. & Fernie A.R. (2023). The Role of TCA Cycle Enzymes in Plants. Advanced Biology 7(8): e2200238.
    67. Zhang Y. & Fernie A.R. (2023). Leveraging Glycoside-Targeted Metabolomics to Gain Insight into Biological Function. Trends in Plant Science 28(7): 737-739.
    66. Zhang Y., Chen M., Liu T., Qin K. & Fernie A.R. (2023). Investigating the Dynamics of Protein-Protein Interactions in Plants.The Plant Journal 114(4): 965-983.
    65. Xie J.Q., Zhou X., Jia Z.C., Su C.F., Zhang Y., Fernie A.R., Zhang J., Du Z. Y. & Chen M.X. (2023). Alternative Splicing, an Overlooked Defense Frontier of Plants with Respect to Bacterial Infection. Journal of Agricultural and Food Chemistry 71(45): 16883-16901.
    64. Wan H., Zhang Y., Wu L., Zhou G., Pan L., Fernie A.R. & Ruan Y.L. (2023). Evolution of Cytosolic and Organellar Invertases Empowered the Colonization and Thriving of Land Plants. Plant Physiology 193(2): 1227-1243.
    63. Su C., Kokosza A., Xie X., Pencik A., Zhang Y., Raumonen P., Shi X., Muranen S., Topcu M.K., Immanen J., Hagqvist R., Safronov O., Alonso-Serra J., Eswaran G., Venegas M.P., Ljung K., Ward S., Mahonen A.P., Himanen K., Salojarvi J., Fernie A.R., Novak O., Leyser O., Palubicki W., Helariutta Y. & Nieminen K. (2023). Tree Architecture: A Strigolactone-Deficient Mutant Reveals a Connection between Branching Order and Auxin Gradient Along the Tree Stem. Proceedings of the National Academy of Sciences 120(48): e2308587120.
    62. Song Y.C., Das D., Zhang Y., Chen M.X., Fernie A.R., Zhu F.Y. & Han J. (2023). Proteogenomics-Based Functional Genome Research: Approaches, Applications, and Perspectives in Plants. Trends in Biotechnology 41(12): 1532-1548.
    61. Siqueira J. A., Zhang Y., Nunes-Nesi A., Fernie A.R. & Araujo W. L. (2023). Beyond Photorespiration: The Significance of Glycine and Serine in Leaf Metabolism. Trends in Plant Science 28(10): 1092-1094.
    60. Shan N., Zhang Y., Guo Y., Zhang W., Nie J., Fernie A.R. & Sui X. (2023). Cucumber Malate Decarboxylase, Csnadp-Me2, Functions in the Balance of Carbon and Amino Acid Metabolism in Fruit. Horticulture Research 10(12): uhad216.
    59. Schlossarek D., Zhang Y., Sokolowska E. M., Fernie A.R., Luzarowski M. & Skirycz A. (2023). Don't Let Go: Co-Fractionation Mass Spectrometry for Untargeted Mapping of Protein-Metabolite Interactomes. The Plant Journal 113(5): 904-914.
    58. Natale R., Coppola M., D'Agostino N., Zhang Y., Fernie A.R., Castaldi V. & Rao R. (2023). In Silico and in Vitro Approaches Allow the Identification of the Prosystemin Molecular Network. Computational and Structural Biotechnology Journal 21: 212-223.
    57. Jia Z.C., Das D., Zhang Y., Fernie A.R., Liu Y.G., Chen M. & Zhang J. (2023). Plant Serine/Arginine-Rich Proteins: Versatile Players in Rna Processing. Planta 257(6): 109.
    56. Giese J., Eirich J., Walther D., Zhang Y., Lassowskat I., Fernie A.R., Elsasser M., Maurino V.G., Schwarzlander M. & Finkemeier I. (2023). The Interplay of Post-Translational Protein Modifications in Arabidopsis Leaves During Photosynthesis Induction. The Plant Journal 116(4): 1172-1193.
    55. Fernie A.R. & Zhang Y. (2023). Observations and Implication of Thermal Tolerance in the Arabidopsis Proteome. Cell Systems 14(10): 819-821.
    54. Dahmani I., Qin K., Zhang Y. & Fernie A.R. (2023). The Formation and Function of Plant Metabolons. The Plant Journal 114(5): 1080-1092.
    53. Chen Y., Wang Y., Liang X., Zhang Y. & Fernie A.R. (2023). Mass Spectrometric Exploration of Phytohormone Profiles and Signaling Networks. Trends in Plant Science 28(4): 399-414.
    52. Bao Y.J., Chen J.X., Zhang Y., Fernie A.R., Zhang J., Huang B.X., Zhu F.Y. & Cao F.L. (2023). Emerging Role of Jasmonic Acid in Woody Plant Development. Advanced Agrochem 3(1): 26-38.
    51. Zhang Y. & Fernie A.R. (2022). Dynamically Regulating Metabolic Fluxes with Synthetic Metabolons. Trends in Biotechnology 40(9): 1019-1020.
    50. Zhang Y. & Fernie A.R. (2022). Metabolite Profiling of Arabidopsis Mutants of Lower Glycolysis. Scientific Data 9(1): 614.
    49. Stefan T., Wu X.N., Zhang Y., Fernie A. & Schulze W.X. (2022). Regulatory Modules of Metabolites and Protein Phosphorylation in Arabidopsis Genotypes with Altered Sucrose Allocation. Frontiers in Plant Science 13: 891405.
    48. Fernie A.R. & Zhang Y. (2022). The Bacillus Subtilis Glutamate Anti-Metabolon. Nature Metabolism 4(2): 161-162.
    47. Amanda D., Frey F.P., Neumann U., Przybyl M., Simura J., Zhang Y., Chen Z., Gallavotti A., Fernie A.R., Ljung K. & Acosta I. F. (2022). Auxin Boosts Energy Generation Pathways to Fuel Pollen Maturation in Barley. Current Biology 32(8): 1798-1811.
    46. Zhang Y., Scossa F. & Fernie A.R. (2021). The Genomes of Taxus Species Unveil Novel Candidates in the Biosynthesis of Taxoids. Molecular Plant 14(11): 1773-1775.
    45. Zhang Y., Giese J., Kerbler S.M., Siemiatkowska B., de Souza L.P., Alpers J., Medeiros D.B., Hincha D.K., Daloso D.M., Stitt M., Finkemeier I. & Fernie A.R. (2021). Two Mitochondrial Phosphatases, PP2c63 and Sal2, Are Required for Posttranslational Regulation of the TCA Cycle in Arabidopsis. Molecular Plant 14(7): 1104-1118.
    44. Zhang Y. & Fernie A.R. (2021). Stable and Temporary Enzyme Complexes and Metabolons Involved in Energy and Redox Metabolism. Antioxidants & Redox Signaling 35(10): 788-807.
    43. Zhang Y. & Fernie A.R. (2021). Metabolons, Enzyme-Enzyme Assemblies That Mediate Substrate Channeling, and Their Roles in Plant Metabolism. Plant Communications 2(1): 100081.
    42. Wu T., Kerbler S.M., Fernie A.R. & Zhang Y. (2021). Plant Cell Cultures as Heterologous Bio-Factories for Secondary Metabolite Production. Plant Communications 2(5): 100235.
    41. Qin K., Fernie A.R. & Zhang Y. (2021). The Assembly of Super-Complexes in the Plant Chloroplast. Biomolecules 11(12): 1839.
    40. Pereira L., Sapkota M., Alonge M., Zheng Y., Zhang Y., Razifard H., Taitano N.K., Schatz M.C., Fernie A.R., Wang Y., Fei Z., Caicedo A.L., Tieman D.M. & van der Knaap E. (2021). Natural Genetic Diversity in Tomato Flavor Genes. Frontiers in Plant Science 12: 642828.
    39. Moreno J.C., Rojas B.E., Vicente R., Gorka M., Matz T., Chodasiewicz M., Peralta-Ariza J.S., Zhang Y., Alseekh S., Childs D., Luzarowski M., Nikoloski Z., Zarivach R., Walther D., Hartman M.D., Figueroa C.M., Iglesias A.A., Fernie A.R. & Skirycz A. (2021). Tyr-Asp Inhibition of Glyceraldehyde 3-Phosphate Dehydrogenase Affects Plant Redox Metabolism. EMBO Journal 40(15): e106800.
    38. Kerbler S. M., Natale R., Fernie A.R. & Zhang Y. (2021). From Affinity to Proximity Techniques to Investigate Protein Complexes in Plants. International Journal of Molecular Sciences 22(13): 7101.
    37. Chen M.X., Zhang Y., Fernie A.R., Liu Y.G. & Zhu F.Y. (2021). Swath-Ms-Based Proteomics: Strategies and Applications in Plants. Trends in Biotechnology 39(5): 433-437.
    36. Cervela-Cardona L., Yoshida T., Zhang Y., Okada M., Fernie A. & Mas P. (2021). Circadian Control of Metabolism by the Clock Component Toc1. Frontiers in Plant Science 12: 683516.
    35. Aarabi F., Rakpenthai A., Barahimipour R., Gorka M., Alseekh S., Zhang Y., Salem M.A., Bruckner F., Omranian N., Watanabe M., Nikoloski Z., Giavalisco P., Tohge T., Graf A., Fernie A.R. & Hoefgen R. (2021). Sulfur Deficiency-Induced Genes Affect Seed Protein Accumulation and Composition under Sulfate Deprivation. Plant Physiology 187(4): 2419-2434.
    34. Zhu J., Loubéry S., Broger L., Zhang Y., Lorenzo-Orts L., Utz-Pugin A., Fernie A.R., Young-Tae C. & Hothorn M. (2020). A Genetically Validated Approach for Detecting Inorganic Polyphosphates in Plants. The Plant Journal 102(3): 507-516.
    33. Zhang Y., Skirycz A. & Fernie A.R. (2020). An Abundance and Interaction Encyclopedia of Plant Protein Function. Trends in Plant Science 25(7): 627-630.
    32. Zhang Y., Sampathkumar A., Kerber S.M., Swart C., Hille C., Seerangan K., Graf A., Sweetlove L. & Fernie A.R. (2020). A Moonlighting Role for Enzymes of Glycolysis in the Co-Localization of Mitochondria and Chloroplasts. Nature Communications 11(1): 4509.
    31. Zhang Y., Krahnert I., Bolze A., Gibon Y. & Fernie A.R. (2020). Adenine Nucleotide and Nicotinamide Adenine Dinucleotide Measurements in Plants. Current Protocals in Plant Biology 5(3): e20115.
    29. Zhang Y. & Fernie A.R. (2020). Resolving the Metabolon: Is the Proof in the Metabolite? EMBO Reports 21(8): e50774.
    28. Zhang Y., Chen M., Siemiatkowska B., Toleco M.R., Jing Y., Strotmann V., Zhang J., Stahl Y. & Fernie A.R. (2020). A Highly Efficient Agrobacterium-Mediated Method for Transient Gene Expression and Functional Studies in Multiple Plant Species. Plant Communications 1(5): 100028.
    27. Zhang W., Zhang Y., Qiu H., Guo Y., Wan H., Zhang X., Scossa F., Alseekh S., Zhang Q., Wang P., Xu L., Schmidt M.H., Jia X., Li D., Zhu A., Guo F., Chen W., Ni D., Usadel B., Fernie A.R. & Wen W. (2020). Genome Assembly of Wild Tea Tree Dasz Reveals Pedigree and Selection History of Tea Varieties. Nature Communications 11(1): 3719.
    26. Toleco M.R., Naake T., Zhang Y., Heazlewood J.L. & Fernie A.R. (2020).Plant Mitochondrial Carriers: Molecular Gatekeepers That Help to Regulate Plant Central Carbon Metabolism. Plants (Basel) 9(1):117.
    25. Tohge T., Scossa F., Wendenburg R., Frasse P., Balbo I., Watanabe M., Alseekh S., Jadhav S.S., Delfin J.C., Lohse M., Giavalisco P., Usadel B., Zhang Y., Luo J., Bouzayen M. & Fernie A.R. (2020). Exploiting Natural Variation in Tomato to Define Pathway Structure and Metabolic Regulation of Fruit Polyphenolics in the Lycopersicum Complex. Molecular Plant 13(7): 1027-1046.
    24. Fernie A.R., Zhang Y. & Sampathkumar A. (2020). Cytoskeleton Architecture Regulates Glycolysis Coupling Cellular Metabolism to Mechanical Cues. Trends in Biochemical Science 45(8): 637-638.
    23. Chen M.X., Zhu F.Y., Gao B., Ma K.L., Zhang Y., Fernie A.R., Chen X., Dai L., Ye N.H., Zhang X., Tian Y., Zhang D., Xiao S., Zhang J. & Liu Y.G. (2020). Full-Length Transcript-Based Proteogenomics of Rice Improves Its Genome and Proteome Annotation. Plant Physiology 182(3): 1510-1526.
    22. Zhu J., Lau K., Puschmann R., Harmel R.K., Zhang Y., Pries V., Gaugler P., Broger L., Dutta A.K., Jessen H.J., Schaaf G., Fernie A.R., Hothorn L.A., Fiedler D. & Hothorn M. (2019). Two Bifunctional Inositol Pyrophosphate Kinases/Phosphatases Control Plant Phosphate Homeostasis. Elife 8: e43582.
    21. Zhang Y., Natale R., Domingues A.P. Junior, Toleco M.R., Siemiatkowska B., Fabregas N. & Fernie A.R. (2019). Rapid Identification of Protein-Protein Interactions in Plants. Current Protocals in Plant Biology 4(4): e20099.
    20. Reinholdt O., Schwab S., Zhang Y., Reichheld J.P., Fernie A.R., Hagemann M. & Timm S. (2019). Redox-Regulation of Photorespiration through Mitochondrial Thioredoxin O1. Plant Physiology 181(2): 442-457.
    19. Liu T.Y., Chen M.X., Zhang Y., Zhu F.Y., Liu Y.G., Tian Y., Fernie A.R., Ye N. & Zhang J. (2019). Comparative Metabolite Profiling of Two Switchgrass Ecotypes Reveals Differences in Drought Stress Responses and Rhizosheath Weight. Planta 250(4): 1355-1369.
    18. Zhang Y., Swart C., Alseekh S., Scossa F., Jiang L., Obata T., Graf A. & Fernie A.R. (2018). The Extra-Pathway Interactome of the TCA Cycle: Expected and Unexpected Metabolic Interactions. Plant Physiology 177(3): 966-979.
    17. Zhang Y., Zhang Y., McFarlane H.E., Obata T., Richter A.S., Lohse M., Grimm B., Persson S., Fernie A.R. & Giavalisco P. (2018). Inhibition of TOR Represses Nutrient Consumption, Which Improves Greening after Extended Periods of Etiolation. Plant Physiology 178(1): 101-117.
    16. Zhang Y., Giuliani R., Zhang Y., Zhang Y., Araujo W.L., Wang B., Liu P., Sun Q., Cousins A., Edwards G., Fernie A., Brutnell T.P. & Li P. (2018). Characterization of Maize Leaf Pyruvate Orthophosphate Dikinase Using High Throughput Sequencing. Journal of integrative plant biology 60(8): 670-690.
    15. Zhang Y. & Fernie A.R. (2018). On the Role of the Tricarboxylic Acid Cycle in Plant Productivity. Journal of Integrative Plant Biology 60(12): 1199-1216.
    14. Scossa F., Benina M., Alseekh S., Zhang Y. & Fernie A.R. (2018). The Integration of Metabolomics and Next-Generation Sequencing Data to Elucidate the Pathways of Natural Product Metabolism in Medicinal Plants. Planta Medica 84(12-13): 855-873.
    13. Ma X., Zhang Y., Tureckova V., Xue G.P., Fernie A.R., Mueller-Roeber B. & Balazadeh S. (2018). The NAC Transcription Factor SlNAP2 Regulates Leaf Senescence and Fruit Yield in Tomato. Plant Physiology 177(3): 1286-1302.
    12. Fernie A.R., Zhang Y. & Sweetlove L.J. (2018). Passing the Baton: Substrate Channelling in Respiratory Metabolism. Research (Wash D C) 2018: 1539325.
    11. Andersson M., Turesson H., Arrivault S., Zhang Y., Falt A.S., Fernie A.R. & Hofvander P. (2018). Inhibition of Plastid Ppase and Ntt Leads to Major Changes in Starch and Tuber Formation in Potato. Journal of Experimental Botany 69(8): 1913-1924.
    10. Zhu F.Y., Chen M.X., Ye N.H., Shi L., Ma K.L., Yang J.F., Cao Y.Y., Zhang Y., Yoshida T., Fernie A.R., Fan G.Y., Wen B., Zhou R., Liu T.Y., Fan T., Gao B., Zhang D., Hao G.F., Xiao S., Liu Y.G. & Zhang J. (2017). Proteogenomic Analysis Reveals Alternative Splicing and Translation as Part of the Abscisic Acid Response in Arabidopsis Seedlings. The Plant Journal 91(3): 518-533.
    9. Zhang Y., Beard K.F.M., Swart C., Bergmann S., Krahnert I., Nikoloski Z., Graf A., Ratcliffe R.G., Sweetlove L.J., Fernie A.R. & Obata T. (2017). Protein-Protein Interactions and Metabolite Channelling in the Plant Tricarboxylic Acid Cycle. Nature Communications 8: 15212.
    8. Robaina-Estevez S., Daloso D. M., Zhang Y., Fernie A.R. & Nikoloski Z. (2017). Resolving the Central Metabolism of Arabidopsis Guard Cells. Scientific Reports 7(1): 8307.
    7. Liu Z., Schneider R., Kesten C., Zhang Y., Somssich M., Zhang Y., Fernie A.R. & Persson S. (2016). Cellulose-Microtubule Uncoupling Proteins Prevent Lateral Displacement of Microtubules During Cellulose Synthesis in Arabidopsis. Developmental Cell 38(3): 305-315.
    6. Liang C., Cheng S., Zhang Y., Sun Y., Fernie A.R., Kang K., Panagiotou G., Lo C. & Lim B.L. (2016). Transcriptomic, Proteomic and Metabolic Changes in Arabidopsis Thaliana Leaves after the Onset of Illumination. BMC Plant Biology 16: 43.
    5. Pham P.A., Wahl V., Tohge T., de Souza L.R., Zhang Y., Do P.T., Olas J.J., Stitt M., Araujo W.L. & Fernie A.R. (2015). Analysis of Knockout Mutants Reveals Non-Redundant Functions of Poly(Adp-Ribose)Polymerase Isoforms in Arabidopsis. Plant Molecular Biology 89(4-5): 319-338.
    4. Liang C., Zhang Y., Cheng S., Osorio S., Sun Y., Fernie A.R., Cheung C.Y. & Lim B.L. (2015). Impacts of High ATP Supply from Chloroplasts and Mitochondria on the Leaf Metabolism of Arabidopsis Thaliana. Frontiers in Plant Science 6: 922.
    3. Zhang Y., Sun F., Fettke J., Schottler M.A., Ramsden L., Fernie A.R. & Lim B.L. (2014). Heterologous Expression of Atpap2 in Transgenic Potato Influences Carbon Metabolism and Tuber Development. FEBS Letters 588(20): 3726-3731.
    2. Zhang Y., Yu L., Yung K.F., Leung D.Y.C., Sun F. & Lim B.L. (2012). Over-Expression of AtPAP2 in Camelina Sativa Leads to Faster Plant Growth and Higher Seed Yield. Biotechnology for Biofuels 5(1): 19.
    1. Sun F., Suen P.K., Zhang Y., Liang C., Carrie C., Whelan J., Ward J.L., Hawkins N.D., Jiang L. & Lim B. L. (2012). A Dual-Targeted Purple Acid Phosphatase in Arabidopsis Thaliana Moderates Carbon Metabolism and Its Overexpression Leads to Faster Plant Growth and Higher Seed Yield. New Phytologist 194(1): 206-219.

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