Your search keyword '"Guoqiang Huang"' showing total 11 results

1. Structure of the red-shifted Fittonia albivenis photosystem I

Author

Xiuxiu Li, Guoqiang Huang, Lixia Zhu, Chenyang Hao, Sen-Fang Sui, and Xiaochun Qin

Subjects

Science

Abstract

Abstract Photosystem I (PSI) from Fittonia albivenis, an Acanthaceae ornamental plant, is notable among green plants for its red-shifted emission spectrum. Here, we solved the structure of a PSI–light harvesting complex I (LHCI) supercomplex from F. albivenis at 2.46-Å resolution using cryo-electron microscopy. The supercomplex contains a core complex of 14 subunits and an LHCI belt with four antenna subunits (Lhca1–4) similar to previously reported angiosperm PSI–LHCI structures; however, Lhca3 differs in three regions surrounding a dimer of low-energy chlorophylls (Chls) termed red Chls, which absorb far-red beyond visible light. The unique amino acid sequences within these regions are exclusively shared by plants with strongly red-shifted fluorescence emission, suggesting candidate structural elements for regulating the energy state of red Chls. These results provide a structural basis for unraveling the mechanisms of light harvest and transfer in PSI–LHCI of under canopy plants and for designing Lhc to harness longer-wavelength light in the far-red spectral range.

Published

2024

2. Transfer learning enables identification of multiple types of RNA modifications using nanopore direct RNA sequencing

Author

You Wu, Wenna Shao, Mengxiao Yan, Yuqin Wang, Pengfei Xu, Guoqiang Huang, Xiaofei Li, Brian D. Gregory, Jun Yang, Hongxia Wang, and Xiang Yu

Subjects

Science

Abstract

Abstract Nanopore direct RNA sequencing (DRS) has emerged as a powerful tool for RNA modification identification. However, concurrently detecting multiple types of modifications in a single DRS sample remains a challenge. Here, we develop TandemMod, a transferable deep learning framework capable of detecting multiple types of RNA modifications in single DRS data. To train high-performance TandemMod models, we generate in vitro epitranscriptome datasets from cDNA libraries, containing thousands of transcripts labeled with various types of RNA modifications. We validate the performance of TandemMod on both in vitro transcripts and in vivo human cell lines, confirming its high accuracy for profiling m6A and m5C modification sites. Furthermore, we perform transfer learning for identifying other modifications such as m7G, Ψ, and inosine, significantly reducing training data size and running time without compromising performance. Finally, we apply TandemMod to identify 3 types of RNA modifications in rice grown in different environments, demonstrating its applicability across species and conditions. In summary, we provide a resource with ground-truth labels that can serve as benchmark datasets for nanopore-based modification identification methods, and TandemMod for identifying diverse RNA modifications using a single DRS sample.

Published

2024

3. Chromosomal-level genome assembly and annotation of the tropical sea cucumber Holothuria scabra

Author

Shengping Zhong, Xujia Liu, Xiaowan Ma, Xiuli Chen, Yan Jiang, Mengqing Zeng, Longyan Zhao, Lianghua Huang, Guoqiang Huang, Yongzhen Zhao, Hongtao Liu, and Ying Qiao

Subjects

Science

Abstract

Abstract Holothuria scabra, a commercially valuable yet ecologically vulnerable tropical holothuroid, has experienced a severe decline in its wild populations, especially in China. Genomic resources are crucial for the development of effective genomic breeding projects and stock conservation strategies to restore these natural populations. Until now, a high-quality, chromosome-level reference genome for H. scabra has not been available. Here, we employed Oxford Nanopore and Hi-C sequencing technologies to assemble and annotate a high-quality, chromosome-level reference genome of H. scabra. The final genome comprised 31 scaffolds with a total length of 1.19 Gb and a scaffold N50 length of 53.52 Mb. Remarkably, 1,191.67 Mb (99.95%) of the sequences were anchored to 23 pseudo-chromosomes, with the longest one spanning 79.75 Mb. A total of 34,418 protein-coding genes were annotated in the final genome, with BUSCO analysis revealing 98.01% coverage of metazoa_odb10 genes, marking a significant improvement compared to the previous report. These chromosome-level sequences and annotations will provide an essential genomic basis for further investigation into molecular breeding and conservation management of H. scabra.

Published

2024

4. Silencing Ditylenchus destructor cathepsin L-like cysteine protease has negative pleiotropic effect on nematode ontogenesis

Author

Guoqiang Huang, Ziwen Cong, Zhonglin Liu, Feng Chen, Alejandra Bravo, Mario Soberón, Jinshui Zheng, Donghai Peng, and Ming Sun

Subjects

Medicine, Science

Abstract

Abstract Ditylenchus destructor is a migratory plant-parasitic nematode that severely harms many agriculturally important crops. The control of this pest is difficult, thus efficient strategies for its management in agricultural production are urgently required. Cathepsin L-like cysteine protease (CPL) is one important protease that has been shown to participate in various physiological and pathological processes. Here we decided to characterize the CPL gene (Dd-cpl-1) from D. destructor. Analysis of Dd-cpl-1 gene showed that Dd-cpl-1 gene contains a signal peptide, an I29 inhibitor domain with ERFNIN and GNFD motifs, and a peptidase C1 domain with four conserved active residues, showing evolutionary conservation with other nematode CPLs. RT-qPCR revealed that Dd-cpl-1 gene displayed high expression in third-stage juveniles (J3s) and female adults. In situ hybridization analysis demonstrated that Dd-cpl-1 was expressed in the digestive system and reproductive organs. Silencing Dd-cpl-1 in 1-cell stage eggs of D. destructor by RNAi resulted in a severely delay in development or even in abortive morphogenesis during embryogenesis. The RNAi-mediated silencing of Dd-cpl-1 in J2s and J3s resulted in a developmental arrest phenotype in J3 stage. In addition, silencing Dd-cpl-1 gene expression in female adults led to a 57.43% decrease in egg production. Finally, Dd-cpl-1 RNAi-treated nematodes showed a significant reduction in host colonization and infection. Overall, our results indicate that Dd-CPL-1 plays multiple roles in D. destructor ontogenesis and could serve as a new potential target for controlling D. destructor.

Published

2024

5. Structure of the Acidobacteria homodimeric reaction center bound with cytochrome c

Author

Shishang Dong, Guoqiang Huang, Changhui Wang, Jiajia Wang, Sen-Fang Sui, and Xiaochun Qin

Subjects

Science

Abstract

During photosynthesis, light energy is harvested by an antenna systems and delivered to the reaction centers (RCs) for charge separation and electron transfer (ET). The authors report cryo-EM structures of two forms of RC from the microaerophilic Chloracidobacterium thermophilum (CabRC), providing a structural basis for ET within the CabRC.

Published

2022

6. Imaging biological tissue with high-throughput single-pixel compressive holography

Author

Daixuan Wu, Jiawei Luo, Guoqiang Huang, Yuanhua Feng, Xiaohua Feng, Runsen Zhang, Yuecheng Shen, and Zhaohui Li

Subjects

Science

Abstract

Single-pixel holography generates holographic images with a single-pixel detector making this relatively inexpensive. Here the authors report a high-throughput single-pixel compressive holography method for imaging biological tissue which can either provide a large field of view or high resolution.

Published

2021

7. Structural basis for energy transfer in a huge diatom PSI-FCPI supercomplex

Author

Caizhe Xu, Xiong Pi, Yawen Huang, Guangye Han, Xiaobo Chen, Xiaochun Qin, Guoqiang Huang, Songhao Zhao, Yanyan Yang, Tingyun Kuang, Wenda Wang, Sen-Fang Sui, and Jian-Ren Shen

Subjects

Science

Abstract

Diatoms are marine algae with an important role in global photosynthetic carbon fixation. Here, the authors present the 2.38 Å cryo-EM structure of photosystem I (PSI) in complex with its 24 fucoxanthin chlorophyll a/c-binding (FCPI) antenna proteins from the diatom Chaetoceros gracilis, which provides mechanistic insights into light-energy harvesting, transfer and quenching of the PSI-FCPI supercomplex.

Published

2020

8. Rice actin binding protein RMD controls crown root angle in response to external phosphate

Author

Guoqiang Huang, Wanqi Liang, Craig J. Sturrock, Bipin K. Pandey, Jitender Giri, Stefan Mairhofer, Daoyang Wang, Lukas Muller, Hexin Tan, Larry M. York, Jing Yang, Yu Song, Yu-Jin Kim, Yang Qiao, Jian Xu, Stefan Kepinski, Malcolm J. Bennett, and Dabing Zhang

Subjects

Science

Abstract

The orientation of plant roots responds to gravity and influences nutrient acquisition. Here the authors show that the formin RMD buffers movement of specialized gravity-sensing organelles and report enhanced RMD expression during phosphate deficiency that could alter root angle to improve phosphate uptake.

Published

2018

9. Rice auxin influx carrier OsAUX1 facilitates root hair elongation in response to low external phosphate

Author

Jitender Giri, Rahul Bhosale, Guoqiang Huang, Bipin K. Pandey, Helen Parker, Susan Zappala, Jing Yang, Anne Dievart, Charlotte Bureau, Karin Ljung, Adam Price, Terry Rose, Antoine Larrieu, Stefan Mairhofer, Craig J. Sturrock, Philip White, Lionel Dupuy, Malcolm Hawkesford, Christophe Perin, Wanqi Liang, Benjamin Peret, Charlie T. Hodgman, Jonathan Lynch, Matthias Wissuwa, Dabing Zhang, Tony Pridmore, Sacha J. Mooney, Emmanuel Guiderdoni, Ranjan Swarup, and Malcolm J. Bennett

Subjects

Science

Abstract

Plant root architecture can adapt to different nutrient conditions in the soil. Here Giri et al. show that the rice auxin influx carrier AUX1 mobilizes auxin from the root apex to the differentiation zone and promotes root hair elongation when roots encounter low external phosphate.

Published

2018

10. Author Correction: Rice auxin influx carrier OsAUX1 facilitates root hair elongation in response to low external phosphate

Author

Jitender Giri, Rahul Bhosale, Guoqiang Huang, Bipin K. Pandey, Helen Parker, Susan Zappala, Jing Yang, Anne Dievart, Charlotte Bureau, Karin Ljung, Adam Price, Terry Rose, Antoine Larrieu, Stefan Mairhofer, Craig J. Sturrock, Philip White, Lionel Dupuy, Malcolm Hawkesford, Christophe Perin, Wanqi Liang, Benjamin Peret, Charlie T. Hodgman, Jonathan Lynch, Matthias Wissuwa, Dabing Zhang, Tony Pridmore, Sacha J. Mooney, Emmanuel Guiderdoni, Ranjan Swarup, and Malcolm J. Bennett

Subjects

Science

Abstract

The original version of this Article omitted the following from the Acknowledgements:‘We also thank DBT-CREST BT/HRD/03/01/2002.’This has been corrected in both the PDF and HTML versions of the Article.

Published

2018

11. Structural basis for energy transfer in a huge diatom PSI-FCPI supercomplex

Author

Yawen Huang, Tingyun Kuang, Wenda Wang, Guangye Han, Caizhe Xu, Xiao-Bo Chen, Sen-Fang Sui, Songhao Zhao, Xiaochun Qin, Xiong Pi, Jian Ren Shen, Yanyan Yang, and Guoqiang Huang

Subjects

Photosystem I, 0106 biological sciences, 0301 basic medicine, Chlorophyll a, Energy transfer, Science, Light-Harvesting Protein Complexes, General Physics and Astronomy, Bioenergetics, 01 natural sciences, Article, General Biochemistry, Genetics and Molecular Biology, 03 medical and health sciences, Electron transfer, chemistry.chemical_compound, Algae, Cryoelectron microscopy, Fucoxanthin, lcsh:Science, Diatoms, Multidisciplinary, Quenching (fluorescence), Photosystem I Protein Complex, biology, Chemistry, Pigments, Biological, General Chemistry, biology.organism_classification, Protein Subunits, 030104 developmental biology, Diatom, Energy Transfer, Biophysics, lcsh:Q, Chlorophyll Binding Proteins, 010606 plant biology & botany

Abstract

Diatom is an important group of marine algae and contributes to around 20% of the global photosynthetic carbon fixation. Photosystem I (PSI) of diatoms is associated with a large number of fucoxanthin-chlorophyll a/c proteins (FCPIs). We report the structure of PSI-FCPI from a diatom Chaetoceros gracilis at 2.38 Å resolution by single-particle cryo-electron microscopy. PSI-FCPI is a monomeric supercomplex consisting of 12 core and 24 antenna subunits (FCPIs), and 326 chlorophylls a, 34 chlorophylls c, 102 fucoxanthins, 35 diadinoxanthins, 18 β-carotenes and some electron transfer cofactors. Two subunits designated PsaR and PsaS were found in the core, whereas several subunits were lost. The large number of pigments constitute a unique and huge network ensuring efficient energy harvesting, transfer and dissipation. These results provide a firm structural basis for unraveling the mechanisms of light-energy harvesting, transfer and quenching in the diatom PSI-FCPI, and also important clues to evolutionary changes of PSI-LHCI., Diatoms are marine algae with an important role in global photosynthetic carbon fixation. Here, the authors present the 2.38 Å cryo-EM structure of photosystem I (PSI) in complex with its 24 fucoxanthin chlorophyll a/c-binding (FCPI) antenna proteins from the diatom Chaetoceros gracilis, which provides mechanistic insights into light-energy harvesting, transfer and quenching of the PSI-FCPI supercomplex.

Published

2020