Xian Sheng Zhang

Overview

Explore the profile of Xian Sheng Zhang including associated specialties, affiliations and a list of published articles.

Snapshot

Articles 85

Citations 1816

Followers 0

Related Specialties

Biology

Science

Cell Biology

Top 10 Co-Authors

Ying Hua Su

Xiang Yu Zhao

Xin-Qi Gao

Zhi Juan Cheng

Ya Lin Sang

Fang Wang

Li Ping Tang

Xiao Min Bie

Ya Jie Zhao

Jia Wen Wu

Published In

Front Plant Sci

Plant Physiol

Planta

Plant Cell Rep

J Exp Bot

Affiliations

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Recent Articles

Polymerization of beneficial plant height QTLs to develop superior lines which can achieving hybrid performance levels

Kang C, Zhang L, Hao Y, Sun M, Li M, Tian Z, et al.

Mol Breed . 2025 Feb; 45(2):26. PMID: 39959602

Supplementary Information: The online version contains supplementary material available at 10.1007/s11032-025-01546-4.

Impact of mtDNA-encoded proteins arising from cytosolic translation (mPACT)

Yang L, Huang Y, Ding Y, Hu Z, Zhang X, Su Y, et al.

Sci Bull (Beijing) . 2024 Oct; 69(23):3648-3651. PMID: 39419670

No abstract available.

N6-methyladenosine transcriptome-wide profiles of maize kernel development

Wu J, Zheng G, Zhang L, Zhao Y, Yan R, Ren R, et al.

Plant Physiol . 2024 Sep; 196(4):2476-2489. PMID: 39222356

Maize (Zea mays L.) kernel development is a complex and dynamic process involving cell division and differentiation, into a variety of cell types. Epigenetic modifications, including DNA methylation, play a...

Wu J, Wang X, Yan R, Zheng G, Zhang L, Wang Y, et al.

BMC Plant Biol . 2024 May; 24(1):458. PMID: 38797860

Background: The endosperm serves as the primary source of nutrients for maize (Zea mays L.) kernel embryo development and germination. Positioned at the base of the endosperm, the transfer cells...

A WRI1-dependent module is essential for the accumulation of auxin and lipid in somatic embryogenesis of Arabidopsis thaliana

Zhang W, Tang L, Peng J, Zhai L, Ma Q, Zhang X, et al.

New Phytol . 2024 Mar; 242(3):1098-1112. PMID: 38515249

The potential for totipotency exists in all plant cells; however, the underlying mechanisms remain largely unknown. Earlier findings have revealed that the overexpression of LEAFY COTYLEDON 2 (LEC2) can directly...

Maize requires arogenate dehydratase 2 for resistance to Ustilago maydis and plant development

Ren R, Kong L, Zheng G, Zhao Y, Jiang X, Wu J, et al.

Plant Physiol . 2024 Mar; 195(2):1642-1659. PMID: 38431524

Maize (Zea mays) smut is a common biotrophic fungal disease caused by Ustilago maydis and leads to low maize yield. Maize resistance to U. maydis is a quantitative trait. However,...

Author Correction: Uncovering the transcriptional regulatory network involved in boosting wheat regeneration and transformation

Liu X, Bie X, Lin X, Li M, Wang H, Zhang X, et al.

Nat Plants . 2024 Jan; 10(1):194. PMID: 38182751

No abstract available.

Application of in transformation of recalcitrant maize genotypes

Liu Q, Zhang X, Su Y

aBIOTECH . 2023 Dec; 4(4):386-388. PMID: 38106431

The genetic transformation plays an important role in plant gene functional analysis and its genetic improvement. However, only a limited number of maize germplasms can be routinely transformed. The maize...

Enhancing wheat regeneration and genetic transformation through overexpression of TaLAX1

Yu Y, Yu H, Peng J, Yao W, Wang Y, Zhang F, et al.

Plant Commun . 2023 Oct; 5(5):100738. PMID: 37897039

In the realm of genetically transformed crops, the process of plant regeneration holds utmost significance. However, the low regeneration efficiency of several wheat varieties currently restricts the use of genetic...

10.

The RPT2a-MET1 axis regulates TERMINAL FLOWER1 to control inflorescence meristem indeterminacy in Arabidopsis

Yao W, Wang Y, Peng J, Yin P, Gao H, Xu L, et al.

Plant Cell . 2023 Oct; 36(5):1718-1735. PMID: 37795677

Plant inflorescence architecture is determined by inflorescence meristem (IM) activity and controlled by genetic mechanisms associated with environmental factors. In Arabidopsis (Arabidopsis thaliana), TERMINAL FLOWER1 (TFL1) is expressed in the...