Your search keyword '"Hailei Zheng"' showing total 8 results

1. A comparison of 25 complete chloroplast genomes between sister mangrove species Kandelia obovata and Kandelia candel geographically separated by the South China Sea

Author

Xiuming Xu, Yingjia Shen, Yuchen Zhang, Qianying Li, Wenqing Wang, Luzhen Chen, Guangcheng Chen, Wei Lun Ng, Md Nazrul Islam, Porntep Punnarak, Hailei Zheng, and Xueyi Zhu

Subjects

mangrove, Kandelia, chloroplast genome, gene diversity, protein dynamics simulation, environment adaptation, Plant culture, SB1-1110

Abstract

In 2003, Kandelia obovata was identified as a new mangrove species differentiated from Kandelia candel. However, little is known about their chloroplast (cp) genome differences and their possible ecological significance. In this study, 25 whole cp genomes, with seven samples of K. candel from Malaysia, Thailand, and Bangladesh and 18 samples of K. obovata from China, were sequenced for comparison. The cp genomes of both species encoded 128 genes, namely 83 protein-coding genes, 37 tRNA genes, and eight rRNA genes, but the cp genome size of K. obovata was ~2 kb larger than that of K. candle due to the presence of more and longer repeat sequences. Of these, tandem repeats and simple sequence repeats exhibited great differences. Principal component analysis based on indels, and phylogenetic tree analyses constructed with homologous protein genes from the single-copy genes, as well as 38 homologous pair genes among 13 mangrove species, gave strong support to the separation of the two species within the Kandelia genus. Homologous genes ndhD and atpA showed intraspecific consistency and interspecific differences. Molecular dynamics simulations of their corresponding proteins, NAD(P)H dehydrogenase chain 4 (NDH-D) and ATP synthase subunit alpha (ATP-A), predicted them to be significantly different in the functions of photosynthetic electron transport and ATP generation in the two species. These results suggest that the energy requirement was a pivotal factor in their adaptation to differential environments geographically separated by the South China Sea. Our results also provide clues for future research on their physiological and molecular adaptation mechanisms to light and temperature.

Published

2023

2. Illumina sequencing of complete chloroplast genome of Avicennia marina, a pioneer mangrove species

Author

Huan Li, Dongna Ma, Jing Li, Mingyue Wei, Hailei Zheng, and Xueyi Zhu

Subjects

avicennia marina, mangrove, chloroplast genome, illumina sequencing, phylogenetic analysis, Genetics, QH426-470

Abstract

Mangrove tree Avicenna marina has great ecological significance in maintaining coastal ecosystem, but its unique potential for gene functions and genetic diversity underlying ecological adaptation remains investigation. In this study, the chloroplast genome of A. marina was first characterized by sequencing chloroplast DNA with Illumina technology. The A. marina genome was 147,909 bp in size with a typical quadripartite structure, which was deposited in GenBank under the accession number MT108381.

Published

2020

3. A combined proteomic and transcriptomic analysis on sulfur metabolism pathways of Arabidopsis thaliana under simulated acid rain.

Author

Tingwu Liu, Juan A Chen, Wenhua Wang, Martin Simon, Feihua Wu, Wenjun Hu, Juan B Chen, and Hailei Zheng

Subjects

Medicine, Science

Abstract

With rapid economic development, most regions in southern China have suffered acid rain (AR) pollution. In our study, we analyzed the changes in sulfur metabolism in Arabidopsis under simulated AR stress which provide one of the first case studies, in which the systematic responses in sulfur metabolism were characterized by high-throughput methods at different levels including proteomic, genomic and physiological approaches. Generally, we found that all of the processes related to sulfur metabolism responded to AR stress, including sulfur uptake, activation and also synthesis of sulfur-containing amino acid and other secondary metabolites. Finally, we provided a catalogue of the detected sulfur metabolic changes and reconstructed the coordinating network of their mutual influences. This study can help us to understand the mechanisms of plants to adapt to AR stress.

Published

2014

4. Exogenous calcium regulates the growth and development of Pinus massoniana detecting by physiological, proteomic, and calcium-related genes expression analysis

Author

Wenjun Hu, Jiyun Liu, Tingwu Liu, Chunquan Zhu, Feihua Wu, Chenkai Jiang, Qian Wu, Lin Chen, Hongling Lu, Guoxin Shen, and Hailei Zheng

Subjects

Physiology, Genetics, Plant Science

Published

2023

5. Exogenous calcium regulates the growth and development of Pinus massoniana detecting by physiological, proteomic, and calcium-related genes expression analysis

Author

Jiyun Liu, WenJun Hu, Tingwu Liu, ChunQuan Zhu, Chenkai Jiang, Qian Wu, Lin Chen, Hongling Lu, Guoxin Shen, and Hailei Zheng

Abstract

In the presented study, a combined physiology, proteomics and gene expression study was performed using P. massoniana seedlings cultivated at various calcium levels. The aim of the study is to investigate the impacts of exogenous calcium on P. massoniana seedling growth and development and to reveal the underlying molecular mechanisms. The results showed that calcium deficiency lead to severe seedling growth and development inhibition while adequate exogenous calcium markedly improved the growth and development. The underlying mechanisms involved diverse calcium influenced biological processes and metabolism pathways including photosynthesis, carbohydrate metabolism and energy production, protein metabolism, secondary metabolism and calcium signal transduction and calcium ion homeostasis. In general, calcium deficiency inhibited or impaired these pathways and processes, while sufficient exogenous calcium improved and benefited these cellular events through regulating a number of related enzymes and proteins. Besides, adequate exogenous calcium supply relieved oxidation stress which occurred at low calcium level. Enhanced cell wall formation and consolidation and cell division also play a role in exogenous calcium improved P. massoniana seedling growth and development. Our study facilitates the elucidation of the potential regulatory role of calcium in P. massoniana physiology and biology and is of guiding significance in pinaceae plants forestry.

Published

2022

6. Coordinated pattern of multiple element variability in Aegiceras corniculatum propagule in shrimp aquaculture effluent habitats

Author

Yingying Qin, Mingzhong Liang, Bingbin Feng, and Hailei Zheng

Subjects

Environmental Engineering, Crustacea, Environmental Chemistry, Animals, Aquaculture, Estuaries, Pollution, Waste Management and Disposal, Ecosystem, Primulaceae

Abstract

Human activities and environment changes have changed river estuary ecosystems, which impacts element changes in coastal sediments and mangroves. Mangrove propagule chemical traits showed a systematic shift along environmental gradients. But knowledge about how the pattern of multi-element variability is coordinated in propagule remains limited, and the conservation of macro and trace elements in propagules is also unknown. In this study, the concentrations, variability and coordinated pattern variation of 13 elements in Aegiceras corniculatum propagule across shrimp aquaculture effluent habitats, as well as the relationship between propagule element and environment factors were explored. We used CV to quantify the variability of each element, and then explore the pattern of multi-element variability. The results showed that: (1) in the habitats affected by shrimp aquaculture, the elements content shows: CKClNNaPSMgCaFeMnZnCu, and the coefficient variation shows: MnCuFeZnSNPClNaKMgCaC, which means that the element concentration are negatively correlated with the element variability and the variability of macro-elements was more conservative than micro-elements in these habitats; (2) pH, OM, C:P, and SiO

Published

2022

7. Nitric Oxide Alleviates Oxidative Stress Caused by Lanthanum in Rice Leaves

Author

Qiang, Xiao, Qiaomei, Ru, Feihua, Wu, Xuan, Huang, Zhenming, Pei, and Hailei, Zheng

Published

2007

8. Coupling Diurnal Cytosolic Ca2+ Oscillations to the CAS--IP3 Pathway in Arabidopsis.

Author

Ru-Hang Tang, Shengcheng Han, Hailei Zheng, Cook, Charles W., Choi, Christopher S., Woerner, Todd E., Jackson, Robert B., and Zhen-Ming Pei

Subjects

*CALCIUM ions, *ARABIDOPSIS thaliana, *PLANTS, *OSCILLATIONS, *CALCIUM in soils, *PLANT cells & tissues, *CALCIUM, *AMPLITUDE modulation, *CELLS

Abstract

Various signaling pathways rely on changes in cytosolic calcium ion concentration ([Ca2+]i). In plants, resting [Ca2+]i oscillates diurnally. We show that in Arabidopsis thaliana, [Ca2+]i oscillations are synchronized to extracellular Ca2+ concentration ([Ca2+]o) oscillations largely through the Ca2+-sensing receptor CAS. CAS regulates concentrations of inositol 1,4,5-trisphosphate (IP3), which in turn directs release of Ca2+ from internal stores. The oscillating amplitudes of [Ca2+]o and [Ca2+]i are controlled by soil Ca2+ concentrations and transpiration rates. The phase and period of oscillations are likely determined by stomatal conductance. Thus, the internal concentration of Ca2+ in plant cells is constantly being actively revised. [ABSTRACT FROM AUTHOR]

Published

2007