肖前林
发布时间2020-11-30 09:25:28     作者:    浏览次数: 次

文本框:  肖前林,男,汉族,中共党员。19889月,四川仪陇人,农学博士,讲师。

学习经历

2007. 9 - 2011. 7,四川农业大学,生物科学,本科

2011. 9 - 2013. 7,四川农业大学,作物遗传育种,硕士研究生

2013. 9 - 2017. 12,四川农业大学,作物遗传育种,博士研究生

工作经历

2018. 5-至今,西南大学,1382cm太阳贵宾下载区域系,讲师。

研究方向

作物资源与基因功能研究。以高粱、玉米等植物为材料,通过分子生物学与功能基因组学研究,揭示目标基因的生物学功能与分子调控机制。目前主要的研究内容:

1)甜高粱茎秆糖分代谢转录调控机制;

2)高粱籽粒发育及品质性状调控机制研究;

3)玉米雌穗发育分子机制研究。

承担科研项目情况

国家自然科学基金青年基金项目:甜高粱SuSyR1调控蔗糖合酶基因转录的分子机制研究,2021.01-2023.1224万,在研,主持。

中央高校业务费能力提升项目:玉米BE1-YABBY9-Wox3a模块调控雌穗发育的分子机制, 2022.01-2025.1230万,在研,主持

西南大学博士基金项目:甜高粱糖信号途径SnRK1亚基及糖转运蛋白的筛选与功能研究,2019.01-2021.1210万,结题,主持。

指导学生项目

西南大学市级“大学生创新创业训练计划”项目:SbDof25调控颗粒结合性淀粉合酶(Granule-bound starch synthesisGBSS)基因转录的分子机制(市级,2020-农学-凌敏,指导老师)

西南大学市级“大学生创新创业训练计划”项目:NAC转录因子调控高粱籽粒淀粉生物合成的机制研究(市级,2019-农学-马匡,指导老师)

西南大学市级“大学生创新创业训练计划”项目:甜高粱茎秆SnRK1亚基克隆及组合模式研究(市级,2018-农学-周畅,指导老师)

获奖

20219月,中国科技期刊农林学科年度优秀论文特等奖,(论文第一作者)。

202110月,第六届中国科协优秀科技论文遴选计划,优秀论文奖,中国科学技术协会,(论文第一作者)。

发表论文

第一作者与共一

1. Xiao Q#, Huang T#, Cao W, Ma K, Liu T, Xing F, Ma Q, Duan H, Ling M, Ni X* and Liu Z*. Profiling of transcriptional regulators associated with starch biosynthesis in sorghum (Sorghum bicolor L.). FRONT PLANT SCI. 2022, 13: 999747. (IF2021=6.627/Q1/A2) (# Co-first authors).

2. Xiao Q#, Huang T#, Zhou C, Chen W, Cha J, Wei X, Xing F, Qian M, Ma Q, Duan H and Liu Z*. Characterization of subunits encoded by SnRK1 and dissection of combinations among these subunits in sorghum (Sorghum bicolor L.). J INTEGR AGR. 2022, Doi:10.1016/j.jia.2022.08.068. (IF2021=4.384/Q1/A2) (# Co-first authors).

3. Xiao Q#*, Li Z#, Wang Y, Hou X, Wei X, Zhao X, Huang L, Guo Y and Liu Z*. Genome-wide identification, expression and functional analysis of sugar transporters in sorghum (Sorghum bicolor L.). J INTEGR AGR. 2022, 21(10): 2848–2864. (IF2021=4.384/Q1/A2) (# Co-first authors).

4. Xiao, Q; Liu, T.; Ling, M.; Ma, Q.; Cao, W.; Xing, F.; Huang, T.; Zhang, Y.; Duan, H.; Liu, Z. Genome-Wide Identification of DOF Gene Family and the Mechanism Dissection of SbDof21 Regulating Starch Biosynthesis in Sorghum. INT. J. MOL. SCI. 2022, 23, 12152.  (IF2021=6.208/Q1/A2)

5. Xiao Q#, Wang Y#, Li H#, Zhang C, Wei B, Wang Y, Huang H, Li Y, Yu G, Liu H, Zhang J, Liu Y, Hu Y and Huang Y*. Transcription factor ZmNAC126 plays an important role in transcriptional regulation of maize starch synthesis-related genes. CROP J. 2021, 9(1): 192-203. (IF2021=4.647/Q1/A1) (# Co-first authors).

6. Xiao Q#, Wei B#, Wang Y, Li H, Huang H, Ajayo BS, Hu Y, and Huang Y*. Core Cell Cycle-Related Gene Identification and Expression Analysis in Maize. PLANT MOL BIOL REP. 2021, 39: 72–86. (IF2021=1.816/Q3/A4) (# Co-first authors).

7. Xiao Q, Wang Y, Du J, Li H, Wei B, Wang Y, Li Y, Yu G, Liu H, Zhang J, Hu H and Huang Y*. ZmMYB14 is an important transcription factor involved in the regulation of the activity of the

ZmBT1 promoter in starch biosynthesis in maize. FEBS J. 2017, 284: 3079-3099. (IF2017=4.53/Q2/A2).

8. Xiao Q, Zhang C, Li H, Wei B, Wang Y, Huang H, Li Y, Yu G, Liu H, Zhang J, Liu Y, Hu Y and Huang Y*. Identification and functional analysis of the ICK gene family in maize. SCI REP-UK.

2017, 7: 43818. (IF2017=4.122/Q2/A3).

9. Li H#, Xiao Q#, Zhang C, Du J, Li X, Huang H, Wei B, Li Y, Yu G, Liu H, Hu Y, Liu Y, Zhang J, Huang Y. Identification and characterization of transcription factor ZmEREB94 involved in starch synthesis in maize. J PLANT PHYSIOL. 2017, 216: 11-16. (IF2017=2.833/Q2/A3) (# Co-first authors).

其他参与工作

1. Xu W, Yang Y, Yang B, Krueger CJ, Xiao Q, Zhao S, Zhang L, Kang G, Wang F, Yi H, Ren W, Li L, He X, Zhang C, Zhang B, Zhao J, Yang J*. A design optimized prime editor with expanded scope and capability in plants. NAT PLANTS. 2022, 8(1):45-52. (IF2022=17.352/Q1/A1).

2. Liu H, Wang Y, Liu L, Wei B, Wang X, Xiao Q, Li Y, Ajayo BS, Huang Y. Pleiotropic ZmICE1 Is an Important Transcriptional Regulator of Maize Endosperm Starch Biosynthesis. FRONT PLANT SCI. 2022, 13:895763. (IF2022=6.627/Q1/A2).

3. Gul H, Qian M, Arabzai M, Huang T, Ma Q, Xing F, Cao W, Liu T, Duan H, Xiao Q* and Liu Z*. Discovering Candidate Chromosomal Regions Linked to Kernel Size-Related Traits via QTL Mapping and Bulked Sample Analysis in Maize. PHYTON-INTERNATIONAL JOURNAL OF EXPERIMENTAL BOTANY. 2022, 91(7): 1429-1443. (IF2022=1.047/Q3/A4) (* Corresponding author).

4. Hu Y, Li Y, Weng J, Liu H, Yu G, Liu Y, Xiao Q, Huang H, Wang Y, Wei B, Cao Y, Xie Y, Long T, Li H, Zhang J, Li X and Huang Y*. Coordinated regulation of starch synthesis in maize endosperm by microRNAs and DNA methylation. PLANT J. 2021, 105(1): 108-123. (IF2021=7.901/Q1/A1).

5. Guo Y, Zhao X, Li Y, Li Z, Xiao Q, Wang Y, Zhang X, Ni Y. Environment-Driven Adaptations of Leaf Cuticular Waxes Are Inheritable for Medicago ruthenica. FRONT PLANT SCI. 2021, 12:620245. (IF2021=5.753/Q1/A2).

6. Li H, Wang Y, Xiao Q, Luo L, Zhang C, Mao C, Du J, Long T, Cao Y, Yi Q, Wang Y, Li Y, Huang H, Liu H, Hu Y, Yu G, Liu Y, Zhang J and Huang Y*. Transcription factor ZmPLATZ2 positively regulate the starch synthesis in maize. PLANT GROWTH REGULATION. 2021, 93(3): 291-302. (IF2021=3.243/Q2/A3).

8. Huang L, Xiao Q, Zhao X, Wang D, Wei L, Li X, Liu Y, He Z, Kang L and Guo Y*. Responses of cuticular waxes of faba bean to light wavelengths and selection of candidate genes for cuticular wax biosynthesis. PLANT GENOME-US. 2020, 13(3):e20058. (IF2021=4.219/Q1/A2)

9. He Z, Yao L, Zhang X, Li Y, Wang D, Kang L, Cui C, Huang A, Yang R, Xiao Q and Guo Y. Faba Bean Organs Differed in Their Effects on Maize Seed Germination Rate and Soil Microbial Activities as well as Their Decomposition Patterns in a Regosol Soil. J SOIL SCI PLANT NUT. 2020, 20(2): 367-379. (IF2021=3.61/Q2/A3).

10. Zhao X, Huang L, Kang L, Jetter R, Yao L, Li Y, Xiao Y, Wang D, Xiao Q, Ni Y and Guo Y*. Comparative analyses of cuticular waxes on various organs of faba bean (Vicia faba L.). PLANT PHYSIOL BIOCHEM. 2019, 139:102-112. (IF2021=5.437/Q2/A3).

11. Yao L, Yu X, Huang L, Zhang X, Wang D, Zhao X, Li Y, He Z, Kang L, Li X, Liu D, Xiao Q and Guo Y*. Responses of Phaseolus calcaltus to lime and biochar application in an acid soil. PEER J. 2019, 7: e6346. (IF2021=3.061/Q2/A3).

12. Liu Y, Hou X, Xiao Q, Yi Q, Bian S, Hu Y, Liu H, Zhang J, Hao X, Cheng W, Li Y and Huang Y*. Genetic Analysis in Maize Foundation Parents with Mapping Population and Testcross

Population: Ye478 Carried More Favorable Alleles and Using QTL Information Could Improve Foundation Parents. FRONT PLANT SCI. 2016, 7:1417. (IF2016=4.298/Q1/A2).

13. Wei B, Liu H, Liu X, Xiao Q, Wang Y, Zhang J, Hu Y, Liu Y, Yu G and Huang Y*. Genome-wide characterization of non-reference transposons in crops suggests non-random insertion. BMC GENOMICS. 2016, 17: 536. (IF2016=3.729/Q2/A2).

14. Huang H, Xie S, Xiao Q, Wei B, Zheng L, Wang Y, Cao Y, Zhang X, Long T, Li Y, Hu Y, Yu G, Liu H, Liu Y, Huang Z, Zhang J and Huang Y*. Sucrose and ABA regulate starch biosynthesis in maize through a novel transcription factor, ZmEREB156. SCI REP-UK. 2016, 6:27590. (IF2016=4.259/Q2/A3).

15. Chen J, Yi Q, Cao Y, Wei B, Zheng L, Xiao Q, Xie Y, Gu Y, Li Y, Huang H, Wang Y, Hou X, Long T, Zhang J, Liu H, Liu Y, Yu G, and Huang Y*. ZmbZIP91 regulates expression of starch synthesis-related genes by binding to ACTCAT elements in their promoters. J. EXP. BOT. 2016, 67, 1327-1338. (IF2016=5.83/Q1/A2)

16. Hou X, Liu Y, Xiao Q, Wei B, Zhang X, Gu Y, Wang Y, Chen J, Hu Y, Liu H, Zhang J and Huang Y*. Genetic analysis for canopy architecture in an F-2:3 population derived from two-type foundation parents across multi-environments. EUPHYTICA. 2015, 205(2): 421-440. (IF2021=2.185/Q2/A3).

联系方式

电话:13688092963 E-mailxiaoql1853@swu.edu.cn

通信地址:重庆市北碚区天生路2号1382cm太阳贵宾下载;邮编:400716

地址:重庆市北碚区天生路2号

联系电话:+023-68251264

邮编:400715

E-mail:swuagronomy@swu.edu.cn

1382cm太阳贵宾下载 版权所有

XML 地图