Your search keyword '"Ian Max Møller"' showing total 6 results

1. Mutations of the Genomes Uncoupled 4 Gene Cause ROS Accumulation and Repress Expression of Peroxidase Genes in Rice

Author

Rui-Qing Li, Meng Jiang, Jian-Zhong Huang, Ian Max Møller, and Qing-Yao Shu

Subjects

GUN4, reactive oxygen species, anti-oxidative response, peroxidase, rice, Plant culture, SB1-1110

Abstract

The Genomes Uncoupled 4 (GUN4) is one of the retrograde signaling genes in Arabidopsis and its orthologs have been identified in oxygenic phototrophic organisms from cyanobacterium to higher plants. GUN4 is involved in tetrapyrrole biosynthesis and its mutation often causes chlorophyll-deficient phenotypes with increased levels of reactive oxygen species (ROS), hence it has been speculated that GUN4 may also play a role in photoprotection. However, the biological mechanism leading to the increased ROS accumulation in gun4 mutants remains largely unknown. In our previous studies, we generated an epi-mutant allele of OsGUN4 (gun4epi), which downregulated its expression to ∼0.5% that of its wild-type (WT), and a complete knockout allele gun4-1 due to abolishment of its translation start site. In the present study, three types of F2 plant derived from a gun4-1/gun4epi cross, i.e., gun4-1/gun4-1, gun4-1/gun4epi and gun4epi/gun4epi were developed and used for further investigation by growing them under photoperiodic condition (16 h/8 h light/dark) with low light (LL, 100 μmol photons m–2 s–1) or high light (HL, 1000 μmol photons m–2 s–1). The expression of OsGUN4 was light responsive and had two peaks in the daytime. gun4-1/gun4-1-F2 seeds showed defective germination and died within 7 days. Significantly higher levels of ROS accumulated in all types of OsGUN4 mutants than in WT plants under both the LL and HL conditions. A comparative RNA-seq analysis of WT variety LTB and its gun4epi mutant HYB led to the identification of eight peroxidase (PRX)-encoding genes that were significantly downregulated in HYB. The transcription of these eight PRX genes was restored in transgenic HYB protoplasts overexpressing OsGUN4, while their expression was repressed in LTB protoplasts transformed with an OsGUN4 silencing vector. We conclude that OsGUN4 is indispensable for rice, its expression is light- and oxidative-stress responsive, and it plays a role in ROS accumulation via its involvement in the transcriptional regulation of PRX genes.

Published

2021

2. Evaluation of sample preparation methods for mass spectrometry-based proteomic analysis of barley leaves

Author

Wei-Qing Wang, Ole Nørregaard Jensen, Ian Max Møller, Kim H. Hebelstrup, and Adelina Rogowska-Wrzesinska

Subjects

Barley, Hordeum vulgare, In solution digestion, Mass spectrometry, Sodium deoxycholate, Sample preparation, Plant culture, SB1-1110, Biology (General), QH301-705.5

Abstract

Abstract Background Sample preparation is a critical process for proteomic studies. Many efficient and reproducible sample preparation methods have been developed for mass spectrometry-based proteomic analysis of human and animal tissues or cells, but no attempt has been made to evaluate these protocols for plants. We here present an LC–MS/MS-based proteomics study of barley leaf aimed at optimization of methods to achieve efficient and unbiased trypsin digestion of proteins prior to LC–MS/MS based sequencing and quantification of peptides. We evaluated two spin filter-aided sample preparation protocols using either sodium dodecyl-sulphate or sodium deoxycholate (SDC), and three in-solution digestion (ISD) protocols using SDC or trichloroacetic acid/acetone precipitation. Results The proteomics workflow identified and quantified up to 1800 barley proteins based on sequencing of up to 6900 peptides per sample. The two spin filter-based protocols provided a 12–38% higher efficiency than the ISD protocols, including more proteins of low abundance. Among the ISD protocols, a simple one-step reduction and S-alkylation method (OP-ISD) was the most efficient for barley leaf sample preparation; it identified and quantified 1500 proteins and displayed higher peptide-to-protein inference ratio and higher average amino acid sequence coverage of proteins. The two spin filter-aided sample preparation protocols are compatible with TMT labelling for quantitative proteomics studies. They exhibited complementary performance as about 30% of the proteins were identified by either one or the other protocol, but also demonstrated a positive bias for membrane proteins when using SDC as detergent. Conclusions We provide detailed protocols for efficient plant protein sample preparation for LC–MS/MS-based proteomics studies. Spin filter-based protocols are the most efficient for the preparation of leaf samples for MS-based proteomics. However, a simple protocol provides comparable results although with different peptide digestion profile.

Published

2018

3. A Suppressor Mutation Partially Reverts the xantha Trait via Lowered Methylation in the Promoter of Genomes Uncoupled 4 in Rice

Author

Meng Jiang, Yanhua Liu, Ruiqing Li, Yunchao Zheng, Haowei Fu, Yuanyuan Tan, Ian Max Møller, Longjiang Fan, Qingyao Shu, and Jianzhong Huang

Subjects

chlorophyll, DNA methylation, epigenetics, genomes uncoupled 4, photosynthesis, tetrapyrrole, Plant culture, SB1-1110

Abstract

The xantha trait of a yellow leaf rice mutant (HYB), controlled epigenetically by elevated CHG methylation of the genomes uncoupled 4 (OsGUN4) promoter, has reduced chlorophyll content, altered tetrapyrrole biosynthesis, and deregulated transcription of photosynthesis-associated nuclear genes (PhANGs) compared to its wild-type progenitor Longtefu B (LTB). In the present study, we identified a suppressor mutant (CYB) of HYB and characterized its genetic, molecular, and physiological basis of the mutant phenotype. We found that the light-green phenotype of CYB was caused by a suppressor mutation in an unknown gene other than OsGUN4. Compared to HYB, the CHG methylation in the OsGUN4 promoter was reduced, while OsGUN4 transcript and protein abundance levels were increased in CYB. The contents of total chlorophyll and its intermediate metabolites (except protoporphyrin IX) in CYB plants were intermediate between HYB and LTB. The expression levels of 30 genes involved in tetrapyrrole biosynthesis in CYB were all partially reverted to those of LTB, so were the PhANGs. In summary, a suppressor mutation caused the reversion of the xantha trait via reducing CHG methylation in OsGUN4 promoter.

Published

2019

4. Biochemistry, proteomics and phosphoproteomics of plant mitochondria from non-photosynthetic cells

Author

Jesper Foged Havelund, Jay eThelen, and Ian Max Møller

Subjects

Plant mitochondria, Protein phosphorylation, plant proteomics, Post translational Modifications (PTM), Mitochondrial biochemistry, Plant culture, SB1-1110

Abstract

Mitochondria fulfill some basic roles in all plant cells. They supply the cell with energy in the form of ATP and reducing equivalents (NAD(P)H) and they provide the cell with intermediates for a range of biosynthetic pathways. In addition to this, mitochondria contribute to a number of specialized functions depending on the tissue and cell type, as well as environmental conditions. We will here review the biochemistry and proteomics of mitochondria from non-green cells and organs, which differ from those of photosynthetic organs in a number of respects. We will briefly cover purification of mitochondria and general biochemical properties such as oxidative phosphorylation. We will then mention a few adaptive properties in response to water stress, seed maturation and germination and the ability to function under hypoxic conditions. The discussion will mainly focus on Arabidopsis cell cultures, etiolated germinating rice seedlings and potato tubers as model plants. It will cover the general proteome as well as the posttranslational modification protein phosphorylation. To date 64 phosphorylated mitochondrial proteins with a total of 103 phosphorylation sites have been identified.

Published

2013

5. Intracellular signalling by diffusion: Can waves of hydrogen peroxide transmit intracellular information in plant cells?

Author

Christian L. Vestergaard, Henrik eFlyvbjerg, and Ian Max Møller

Subjects

Diffusion, Hydrogen Peroxide, Plant Cells, modelling, intracellular signalling, waves, Plant culture, SB1-1110

Abstract

Amplitude- and frequency-modulated waves of Ca2+ ions transmit information inside cells. Reactive Oxygen Species, specifically hydrogen peroxide, have been proposed a similar role in plant cells. We consider the feasibility of such an intracellular communication system in view of the physical and biochemical conditions in plant cells. As model system, we use a H2O2 signal originating at the plasma membrane and spreading through the cytosol.We consider two maximally simple types of signals, isolated pulses and harmonic oscillations. First we consider the basic limits on such signals as regards signal origin, frequency, amplitude, and distance. Then we establish the impact of ROS-removing enzymes on the ability of H2O2 to transmit signals. Finally, we consider to what extent cytoplasmic streaming distorts signals. This modelling allows us to predict the conditions under which diffusion-mediated signalling is possible.We show that purely diffusive transmission of intracellular information by H2O2 over a distance of 1 µm (typical distance between organelles, which may function as relay stations) is possible at frequencies well above 1 Hz, which is the highest frequency observed experimentally. This allows both frequency and amplitude modulation of the signal. Signalling over a distance of 10 µm (typical distance between the plasma membrane and the nucleus) may be possible, but requires high signal amplitudes or, equivalently, a very low detection threshold. Furthermore, at this longer distance a high level of enzymatic degradation is required make signalling at frequencies above 0.1 Hz possible. In either case, cytoplasmic streaming does not seriously disturb signals. We conclude that although purely diffusion-mediated signalling without relaying stations is theoretically possible, it is unlikely to work in practice, since it requires a much faster enzymatic degradation and a much lower cellular background concentration of H2O2 than observed experimentally.

Published

2012

6. Proteomic analysis reveals different involvement of embryo and endosperm proteins during ageing of Yliangyou 2 hybrid rice seeds

Author

Ying-Xue Zhang, Heng-Heng Xu, Shu-Jun Liu, Ni Li, Wei-Qing Wang, Ian Max Moller, and Song-Quan Song

Subjects

Endosperm, Proteome, embryo, seed ageing, Yliangyou 2 hybrid rice, Plant culture, SB1-1110

Abstract

Seed ageing is a process that results in a delayed germination, a decreased germination percentage, and finally a total loss of seed viability. However, the mechanism of seed ageing is poorly understood. In the present study, Yliangyou 2 hybrid rice (Oryza sativa L.) seeds were artificially aged at 100% relative humidity and 40°C, and the effect of artificial ageing on germination, germination time course and the change in protein profiles of embryo and endosperm was studied to understand the molecular mechanism behind seed ageing. With an increasing duration of artificial ageing, the germination percentage and germination rate of hybrid rice seeds decreased. By comparing the protein profiles from the seeds aged for 0, 10 and 25 d, a total of 91 and 100 protein spots were found to show a significant change of more than 2-fold (P

Published

2016