Comparative Label-Free Quantitative Proteomics Analysis Reveals the Essential Roles of N-Glycans in Salt Tolerance by Modulating Protein Abundance in Arabidopsis., Liu C, Niu G, Li X, Zhang H, Chen H, Hou D, Lan P, Hong Z*, 2021
N-glycosylation regulates photosynthetic efficiency of Arabidopsis thaliana., Jiao Q, Niu G, Wang F, Dong J, Chen T, Zhou C, Hong Z*, 2020
N-glycosylation is involved in stomatal development by modulating the release of active abscisic acid and auxin in Arabidopsis., Jiao Q, Chen T, Niu G, Zhang H, Zhou C, Hong Z*, 2020
Multiple N-glycans cooperate in balancing misfolded BRI1 secretion and ER retention., Chen T, Zhang H, Niu G, Zhang S, Hong Z*, 2020
Comparative and evolutionary analyses of the divergence of plant oligosaccharyltransferase STT3 isoforms., Niu G, Shao Z, Liu C, Chen T, Jiao Q, Hong Z*, 2020
The Evolutionarily Conserved Serine Residues in BRI1 LRR Motifs Are Critical for Protein Secretion., Chen T, Wang B, Wang F, Niu G, Zhang S, Li J, Hong Z*, 2020
Plant-derived RNAi therapeutics: A strategic inhibitor of HBsAg., Zhang S, Sang X, Hou D, Chen J, Gu H, Zhang Y, Li J, Yang D, Zhu H, Yang X, Wang F, Zhang C, Chen X, Zen K, Zhang CY*, Hong Z*, 2019
The potential atheroprotective role of plant MIR156a as a repressor of monocyte recruitment on inflamed human endothelial cells., Hou D, He F, Ma L, Cao M, Zhou Z, Wei Z, Xue Y, Sang X, Chong H, Tian C, Zheng S, Li J, Zen K, Chen X, Hong Z*, Zhang CY*, Jiang X*, 2018
Trimming of N-glycans by the Golgi α-1,2 Mannosidases MNS1 and MNS2 is Crucial for Maintaining RSW2 Protein Abundance during Salt Stress in Arabidopsis., Liu C, Niu G, Zhang H, Sun Y, Sun S, Yu F, Lu S, Yang Y, Li J* and Hong Z*, 2018
A low degenerate primer pool improved the efficiency of high-efficiency thermal asymmetric interlaced PCR to amplify T-DNA flanking sequences in Arabidopsis thaliana., Zhang H, Xu W, Feng Z*, Hong Z*, 2018
Mobile RNAs—the magical elf traveling between plant and the associated organisms., Zhang S and Hong Z*, 2018
The LIKE SEX FOUR2 regulates root development by modulating reactive oxygen species homeostasis in Arabidopsis., Zhao P, Sokolov LN, Ye J, Tang CY, Shi J, Zhen Y, Lan W, Hong Z, Qi J, Lu GH, Pandey GK, Yang YH, 2016
植物生物反应器制药的现状及展望, 陈金梅,姜路壹,洪治*, 2015
Two conserved oligosaccharyltransferase catalytic subunits required for N-glycosylation exist in Spartina alterniflora., Jiang L, Zhu X, Chen J, Yang D, Zhou C, Hong Z*, 2015
Evolutionarily conserved glycan signal to degrade aberrant brassinosteroid receptors in Arabidopsis., Hong Z*, Kajiura H, Su W, Jin H, Kimura A, Fujiyama K, Li J*, 2012
The Arabidopsis homolog of the mammalian OS-9 protein plays a key role in the endoplasmic reticulum-associated degradation of misfolded receptor-like kinases., Su W, Liu Y, Xia Y, Hong Z, Li J*, 2012
Beyond nutrients: food-derived microRNAs provide cross-kingdom regulation., Jiang M, Sang X, Hong Z*, 2012
Conserved endoplasmic reticulum-associated degradation system to eliminate mutated receptor-like kinases in Arabidopsis., Su W, Liu Y, Xia Y, Hong Z, Li J, 2011
Mutations of an alpha1,6 mannosyltransferase inhibit endoplasmic reticulum-associated degradation of defective brassinosteroid receptors in Arabidopsis., Hong Z, Jin H, Fitchette AC, Xia Y, Monk AM, Faye L, Li J*, 2009
A plant-specific calreticulin is a key retention factor for a defective brassinosteroid receptor in the endoplasmic reticulum., Jin H, Hong Z, Su W, Li J*, 2009
Multiple mechanism-mediated retention of a defective brassinosteroid receptor in the endoplasmic reticulum of Arabidopsis., Hong Z, Jin H, Tzfira T, Li J*, 2008
The role of OsBRI1 and its homologous genes, OsBRL1 and OsBRL3, in rice., Nakamura A, Fujioka S, Sunohara H, Kamiya N, Hong Z, Inukai Y, Miura K, Takatsuto S, Yoshida S, Ueguchi-Tanaka M, Hasegawa Y, Kitano H, Matsuoka M*, 2006
The Rice brassinosteroid-deficient dwarf2 mutant, defective in the rice homolog of Arabidopsis DIMINUTO/DWARF1, is rescued by the endogenously accumulated alternative bioactive brassinosteroid, dolichosterone., Hong Z, Ueguchi-Tanaka M, Fujioka S, Takatsuto S, Yoshida S, Hasegawa Y, Ashikari M, Kitano H, Matsuoka M*, 2005
A rice brassinosteroid-deficient mutant, ebisu dwarf (d2), is caused by a loss of function of a new member of cytochrome P450., Hong Z, Ueguchi-Tanaka M, Umemura K, Uozu S, Fujioka S, Takatsuto S, Yoshida S, Ashikari M, Kitano H, Matsuoka M*, 2003
Loss-of-function of a rice brassinosteroid biosynthetic enzyme, C-6 oxidase, prevents the organized arrangement and polar elongation of cells in the leaves and stem., Hong Z, Ueguchi-Tanaka M, Shimizu-Sato S, Inukai Y, Fujioka S, Shimada Y, Takatsuto S, Agetsuma M, Yoshida S, Watanabe Y, Uozu S, Kitano H, Ashikari M, Matsuoka M*, 2002
