Review
Biochemistry & Molecular Biology
Maria Theresia Watzlowik, Sujaan Das, Markus Meissner, Gernot Laengst
Summary: The gene transcription regulation of the human malaria parasite Plasmodium falciparum is governed by complex epigenetic mechanisms involving chromatin structure and dynamics. The high AT-content of the parasite genome and sequence divergence of chromatin-related proteins suggest significant differences in chromatin-dependent regulation compared to other eukaryotes. Specialized chromatin remodeling enzymes play an essential role in gene regulation in P. falciparum.
INTERNATIONAL JOURNAL OF MOLECULAR SCIENCES
(2021)
Review
Multidisciplinary Sciences
Jason H. Brickner
Summary: This article discusses the mechanisms by which histone modifications can be inherited and relates them to the phenomenon of epigenetic transcriptional memory. Recent studies have found that the histone H3 lysine 4 dimethylation associated with this memory plays a critical role in sustaining memory and can be stably maintained through multiple mitoses. This chromatin-mediated inheritance mechanism involves a physical interaction between an H3K4me2 reader, SET3C, and an H3K4me2 writer, Spp1(-) COMPASS. This is the first example of chromatin-mediated inheritance of a mark that promotes transcription.
ANNALS OF THE NEW YORK ACADEMY OF SCIENCES
(2023)
Review
Multidisciplinary Sciences
Hitoshi Kurumizaka
Summary: In eukaryotic cells, genomic DNA is organized into chromatin, which plays a critical role in regulating gene expression and nuclear functions. Aberrant chromatin structures can lead to various health issues. The nucleosome, as the basic repeating unit of chromatin, is highly conserved yet structurally versatile. Studying nucleosomes helps to elucidate higher-order chromatin architecture.
PROCEEDINGS OF THE JAPAN ACADEMY SERIES B-PHYSICAL AND BIOLOGICAL SCIENCES
(2022)
Review
Plant Sciences
Sneha Lata Bhadouriya, Sandhya Mehrotra, Mahesh K. Basantani, Gary J. Loake, Rajesh Mehrotra
Summary: Chromatin structure plays a crucial role in perceiving and transmitting environmental signals, impacting gene expression. Processes like histone modification and DNA methylation are essential for genome reprogramming. Different chromatin remodelers act in various organisms under diverse stresses to transition chromatin from an inactive to an active state.
FRONTIERS IN PLANT SCIENCE
(2021)
Article
Biotechnology & Applied Microbiology
Chunyan Wei, Hongru Liu, Xiangmei Cao, Minglei Zhang, Xian Li, Kunsong Chen, Bo Zhang
Summary: This study identified genes and transcription factors regulating the linalool synthesis pathway, showing that manipulating these factors can increase linalool production in peaches and improve fruit flavor.
PLANT BIOTECHNOLOGY JOURNAL
(2021)
Review
Immunology
Hunter Bennett, Ty D. Troutman, Mashito Sakai, Christopher K. Glass
Summary: Kupffer cells are the resident macrophages of the liver, playing important roles in responses to tissue damage and specialized activities such as iron scavenging. Recent studies have focused on the epigenetic pathways that establish Kupffer cell identity and function.
FRONTIERS IN IMMUNOLOGY
(2021)
Article
Medicine, Research & Experimental
Yingdong Deng, Simin Tang, Jiurong Cheng, Xiangsheng Zhang, Danqin Jing, Ziqiang Lin, Jun Zhou
Summary: The dorsal root ganglion (DRG) plays an active role in the development of neuropathic pain (NP), but its mechanism in NP regulation is not fully understood. The immune system has been increasingly recognized as important in the pathogenesis of NP, particularly through immune-related genes (IRGs) and specific immune cells. However, the involvement of IRGs in DRG and their regulation of NP action has not been fully elucidated.
Article
Oncology
Zheng Zhang, Lu Liu, Yanyun Shen, Ziyuan Meng, Min Chen, Zhong Lu, Xuejun Zhang
Summary: The study systematically analyzed the changes in chromatin accessibility in psoriasis and found that chromatin remodeling significantly contributes to the pathogenesis of the disease. Differences in chromatin accessibility and transcriptional dynamics were also observed in memory Th and Treg cells.
FRONTIERS OF MEDICINE
(2022)
Article
Biotechnology & Applied Microbiology
Nando D. Das, Jen-Chien Chang, Chung-Chau Hon, S. Thomas Kelly, Shinsuke Ito, Marina Lizio, Bogumil Kaczkowski, Hisami Watanabe, Keisuke Katsushima, Atsushi Natsume, Haruhiko Koseki, Yutaka Kondo, Aki Minoda, Takashi Umehara
Summary: This study found that H4K5acK8ac and H3K27ac signals have some overlap in binding to the super-enhancer transcription factor BRD4 at higher levels, but they also have distinct specificities, especially in glioblastoma stem-like cell lines. Deletion of H4K5acK8ac-preferred super-enhancers associated with MYCN and NFIC resulted in a reduction in stem-like properties.
Article
Microbiology
Jose J. Rivera Rivas, Charles J. Czuprynski
Summary: Histophilus somni is a Gram-negative coccobacillus that causes diffuse vasculitis and intravascular thrombosis in cattle. Our study demonstrates that exposure to H. somni cells causes monocyte-derived macrophages to release microparticles with pro-coagulant activity, potentially amplifying thrombus formation.
VETERINARY MICROBIOLOGY
(2022)
Review
Cell Biology
Mona Teng, Stanley Zhou, Changmeng Cai, Mathieu Lupien, Housheng Hansen He
Summary: Prostate cancer, the most commonly diagnosed non-cutaneous cancer in North American men, is often treated with androgen deprivation therapy. However, resistance can develop, leading to lethal disease. FOXA1, a pioneer factor that helps shape and regulate androgen receptor signaling, plays a crucial role in prostate cancer development and progression. Mutations in FOXA1 can result in functional alterations, and post-translational modifications can also modulate its activity in prostate cancer. Identifying the function and regulation of FOXA1 in prostate cancer is important for guiding future clinical interventions.
Review
Biochemistry & Molecular Biology
Ashish Kumar Singh, Felix Mueller-Planitz
Summary: Eukaryotes form nucleosome particles by associating their genomes with histone proteins, which regulate and protect genetic information. These nucleosomes often assemble into evenly spaced arrays, covering significant portions of the genome, with a high degree of conservation throughout the eukaryotic domain. Various factors like transcription, nucleosome remodelers, DNA sequence, and histone density play roles in the formation of these arrays, with unanswered questions remaining about their biogenesis and cellular functions.
JOURNAL OF MOLECULAR BIOLOGY
(2021)
Review
Biochemistry & Molecular Biology
Tao Jiang, Tianshuang Xia, Fangliang Qiao, Nani Wang, Yiping Jiang, Hailiang Xin
Summary: Bones serve mechanical and defensive functions, as well as regulating calcium ions and housing bone marrow. The qualities of bones fluctuate throughout life, with functions increasing in some situations while deteriorating in others. Excessive osteoclast differentiation can lead to various bone pathologies, and the transcription factors and developmental/environmental signals play crucial roles in this process.
INTERNATIONAL JOURNAL OF MOLECULAR SCIENCES
(2023)
Article
Biochemistry & Molecular Biology
Eunhye Lee, Chanshin Kang, Pasi Purhonen, Hans Hebert, Karim Bouazoune, Sungchul Hohng, Ji-Joon Song
Summary: CHD7 is a crucial chromatin remodeler, and its N-CRD region is essential for its ATPase stimulation and nucleosome remodeling activity. Mutations in this region can lead to defects in CHD7 function, affecting remodeling activity.
JOURNAL OF MOLECULAR BIOLOGY
(2021)
Review
Biochemistry & Molecular Biology
Hitoshi Kurumizaka, Tomoya Kujirai, Yoshimasa Takizawa
Summary: Chromatin compacts genomic DNA through nucleosome core particles, with versatile structure and dynamics for epigenetic regulation of genomic DNA. Histone variants in higher eukaryotes contribute to nucleosome diversity and play important roles in chromatin epigenetic regulation.
JOURNAL OF MOLECULAR BIOLOGY
(2021)
Article
Engineering, Biomedical
Colin Logie, Tom van Schaik, Tilo Pompe, Katja Pietsch
Summary: The study found that fibronectin induces macrophage tolerance instead of M1 or M2 macrophage phenotypes during the differentiation from monocytes to macrophages. Immune suppression caused by fibronectin was overridden upon LPS challenge, allowing the macrophages to deploy an efficient immune response.
Article
Biochemistry & Molecular Biology
Seth Carbon, Eric Douglass, Benjamin M. Good, Deepak R. Unni, Nomi L. Harris, Christopher J. Mungall, Siddartha Basu, Rex L. Chisholm, Robert J. Dodson, Eric Hartline, Petra Fey, Paul D. Thomas, Laurent-Philippe Albou, Dustin Ebert, Michael J. Kesling, Huaiyu Mi, Anushya Muruganujan, Xiaosong Huang, Tremayne Mushayahama, Sandra A. LaBonte, Deborah A. Siegele, Giulia Antonazzo, Helen Attrill, Nick H. Brown, Phani Garapati, Steven J. Marygold, Vitor Trovisco, Gil Dos Santos, Kathleen Falls, Christopher Tabone, Pinglei Zhou, Joshua L. Goodman, Victor B. Strelets, Jim Thurmond, Penelope Garmiri, Rizwan Ishtiaq, Milagros Rodriguez-Lopez, Marcio L. Acencio, Martin Kuiper, Astrid Laegreid, Colin Logie, Ruth C. Lovering, Barbara Kramarz, Shirin C. C. Saverimuttu, Sandra M. Pinheiro, Heather Gunn, Renzhi Su, Katherine E. Thurlow, Marcus Chibucos, Michelle Giglio, Suvarna Nadendla, James Munro, Rebecca Jackson, Margaret J. Duesbury, Noemi Del-Toro, Birgit H. M. Meldal, Kalpana Paneerselvam, Livia Perfetto, Pablo Porras, Sandra Orchard, Anjali Shrivastava, Hsin-Yu Chang, Robert Daniel Finn, Alexander Lawson Mitchell, Neil David Rawlings, Lorna Richardson, Amaia Sangrador-Vegas, Judith A. Blake, Karen R. Christie, Mary E. Dolan, Harold J. Drabkin, David P. Hill, Li Ni, Dmitry M. Sitnikov, Midori A. Harris, Stephen G. Oliver, Kim Rutherford, Valerie Wood, Jaqueline Hayles, Jurg Bahler, Elizabeth R. Bolton, Jeffery L. De Pons, Melinda R. Dwinell, G. Thomas Hayman, Mary L. Kaldunski, Anne E. Kwitek, Stanley J. F. Laulederkind, Cody Plasterer, Marek A. Tutaj, Mahima Vedi, Shur-Jen Wang, Peter D'Eustachio, Lisa Matthews, James P. Balhoff, Suzi A. Aleksander, Michael J. Alexander, J. Michael Cherry, Stacia R. Engel, Felix Gondwe, Kalpana Karra, Stuart R. Miyasato, Robert S. Nash, Matt Simison, Marek S. Skrzypek, Shuai Weng, Edith D. Wong, Marc Feuermann, Pascale Gaudet, Anne Morgat, Erica Bakker, Tanya Z. Berardini, Leonore Reiser, Shabari Subramaniam, Eva Huala, Cecilia N. Arighi, Andrea Auchincloss, Kristian Axelsen, Ghislaine Argoud-Puy, Alex Bateman, Marie-Claude Blatter, Emmanuel Boutet, Emily Bowler, Lionel Breuza, Alan Bridge, Ramona Britto, Hema Bye-A-Jee, Cristina Casals Casas, Elisabeth Coudert, Paul Denny, Anne Estreicher, Maria Livia Famiglietti, George Georghiou, Arnaud Gos, Nadine Gruaz-Gumowski, Emma Hatton-Ellis, Chantal Hulo, Alexandr Ignatchenko, Florence Jungo, Kati Laiho, Philippe Le Mercier, Damien Lieberherr, Antonia Lock, Yvonne Lussi, Alistair MacDougall, Michele Magrane, Maria J. Martin, Patrick Masson, Darren A. Natale, Nevila Hyka-Nouspikel, Sandra Orchard, Ivo Pedruzzi, Lucille Pourcel, Sylvain Poux, Sangya Pundir, Catherine Rivoire, Elena Speretta, Shyamala Sundaram, Nidhi Tyagi, Kate Warner, Rossana Zaru, Cathy H. Wu, Alexander D. Diehl, Juancarlos N. Chan, Christian Grove, Raymond Y. N. Lee, Hans-Michael Muller, Daniela Raciti, Kimberly Van Auken, Paul W. Sternberg, Matthew Berriman, Michael Paulini, Kevin Howe, Sibyl Gao, Adam Wright, Lincoln Stein, Douglas G. Howe, Sabrina Toro, Monte Westerfield, Pankaj Jaiswal, Laurel Cooper, Justin Elser
Summary: The Gene Ontology Consortium has made advancements in the last two years, such as improving the GO-CAM annotation framework, increasing the number of annotations and annotated gene products, and reviewing older annotations for consistency.
NUCLEIC ACIDS RESEARCH
(2021)
Article
Biochemistry & Molecular Biology
Rene A. M. Dirks, Peter C. Thomas, Haoyu Wu, Robert C. Jones, Hendrik G. Stunnenberg, Hendrik Marks
Summary: The newly developed microfluidic PnP-ChIP-seq technology allows standardized and automated ChIP-seq analysis of low-input samples, providing a convenient method for researchers. This technology shows high-quality ChIP-seq results in various cells and can robustly detect epigenetic differences between different cellular states.
Article
Biochemistry & Molecular Biology
Ruth C. Lovering, Pascale Gaudet, Marcio L. Acencio, Alex Ignatchenko, Arttu Jolma, Oriol Fornes, Martin Kuiper, Ivan Kulakovskiy, Astrid Laegreid, Maria J. Martin, Colin Logie
Summary: The accurate and comprehensive GO annotation of DNA-binding transcription factors is crucial for understanding gene regulation in response to environmental and developmental cues. Collaborative efforts between the GREEKC and GO Consortia have led to the creation of a curated catalogue of over 1400 human DNA-binding transcription factors, significantly improving the GO annotation across multiple species.
BIOCHIMICA ET BIOPHYSICA ACTA-GENE REGULATORY MECHANISMS
(2021)
Editorial Material
Biochemistry & Molecular Biology
Colin Logie
BIOCHIMICA ET BIOPHYSICA ACTA-GENE REGULATORY MECHANISMS
(2022)
Article
Biochemistry & Molecular Biology
Niels Velthuijs, Birgit Meldal, Quinte Geessinck, Pablo Porras, Yulia Medvedeva, Anatoliy Zubritskiy, Sandra Orchard, Colin Logie
Summary: The annotation of transcription regulation in the Gene Ontology has been difficult, but through mining protein complex databases and molecular interaction databases, a large number of unannotated putative transcription factor coregulators can be identified. This will help in renewed annotation and wet-lab research efforts in the field.
BIOCHIMICA ET BIOPHYSICA ACTA-GENE REGULATORY MECHANISMS
(2021)
Article
Biochemistry & Molecular Biology
Belen Juanes Cortes, Jose Antonio Vera-Ramos, Ruth C. Lovering, Pascale Gaudet, Astrid Laegreid, Colin Logie, Stefan Schulz, Maria del Mar Roldan-Garcia, Martin Kuiper, Jesualdo Tomas Fernandez-Breis
Summary: Gene regulation computational research involves handling heterogeneous data by generating knowledge models from gene regulation cartoons using ontologies and semantic tools. These models support data annotation by extracting entities, reusing content from existing ontologies, and implementing the knowledge models. The method was applied to two gene regulation scenarios to illustrate its use in supporting data annotation from research articles.
BIOCHIMICA ET BIOPHYSICA ACTA-GENE REGULATORY MECHANISMS
(2021)
Article
Biochemistry & Molecular Biology
Pascale Gaudet, Colin Logie, Ruth C. Lovering, Martin Kuiper, Astrid Laegreid, Paul D. Thomas
Summary: Transcription plays a central role in defining the identity and functionalities of cells, as well as in their responses to changes in the cellular environment. The Gene Ontology (GO) provides a rigorously defined set of concepts that describe the functions of gene products. Here, we describe the different GO terms associated with proteins involved in transcription and its regulation, focusing on the standard of evidence required to support these associations.
BIOCHIMICA ET BIOPHYSICA ACTA-GENE REGULATORY MECHANISMS
(2021)
Article
Biochemistry & Molecular Biology
Martin Kuiper, Joseph Bonello, Jesualdo T. Fernandez-Breis, Philipp Bucher, Matthias E. Futschik, Pascale Gaudet, Ivan V. Kulakovskiy, Luana Licata, Colin Logie, Ruth C. Lovering, Vsevolod J. Makeev, Sandra Orchard, Simona Panni, Livia Perfetto, David Sant, Stefan Schulz, Steven Vercruysse, Daniel R. Zerbino, Astrid Laegreid
Summary: Following nine workshops organized by GREEKC, experts from around the world worked to improve the Gene Regulation Knowledge Commons (GRKC) by standardizing and updating workflows, as well as involving end-users in the design process, leading to significant achievements in enhancing the GRKC.
BIOCHIMICA ET BIOPHYSICA ACTA-GENE REGULATORY MECHANISMS
(2022)
Article
Biochemistry & Molecular Biology
David W. Sant, Michael Sinclair, Christopher J. Mungall, Stefan Schulz, Daniel Zerbino, Ruth C. Lovering, Colin Logie, Karen Eilbeck
Summary: The Sequence Ontology (SO) is a structured, controlled vocabulary for genomic annotation. The GREEKC initiative aims to curate information on how gene expression is regulated at the molecular level. Recent updates to the SO include more accurate, human-readable terms, new definitions, and relationships related to gene expression.
BIOCHIMICA ET BIOPHYSICA ACTA-GENE REGULATORY MECHANISMS
(2021)
Article
Multidisciplinary Sciences
Nader Atlasy, Anna Bujko, Espen S. Baekkevold, Peter Brazda, Eva Janssen-Megens, Knut E. A. Lundin, Jorgen Jahnsen, Frode L. Jahnsen, Hendrik G. Stunnenberg
Summary: This study characterizes the immune cell compartment of the human small intestine during active Celiac disease using single cell transcriptomics. The results show altered myeloid cell transcriptomes and extensive changes in CD4(+) and CD8(+) T cell transcriptomes. In addition, a reduced population of natural intraepithelial lymphocytes is observed in Celiac disease.
NATURE COMMUNICATIONS
(2022)
Article
Biotechnology & Applied Microbiology
Hannah K. Neikes, Katarzyna W. Kliza, Cathrin Grawe, Roelof A. Wester, Pascal W. T. C. Jansen, Lieke A. Lamers, Marijke P. Baltissen, Simon J. van Heeringen, Colin Logie, Sarah A. Teichmann, Rik G. H. Lindeboom, Michiel Vermeulen
Summary: BANC-seq is a method to determine the absolute binding affinities of transcription factors to native DNA across the genome. It adds a quantitative dimension to transcription factor biology and allows prediction of binding sites under non-physiological conditions.
NATURE BIOTECHNOLOGY
(2023)
Article
Genetics & Heredity
Suzi A. Aleksander, James Balhoff, Seth Carbon, J. Michael Cherry, Harold J. Drabkin, Dustin Ebert, Marc Feuermann, Pascale Gaudet, Nomi L. Harris, David P. Hill, Raymond Lee, Huaiyu Mi, Sierra Moxon, Christopher J. Mungall, Anushya Muruganugan, Tremayne Mushayahama, Paul W. Sternberg, Paul D. Thomas, Kimberly Van Auken, Jolene Ramsey, Deborah A. Siegele, Rex L. Chisholm, Petra Fey, Maria Cristina Aspromonte, Maria Victoria Nugnes, Federica Quaglia, Silvio Tosatto, Michelle Giglio, Suvarna Nadendla, Giulia Antonazzo, Helen Attrill, Gil dos Santos, Steven Marygold, Victor Strelets, Christopher J. Tabone, Jim Thurmond, Pinglei Zhou, Saadullah H. Ahmed, Praoparn Asanitthong, Diana Luna Buitrago, Meltem N. Erdol, Matthew C. Gage, Mohamed Ali Kadhum, Kan Yan Chloe Li, Miao Long, Aleksandra Michalak, Angeline Pesala, Armalya Pritazahra, Shirin C. C. Saverimuttu, Renzhi Su, Kate E. Thurlow, Ruth C. Lovering, Colin Logie, Snezhana Oliferenko, Judith Blake, Karen Christie, Lori Corbani, Mary E. Dolan, Dmitry Sitnikov, Cynthia Smith, Alayne Cuzick, James Seager, Laurel Cooper, Justin Elser, Pankaj Jaiswal, Parul Gupta, Sushma Naithani, Manuel Lera-Ramirez, Kim Rutherford, Valerie Wood, Jeffrey L. De Pons, Melinda R. Dwinell, G. Thomas Hayman, Mary L. Kaldunski, Anne E. Kwitek, Stanley J. F. Laulederkind, Marek A. Tutaj, Mahima Vedi, Shur-Jen Wang, Peter D'Eustachio, Lucila Aimo, Kristian Axelsen, Alan Bridge, Nevila Hyka-Nouspikel, Anne Morgat, Stacia R. Engel, Kalpana Karra, Stuart R. Miyasato, Robert S. Nash, Marek S. Skrzypek, Shuai Weng, Edith D. Wong, Erika Bakker, Tanya Z. Berardini, Leonore Reiser, Andrea Auchincloss, Ghislaine Argoud-Puy, Marie-Claude Blatter, Emmanuel Boutet, Lionel Breuza, Cristina Casals-Casas, Elisabeth Coudert, Anne Estreicher, Maria Livia Famiglietti, Arnaud Gos, Nadine Gruaz-Gumowski, Chantal Hulo, Florence Jungo, Philippe Le Mercier, Damien Lieberherr, Patrick Masson, Ivo Pedruzzi, Lucille Pourcel, Sylvain Poux, Catherine Rivoire, Shyamala Sundaram, Alex Bateman, Emily Bowler-Barnett, Hema Bye-A-Jee, Paul Denny, Alexandr Ignatchenko, Rizwan Ishtiaq, Antonia Lock, Yvonne Lussi, Michele Magrane, Maria J. Martin, Sandra Orchard, Pedro Raposo, Elena Speretta, Nidhi Tyagi, Kate Warner, Rossana Zaru, Alexander D. Diehl, Juancarlos Chan, Stavros Diamantakis, Daniela Raciti, Magdalena Zarowiecki, Malcolm Fisher, Christina James-Zorn, Virgilio Ponferrada, Aaron Zorn, Sridhar Ramachandran, Leyla Ruzicka, Monte Westerfield
Summary: The Gene Ontology (GO) knowledgebase is a comprehensive resource that provides information about the functions of genes and gene products. It covers a wide range of organisms and receives updates from a consortium of scientists. The knowledgebase consists of three components: GO, which describes gene functionality; GO annotations, which provide evidence-supported statements about gene products; and GO-CAMs, which are models of molecular pathways. The knowledgebase is continuously updated and reviewed, and guidance is provided to users on how to make the best use of the data.
Article
Multidisciplinary Sciences
Cheng Wang, Freek Manders, Laszlo Groh, Roel Oldenkamp, Colin Logie
Summary: This study reveals the structural characteristics of the FKBP5 topologically associated domain (TAD) and its chromatin interaction frequencies. The FKBP5 TAD consists of two nested CTCF loops and its boundaries contain H3K27me3-marked heterochromatin blocks. Transcription increases are correlated with loop extension through the intronic CTCF site. The cis-acting genetic and epigenetic polymorphisms underlying FKBP5 expression variation are likely to reside within a 240-kb region that includes the FKBP5 TAD, its left sub-TAD, and its boundaries.
ANNALS OF THE NEW YORK ACADEMY OF SCIENCES
(2023)
Article
Multidisciplinary Sciences
Fatemeh Mirzadeh Azad, Eduard A. Struys, Victoria Wingert, Luciana Hannibal, Ken Mills, Joop H. Jansen, Daniel B. Longley, Hendrik G. Stunnenberg, Yaser Atlasi
Summary: Understanding the mechanisms of epigenetic regulation in ESCs is crucial for stem cell and developmental biology. In this study, the identification of Spic as a marker of ground state pluripotency and its role in controlling 1C metabolism and histone marks highlight the importance of auxiliary TFs in linking cellular metabolism to epigenetic regulation in ESCs.
