Hyper Recent

R-loops containing a DNA:RNA hybrid and unpaired single-stranded DNA are important for normal cell physiology and pathogenesis of numerous diseases. Although several different approaches for R-loop mapping have been developed, these techniques can produce conflicting results. In order to assess their robustness, a study by Chedin et al compared a number of R-loop datasets obtained using different methodologies from normal and cancer cell lines. That study assumed a high degree of similarity between R-loop genomic distributions across different cell types. Here, comparing DRIP datasets produced using the same protocol in different cell lines; we show that only 26 percent of R-loop peaks are common between a chronic myeloid leukemia-derived HAP1 and human pluripotent stem cells, whereas HAP1-derived knockout cell lines share substantial fractions of R-loop peaks with their parental line. We conclude that cellular type represents a major determinant of R-loop genomic distribution and, therefore, only a systematic comparison of a large array of various cell/tissue-types-derived R-loop datasets may address the inconsistencies between different R-loop mapping techniques.

Cellular type is a major determinant of R-loop genomic distribution

Similar Papers

Similar Papers

biorxiv
Sun Apr 20 2025
Integrated Multi-Omics Mapping of Mitochondrial Dysfunction and Substrate Preference in Barth Syndrome Cardiac Tissue
Barth syndrome (BTHS) is a rare X-linked recessively inherited disorder caused by variants in the TAFAZZIN gene. The pathogenic variants lead to impaired conversion of monolysocardiolipin (MLCL) into mature phospholipid cardiolipin (CL). The accumulation of MLCL and mature CL deficiency is a diagnostic marker for BTHS. The clinical spectrum includes cardiomyopathy, skeletal myopathy, neutropenia, ...
Schomakers, B. V.
•
Passadouro, A. S.
•
Tretowicz, M. M.
•
Simpson, P. J.
...•
Mosegaard, S.

biorxiv
Sun Apr 20 2025
Genome-wide mapping of mesoscale neuronal RNA organization and condensation
Subcellular RNA organization can affect critical cellular functions. However, our understanding of RNA microenvironments, particularly biomolecular condensates, remains limited, largely due to a lack of technologies to comprehensively interrogate mesoscale RNA organization. Here, we adapt Split-Pool Recognition of Interactions by Tag Extension to map micron-scale RNA-RNA spatial proximity genome-w...
Becker, L. A.
•
Quinodoz, S. A.
•
Comi, T. J.
•
Kimchi, O.
...•
Brangwynne, C. P.

biorxiv
Sun Apr 20 2025
VEGF-B/NRP1 Signaling Modulates Mitochondrial Homeostasis and Cardiac Function After Myocardial Infarction
Background: Myocardial infarction (MI) remains a leading cause of mortality worldwide. Recent studies suggest a cardioprotective role for vascular endothelial growth factor-B (VEGF-B) in MI. However, the molecular mechanisms of VEGF-B-mediated signaling via its co-receptor Neuropilin-1 (NRP1) in MI are poorly understood. In this study, we investigated the intricate signaling mechanisms involving V...
Mukhopadhyay, D.
•
Varanasi, S. M.
•
Sabharwal, A.
•
Kar, R.
...•
Singh Angom, R.

biorxiv
Sun Apr 20 2025
Aging alters mRNA processing in the mouse ovary
Aging in females predominantly impacts the ovaries before any other organ systems. This phenomenon is closely linked to a gradual depletion of the ovarian follicle reserve and a notable diminishment of oocyte quality. Studies have shown that cellular changes within ovaries can manifest even before the observable depletion of ovarian follicles. To understand the molecular mechanisms underlying thes...
Vo, K.
•
Pei, G. J.
•
Thiyagarajan, R.
•
Fields, P. E.
•
Rumi, M. A. K.

biorxiv
Sun Apr 20 2025
Aerobic glycolysis and lactate regulate histone H3K18Lactylation occupancy to fine-tune gene expression in developing and mature retina
High aerobic glycolysis in retinal photoreceptors, as in cancer cells, is implicated in mitigating energy and metabolic demands. Lactate, a product of glycolysis, plays a key role in epigenetic regulation through histone lactylation in cancer. Here, we demonstrate that increased ATP production during retinal development is achieved primarily through augmented glycolysis. Histone lactylation, espec...
Gaur, M.
•
Liang, X.
•
Brooks, M. J.
•
Jiang, K.
...•
Swaroop, A.

biorxiv
Sun Apr 20 2025
Multiomics approach identifies SERPINB1 as candidate progression biomarker for Spinocerebellar Ataxia type 2
Background: Spinocerebellar ataxia type 2 (SCA2) is a polyglutamine disorder, and variants in its disease protein Ataxin-2 act as modifiers in the progression of Amyotrophic Lateral Sclerosis. There are no reliable molecular progression biomarkers for SCA2. Objectives: The aim of this study was to define novel molecular progression biomarker candidates for SCA2. Methods: Using cerebellar and cervi...
Almaguer-Mederos, L. E.
•
Key, J.
•
Sen, N.-E.
•
Canet-Pons, J.
...•
Auburger, G.

biorxiv
Sun Apr 20 2025
The 4th GPCR Dock: assessment of blind predictions for GPCR-ligand complexes in the era of AlphaFold
The GPCR Dock competitions are a series of community-wide assessments of computational structural modeling and ligand docking for G protein-coupled receptors, a central class of drug targets in the human proteome. The assessments are designed to provide an unbiased overview of progress and to pinpoint areas in need of refinement, thus shaping and directing the development of computational modeling...
Chitsazi, R.
•
Wu, Y.
•
GPCR Dock 2021 participants,
•
Stevens, R. C.
...•
Kufareva, I.

biorxiv
Sat Apr 19 2025
In vitro model of human subcutaneous adipocyte spheroids for studying mitochondrial dysfunction and mitochondria activating compounds
Mitochondrial abnormalities drive subcutaneous white adipose tissue dysfunction in obesity, leading to metabolic complications. A key challenge in obesity research is the lack of in vitro models to study human adipocyte mitochondria. Here, we establish a human subcutaneous adipocyte spheroid model to characterize mitochondrial metabolism under obesity-relevant conditions and drug exposure. Human p...
Wagner, A.
•
Lautaoja-Kivipelto, J.
•
Pehkonen, K.
•
Hassinen, A.
...•
Pirinen, E.

biorxiv
Sat Apr 19 2025
Effects of human microRNAs 100-5p, 192-5p, and 574-3p on proliferation, migration, and gene expression of human immortalized nasopharyngeal cells
Cancers are malignant neoplastic diseases with complex etiopathogenesis. Transformed cells acquire diverse biological properties that induce alterations in migration, invasion, and cell survival rates, favoring metastasis formation. This process is influenced by many factors, including miRNAs. MiRNAs are molecules that canonically prevent mRNA translation, influencing many cellular processes, carc...
Muller Coan, B. G.
•
Elgui de Oliveira, D.

biorxiv
Sat Apr 19 2025
Maternal obesity programs cardiac remodeling in offspring via epigenetic, metabolic, and immune dysregulations.
Maternal obesity during pregnancy significantly increases the offspring risk of later-life cardiovascular disease. This study investigated cardiometabolic perturbations by utilizing a mouse model of maternal high-fat diet (HFD)-induced obesity that recapitulates metabolic abnormalities observed in humans. We report that offspring of HFD-fed mothers (Off-HFD) exhibit a progression of obesity, hyper...
Philips, E. A.
•
Alharithi, Y.
•
Wilson, T. D.
•
Broberg, C.
...•
Maloyan, A.