1.    转基因新品种培育科技重大专项: 安全转基因技术研究-基因组定点修饰和外源基因定点整合技术 (编号：2016ZX08010-003)

2.    国家重点研发计划:主要农作物品质性状形成的分子基础-小麦加工、营养和淀粉品质形成与改良的分子基础 (编号：2016YFD0100502)

3.    国家重点研发计划: 主要农作物染色体细胞工程育种-主要农作物细胞工程育种新方法与应用 (编号：2016YFD0102003-11)

4.   国家重点研发计划: 作物分子审计育种（编号： 2020YFE0202300）

5.    美国科迪华水稻基因编辑国际合作项目（2021-2025）

6.    中国农业科学院农科英才C类领军人才特支计划

7.  中国农业科学院作物科学研究所中央级公益科研院所基本科研业务费专项：作物分子设计育种 （编号：Y2020YJ09）

8. 中国农业科学院科技创新工程‘藏粮于技’项目

近年来主持和参与承担项目：

1.   国家转基因重大专项重点项目：新型抗蚜转基因小麦新种质创制（编号：2014ZX0800201B），主持

2.   国家转基因重大专项重点项目：小麦水稻CRISPR／Cpf1介导的同源重组体系构建及应用（编号：2018ZX0801003B），主持

3.   国家自然科学基金： 麦长管蚜肠道RNAi靶标基因筛选鉴定与抗蚜转基因小麦新种质创制 (编号：31371702)， 主持

4.   国家自然科学基金：黄花蒿EβF合成酶基因的功能解析及转基因抗蚜小麦新种质的创制 (编号：31171168) ，主持

5.   转基因新品种培育科技重大专项-安全转基因技术研究-新型抗除草剂基因作为安全选择基因的研究和抗除草剂农作物的培育（编号：2014ZX08010-003），子课题主持

6.   转基因新品种培育科技重大专项-安全转基因技术研究-基因组定点修饰和外源基因定点整合技术（编号：2016ZX08010-003），子课题主持

7.   国家重点研发计划-主要农作物品质性状形成的分子基础-小麦加工、营养和淀粉品质形成与改良的分子基础（编号：2016YFD0100502），子课题主持

8.   国家重点研发计划-主要农作物染色体细胞工程育种-新型水稻小麦小孢子培养育种技术的研制和新材料创制（编号：2016YFD0102003-11），子课题主持

9.   美国陶氏益农水稻基因编辑国际合作项目，参加

近五年发表的代表性论文（# 第一作者， * 通讯作者）

1.       Luo JM#, Li SY, Xu JJ, Yan L, Ma YZ*, Xia LQ*.(2021). Pyramiding favorable alleles in anelite wheat variety in one generation by CRISPR/Cas9-mediated multiplex geneediting. MolecularPlant, 14: 847-850  (期刊论文)

2.       Li JY#, Jiao GA#, Sun YW#, Chen J#, Zhong YX, Yan L, Jiang D, Ma YZ* and Xia LQ*.(2021). Modification of starch composition, structure and properties in bothwinter and spring wheat varieties through CRISPR/Cas9. PlantBiotechnology Journal, 19：937-951 (期刊论文)

3.       Zhang JH#, Zhang HT,Li SY, Li JY, Yan L, Xia LQ*. (2021). Increasing yield potential through manipulating ofan ARE1 ortholog related to nitrogen use efficiency in wheat by CRISPR/Cas9. Journal of Integrative Plant Biology, 63: 1649-1663(期刊论文)

4.       Xia LQ#, Wang KJ, Zhu JK. (2021). The power andversatility of genome editing tools in crop improvement. Journal ofIntegrative Plant Biology, 63: 1591-1594 (Editorial)

5.       Li SY#, Zhang C, Li JY, Yan L, Wang N, Xia LQ*.(2021). Present and future prospects forwheat improvement through genome editing and advanced technologies. PlantCommunication, 2, 100211 (约稿综述)

6.       Li JY#, Li HY#, Chen JL#, Yan L, Xia LQ* (2020). Precisemodifications of both exogenous and endogenous genes in rice by primeediting. Molecular Plant, 13: 671-674. (期刊论文)

7.       Li JY#, Li HY#, Chen JL, Yan L and Xia LQ* (2020).Toward precision genome editing in crop plants. Molecular Plant,13:811-813. (约稿观点)

8.       Li, S. #, Zhang, Y. #, Xia, L Q *, and Qi, Y. * (2020).CRISPR-Cas12a enables efficient biallelic gene targeting in rice. PlantBiotechnology Journal, 18: 1351-1353. (期刊论文)

9.       Bharat SS#, Li SY#, Li JY, Yan L, Xia LQ*. (2020). Baseediting in plants: Current status and challenges. The Crop Journal, 8: 384-395. (约稿综述)

10.    Li SY#, Li JY, He YB, Xu ML, Zhang JH, Du WM, Zhao YD*and Xia LQ * (2019). Precise gene replacement in rice by RNAtranscript-templated homologous recombination. Nature Biotechnology,37 (4): 445–450. (期刊论文)

11.    Sun YW#, Sparks C#, Jones HD, Riley M, Francis F, Du WM and XiaLQ* (2019). Silencing an essential gene involved in infestation anddigestion in grain aphid through plant-mediated RNA interference generatesaphid-resistant wheat plants. Plant Biotechnology Journal,17: 852–854. (期刊论文)

12.    Li JY#, Luo JM#, Xu ML, Li SY, Zhang JH, Li HY, Yan L, Zhao YD*and Xia LQ*. (2019). Plant genome editing using xCas9 with expandedPAM compatibility. Journal of Genetics and Genomics, 46(5):277-280. (期刊论文)

13.    Li S#, Zhang X#, Wang W, Guo X, Wu Z, Du W, Zhao YD*, XiaLQ*. (2018). Expanding the scope of CRISPR/Cpf1-mediated genome editing inrice. Molecular Plant, 11: 995-998. (期刊论文)

14.    Li SY#, Li JY, Zhang JH, Du WM, Fu JD, Sutar S, YundeZhao YD* and Xia LQ* (2018). Synthesis-dependent repair ofCpf1-induced double-strand DNA breaks enables targeted gene replacement inrice. Journal of Experimental Botany, 69(20): 4715-4721. (期刊论文)

15.    Li JY#, Zhang X#, Sun Y, Zhang J, Du W, Guo X, Li S, ZhaoY*, Xia LQ*. (2018). Efficient allelic replacement in rice by geneediting: a case study of the NRT1.1B gene. Journal of IntegrativePlant Biology, 60(7):536-540. (期刊论文)

16.    Li, J. #, Sun, Y. #, Du, J., Zhao, YD.*, and Xia LQ*(2017). Generation of targeted point mutations in rice by a modifiedCRISPR/Cas9 system. Molecular Plant, 10:526-529. (期刊论文)

17.   Sun YW#, Jiao GA#, Liu ZP,Zhang X, Li JY, Guo XP, Du WM, Du JL, Francis F, Zhao YD*, Xia LQ* (2017).Generation of high-amylose rice through CRISPR/Cas9-mediated targetedmutagenesis of starch branching enzymes. Frontiers in Plant Science,8,298.(期刊论文)

18.    Sun Y#, Zhang X#, Wu C, He Y, Ma Y, Hou H, Guo X, Du W, ZhaoYD*, Xia L.Q*. (2016). Engineering herbicide-resistant rice plantsthrough CRISPR/Cas9-Mediated homologous recombination of acetolactate synthase.Molecular Plant, 9, 628-631. (期刊论文)

19.    Sun, Y. #, Li, J., and Xia LQ*. (2016).Precise genome modification via sequence-specific nucleases-mediated genetargeting for crop improvement. Frontiers in Plant Science,7: 1928. (期刊论文)

20.     Wang, G.P. #, Yu, X.D. #, Sun, Y,Jones, H.D., and Xia L.Q.*. (2016). Generation of Marker- and/orBackbone-Free Transgenic Wheat Plants via Agrobacterium-MediatedTransformation. Frontiers in Plant Science, 7:1324. (期刊论文)

21.    Yu, X.D. #, Liu, Z.C., Huang, S.L., Chen, Z.Q., Sun, Y.,Duan, P.F., Ma, Y.Z., and Xia L.Q*. (2016). RNAi-mediatedplant protection against aphids. Pest Management Science,72:1090-1098. (期刊论文)

22.    Yan, T. #, Chen, H., Sun, Y., Yu, X., and Xia L.Q.* (2016). RNA Interference of the Ecdysone Receptor Genes EcR andUSP in Grain Aphid (Sitobion avenae F.)Affects Its Survival and Fecundity uponFeeding on Wheat Plants. International Journal of Molecular Sciences,17:2098. (期刊论文)

23.    Zhang Y#, Li ZX, Yu XD, Fan J, Pickett JA, Jones HD, ZhouJJ, Birkett MA, Caulfield J, Napier JA, Zhao GY, Cheng XG, Shi Y, Bruce T* and XiaLQ*（2015）. Molecular characterization of two isoforms of afarnesyl pyrophosphate synthase gene in wheat and their roles in sesquiterpenesynthesis and inducible defence against aphid infestation. NewPhytologist, 206:1101-1115. (期刊论文)

24.    Wang GP#, Yu XD#, Fan J, Wang CS, Xia LQ*（2015）. Expressing an (E)-β-Farnesene synthase in thechloroplast of tobacco affects the preference of green peach aphid and itsparasitoid. Journal of Integrative Plant Biology, 2015, 57（9）: 770-782. (期刊论文)

25.   Wang DH#, Liu Q#, Li X, SunYW, Wang H and Xia LQ*. (2015). Double stranded RNA in thebiological control of grain aphid (Sitobion avenae F.). Functional& Integrative Genomics, 15:211-223 (期刊论文)