5- 黑粉菌HFJ311缓解植物镉胁迫的效应分子及机制研究，姚高明校友基金，主持，经费7万元，执行年限2021.01-2021.12（在研）

4- 枸杞连作障碍的土壤微生物生态学机制研究，国家自然科学基金（地区项目），主持，31760612，直接经费38万，执行年限2018.01-2021.12（在研）

3- 生物质碳缓解枸杞连作障碍的微生物生态学机制研究，宁夏自然科学基金，主持，2018AAC03015，直接经费4万，执行年限2018.07-2020.07（已结题）

2- 自毒作用在枸杞连作障碍中的作用及机制研究, 国家自然科学基金（地区项目），主持，31560345，直接经费38万，执行年限2016.01-2019.12（已结题）

1- 旱地土壤真菌多样性对枸杞种植的响应机制研究，宁夏自然科学基金（重点项目），主持，NZ12115，直接经费6万，执行年限2012.09-2014.09（已结题）

1、植物逆境生理

2、植物-微生物互作

3、植物-土壤反馈

19- Wang S*, Na X*^∮, Yang L, Liang C, He L, Jin J, Liu Z, Qin J, Wang X^∮, Bi Y^∮. (2021). Bacillus megaterium strain WW1211 promotes plant growth and lateral root initiation via regulation of auxin biosynthesis and redistribution. Plant and Soil. 466：491–504

18- Na X^∮, Ma S, Ma C, Liu Z, Xu P, Zhu H, Liang W^∮, Kardol P^∮. (2021). Lycium barbarum L.(goji berry) monocropping causes microbial diversity loss and induces Fusarium spp. enrichment at distinct soil layers. Applied Soil Ecology. 168:104107.

17- Li X, Wang L, Wang M, Zhang Z, Ma C, Ma X, Na X^∮, Liang W^∮ (2021). Global analysis of protein succinylation modification of Nostoc flagelliforme in response to dehydration. Journal of Proteomics. 237:104149.

16- Huang J, Xu Y, Yu H, Zhu W, Wang P, Wang B, Na X^∮ (2021). Soil prokaryotic community shows no response to 2 years of simulated nitrogen deposition in an arid ecosystem in northwestern China. Environmental Microbiology. 23(2): 1222-1237.

15- Na X^∮, Ma C, Ma S, Ma X, Zhu X, Xu P, Zhu H, Liang W^∮ (2019). Monocropping decouples plant–bacteria interaction and strengthens phytopathogenic fungi colonization in the rhizosphere of a perennial plant species. Plant and Soil, 445(1), 549-564.

14- Na X, Yu H, Wang P, Zhu W, Niu Y, Huang J^∮ (2019). Vegetation biomass and soil moisture coregulate bacterial community succession under altered precipitation regimes in a desert steppe in northwestern China. Soil Biology and Biochemistry, 136: 107520.

13- Na X^∮*, Cao X*, Ma C, Ma S, Xu P, Liu S, Wang J, Wang H, Chen L, Qiao Z (2019). Plant stage, not drought stress, determines the effect of cultivars on bacterial community diversity in the rhizosphere of broomcorn millet (Panicum miliaceum L.). Frontiers in microbiology, 10: 828.

12- Na X, Xu T, Li M, Zhou Z, Ma S, Wang J, He J, Jiao B, Ma F (2018). Variations of bacterial community diversity within the rhizosphere of three phylogenetically related perennial shrub plant species across environmental gradients. Frontiers in Microbiology, 9:709.

11- Na X, Li X, Zhang Z, Li M, Kardol P, Xu T, Wang M, Cao X, Ma F (2017). Bacterial community dynamics in the rhizosphere of a long-lived, leguminous shrub across a 40-year age sequence. Journal of Soils & Sediments, (1):1-9.

10- Na X, Xu T, Li M, Ma F, Kardol P (2017). Bacterial diversity in the rhizosphere of two phylogenetically closely related plant species across environmental gradients. Journal of Soils & Sediments, 17(1):122-132.

9- Cao X, Wang J, Wang H, Liu S, Chen L, Tian X, Qin H, Na X^∮, Qiao Z (2017). The complete chloroplast genome of Panicum miliaceum. Mitochondrial DNA Part B, 2(1):43-45.

8- Cao X, Fei M, Xu T, Wang J, Liu S, Li G, Su Q, Qiao Z, Na X^∮(2016). Transcriptomic analysis reveals key early events of narciclasine signaling in Arabidopsis, root apex. Plant Cell Reports, 35(11):1-21.

7- Ma F*, Na X*, Xu T (2016). Drought responses of three closely related Caragana species: implication for their vicarious distribution. Ecology & Evolution, 6(9):2763-2773.

6- Na X, Jian B, Yao W, Wu C, Hou W, Jiang B, Bi Y, Han T (2013). Cloning and functional analysis of the flowering gene GmSOC1-like, a putative SUPPRESSOR OF OVEREXPRESSION CO1/AGAMOUS-LIKE 20 (SOC1/AGL20) ortholog in soybean. Plant Cell Reports, 32(8):1219.

5- Na X, Hu Y, Yue K, Lu H, Jia P, Wang H, Wang X, Bi Y (2011). Narciclasine modulates polar auxin transport in Arabidopsis roots. Journal of Plant Physiology, 168(11):1149-1156.

4- Na X, Hu Y, Yue K, Lu H, Jia P, Wang H, Wang X, Bi Y (2011). Concentration-dependent effects of narciclasine on cell cycle progression in Arabidopsis, root tips. BMC Plant Biology, 11(1):184.

3- Hu Y, Yang L, Na X, You J, Hu W, Liang X, Liu J, Mao L, Wang X, Wang H, Bi Y (2012). Narciclasine inhibits the responses of Arabidopsis roots to auxin. Planta, 236(2):597.

2- Lu H, Wan Q, Wang H, Na X, Wang X, Bi Y (2012). Oxidative stress and mitochondrial dysfunctions are early events in narciclasine-induced programmed cell death in tobacco Bright Yellow-2 cells. Physiologia Plantarum, 144(1):48–58.

1- Hu Y, Na X, Li J, Yang L, You J, Liang X, Wang J, Peng L, Bi Y (2015). Narciclasine, a potential allelochemical, affects subcellular trafficking of auxin transporter proteins and actin cytoskeleton dynamics in Arabidopsis roots. Planta, 242(6):1349-60.

^∮ corresponded author

* Equal contribution