主要研究领域：植物多糖代谢研究

代表性论文：

1.Zeng W, Chatterjee M, Faik A. Udp-xylose-stimulated glucuronyltransferase activity in wheat microsomal membranes: Characterization and role in glucurono(arabino)xylan biosynthesis.Plant Physiology2008, 147: 78-91.

2.Zeng W, Jiang N, Nadella R, Killen TL, Nadella V, Faik A. A glucurono(arabino)xylan synthase complex from wheat contains members of the GT43, GT47, and GT75 families and functions cooperatively.Plant Physiology2010, 154: 78-97.

3.Zeng W, Lampugnani ER, Picard KL, Song L, Wu AM, Farion IM, Zhao J, Ford K, Doblin MS, Bacic A. Asparagus IRX9, IRX10, and IRX14A are components of an active xylan backbone synthase complex that forms in the Golgi apparatus.Plant Physiology2016, 171: 93-109.

4. Guo Y, Gao Y, Chen F, Luo J, Qiao M, Li M, Persson S, Zeng W, Xu W. Down-regulation of xylan biosynthetic GhGT47Bs in cotton impedes fibre elongation and secondary wall thickening during fibre transition. Plant Biotechnology Journal2023, 22: 281-283.

5. Shi Y, Chen Z, Shen M, Li Q, Wang S,Jiang J, Zeng W. Identification and Functional Verification of the Glycosyltransferase Gene Family Involved in Flavonoid Synthesis in Rubus chingii Hu. Plants2024, 13, 1390.

6. Shi Y, Chen Z, Jiang J, Li X, Zeng W. Comparative and Phylogenetic Analysis of Six New Complete Chloroplast Genomes of Rubus (Rosaceae). Forests2024, 15: 1167.

7. Ebert B, Rautengarten C, McFarlane H E., Rupasinghe T, Zeng W, Ford K, Scheller H V., Bacic A, Roessner U, Persson S & Heazlewood J L. A Golgi UDP-GlcNAc transporter delivers substrates for N-linked glycans and sphingolipids. Nature plants2018, 792-801.

8. Zeng W, Ebert B, Parsons H, Rautengarten C, Bacic A, Heazlewood J. Enrichment of Golgi Membranes from Triticum aestivum (Wheat) Seedlings. Methods inMolecular Biology2017, 1511: 131-150.

9.Zeng W, Ford K, Bacic A, Heazlewood JL. N-linked Glycan Micro-heterogeneity in Glycoproteins of Arabidopsis.Molecular Cellular Proteomics2018,17:413-421.

10. Ford K,Zeng W, Heazlewood J, Bacic A. Characterization of protein n-glycosylation by tandem mass spectrometry using complementary fragmentation techniques.Frontiers in Plant Science2015, 6: A674.

11. Li L, Huang J, Qin L, Huang Y, Zeng W, Rao Y, Li J, Li X, Xu W. Two cotton fiber-associated glycosyltransferases, GhGT43a1 and GhGT43c1, function in hemicellulose glucuronoxylan biosynthesis during plant development.Physiologia Plantarum2014, 152: 367-379.

12. Song L,Zeng W, Wu AM, Picard K, Lampugnani ER, Cheetamun R, Beahan C, Cassin A, Lonsdale A, Doblin MS, Bacic A. Asparagus spears as a model to study heteroxylan biosynthesis during secondary wall development.PloS One2015, 10: e0123878.

13. Kuang B, Zhao X, Zhou C,Zeng W, Ren J, Ebert B, Beahan CT, Deng X, Zeng Q, Zhou G, Doblin M, Heazlewood J, Bacic A, Chen X, Wu AM. The role of UDP-glucuronic acid decarboxylase (UXS) in xylan biosynthesis in Arabidopsis. Molecular Plant2016, 9: 1119-1131.

14. Ford K, Chin T, Srivastava V,Zeng W, Doblin M, Bulone V, Bacic A. Comparative “Golgi” proteome study of Lolium multiflorum and Populus trichocarpa.Proteomes2016, 4: 23.