The jet-like chromatin structure defines active secondary metabolism in fungi

Shao, Wenyong; Wang, Jingrui; Zhang, Yueqi; Zhang, Chaofan; Chen, Jie; Chen, Yun; Fei, Zhangjun; Ma, Zhonghua; Sun, Xuepeng; Jiao, Chen

doi:10.1093/nar/gkae131

Cited by 6 publications

References 86 publications

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Stage‐specific transcriptome profiling highlights key modules associated with structurally conserved secreted proteins in Puccinia polysora infection of maize

Guo,

Liu,

Mei

et al. 2024

New Plant Protection

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Southern corn rust (SCR), caused by the biotrophic fungal pathogen Puccinia polysora, is a globally significant disease that poses a severe threat to maize production, particularly in tropical and subtropical regions. Despite its economic importance, many aspects of the molecular interactions between P. polysora and maize remain poorly understood. In this study, we performed stage‐specific transcriptome profiling to explore gene expression dynamics during key phases of P. polysora infection: conidia formation, spore germination, penetration, and colonization. We identified and characterized co‐regulated modules of effector proteins that are critical for successful host infection. Utilizing AlphaFold3, we identified structurally conserved proteins co‐expressed throughout the infection process. Notably, Cluster 7, a structurally conserved protein group, exhibited uniquely peak expression during the penetration stage, suggesting a pivotal role in overcoming host defenses. This research offers new insights into the molecular processes involved in P. polysora infection and provides a valuable resource for developing novel strategies to mitigate the global impact of SCR.

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Stage‐specific transcriptome profiling highlights key modules associated with structurally conserved secreted proteins in Puccinia polysora infection of maize

Guo,

Liu,

Mei

et al. 2024

New Plant Protection

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Transcriptional machinery as an architect of genome structure

Fursova,

Larson

2024

Current Opinion in Structural Biology

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Cohesin organizes 3D DNA contacts surrounding active enhancers inC. elegans

Kim,

Wang,

Ercan

2023

Preprint

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In mammals, cohesin and CTCF organize the 3D genome into topologically associated domains (TADs) to regulate communication between cis-regulatory elements. However, many organisms, including S. cerevisiae, C. elegans, and A. thaliana lack CTCF. Here, we use C. elegans as a model to investigate the function of cohesin in 3D genome organization in an animal without CTCF. We use auxin-inducible degradation to acutely deplete SMC-3 or its negative regulator WAPL-1 from somatic cells. Using Hi-C data, we identify a cohesin-dependent 3D genome feature termed chromatin jets (aka fountains), also observed in zebrafish and mammalian genomes. The jets emerge from NIPBL occupied segments, and the trajectory of the jets coincides with cohesin binding. The spreading of cohesin from jet origins depends on a fully intact cohesin complex and is extended upon WAPL-1 depletion. These results support the idea that cohesin is preferentially loaded at NIPBL occupied sites, from which cohesin loop extrudes in an effectively two-sided manner. The location of putative loading sites coincides with active enhancers and the pattern of chromatin jets correlates with transcription. We propose that in the absence of CTCF, preferential loading of cohesin at enhancers is a conserved mechanism of genome organization that regulates the interaction of gene regulatory elements in 3D.

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The jet-like chromatin structure defines active secondary metabolism in fungi

Cited by 6 publications

References 86 publications

Stage‐specific transcriptome profiling highlights key modules associated with structurally conserved secreted proteins in Puccinia polysora infection of maize

Stage‐specific transcriptome profiling highlights key modules associated with structurally conserved secreted proteins in Puccinia polysora infection of maize

Transcriptional machinery as an architect of genome structure

Cohesin organizes 3D DNA contacts surrounding active enhancers inC. elegans

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