520,357 results on '"Developmental biology"'
Search Results
2. A human progeria-associated BAF-1 mutation modulates gene expression and accelerates aging in C. elegans
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Romero-Bueno, Raquel, Fragoso-Luna, Adrián, Ayuso, Cristina, Mellmann, Nina, Kavsek, Alan, Riedel, Christian G, Ward, Jordan D, and Askjaer, Peter
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Biological Sciences ,Biomedical and Clinical Sciences ,Genetics ,Aging ,Human Genome ,Rare Diseases ,2.1 Biological and endogenous factors ,5.1 Pharmaceuticals ,Generic health relevance ,BANF1 ,NGPS ,Nuclear Lamina ,Stress Resistance ,Information and Computing Sciences ,Medical and Health Sciences ,Developmental Biology ,Biological sciences ,Biomedical and clinical sciences - Abstract
Alterations in the nuclear envelope are linked to a variety of rare diseases termed laminopathies. A single amino acid substitution at position 12 (A12T) of the human nuclear envelope protein BAF (Barrier to Autointegration Factor) causes Néstor-Guillermo Progeria Syndrome (NGPS). This premature ageing condition leads to growth retardation and severe skeletal defects, but the underlying mechanisms are unknown. Here, we have generated a novel in vivo model for NGPS by modifying the baf-1 locus in C. elegans to mimic the human NGPS mutation. These baf-1(G12T) mutant worms displayed multiple phenotypes related to fertility, lifespan, and stress resistance. Importantly, nuclear morphology deteriorated faster during aging in baf-1(G12T) compared to wild-type animals, recapitulating an important hallmark of cells from progeria patients. Although localization of BAF-1(G12T) was similar to wild-type BAF-1, lamin accumulation at the nuclear envelope was reduced in mutant worms. Tissue-specific chromatin binding and transcriptome analyses showed reduced BAF-1 association in most genes deregulated by the baf-1(G12T) mutation, suggesting that altered BAF chromatin association induces NGPS phenotypes via altered gene expression.
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- 2024
3. Combinatorial transcription factor binding encodes cis-regulatory wiring of mouse forebrain GABAergic neurogenesis
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Catta-Preta, Rinaldo, Lindtner, Susan, Ypsilanti, Athena, Seban, Nicolas, Price, James D, Abnousi, Armen, Su-Feher, Linda, Wang, Yurong, Cichewicz, Karol, Boerma, Sally A, Juric, Ivan, Jones, Ian R, Akiyama, Jennifer A, Hu, Ming, Shen, Yin, Visel, Axel, Pennacchio, Len A, Dickel, Diane E, Rubenstein, John LR, and Nord, Alex S
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Biochemistry and Cell Biology ,Bioinformatics and Computational Biology ,Biological Sciences ,Genetics ,Human Genome ,Stem Cell Research ,GABAergic cortical interneurons ,chromatin conformation ,combinatorial TF binding ,evolutionary conservation ,gene regulatory network ,neurogenesis ,transcription factors ,Medical and Health Sciences ,Developmental Biology ,Biochemistry and cell biology - Abstract
Transcription factors (TFs) bind combinatorially to cis-regulatory elements, orchestrating transcriptional programs. Although studies of chromatin state and chromosomal interactions have demonstrated dynamic neurodevelopmental cis-regulatory landscapes, parallel understanding of TF interactions lags. To elucidate combinatorial TF binding driving mouse basal ganglia development, we integrated chromatin immunoprecipitation sequencing (ChIP-seq) for twelve TFs, H3K4me3-associated enhancer-promoter interactions, chromatin and gene expression data, and functional enhancer assays. We identified sets of putative regulatory elements with shared TF binding (TF-pRE modules) that orchestrate distinct processes of GABAergic neurogenesis and suppress other cell fates. The majority of pREs were bound by one or two TFs; however, a small proportion were extensively bound. These sequences had exceptional evolutionary conservation and motif density, complex chromosomal interactions, and activity as in vivo enhancers. Our results provide insights into the combinatorial TF-pRE interactions that activate and repress expression programs during telencephalon neurogenesis and demonstrate the value of TF binding toward modeling developmental transcriptional wiring.
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- 2024
4. Tissue-specific and endogenous protein labeling with split fluorescent proteins
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Ligunas, Gloria D, Paniagua, German F, LaBelle, Jesselynn, Ramos-Martinez, Adela, Shen, Kyle, Gerlt, Emma H, Aguilar, Kaddy, Nguyen, Ngoc, Materna, Stefan C, and Woo, Stephanie
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Biochemistry and Cell Biology ,Biological Sciences ,Genetics ,1.1 Normal biological development and functioning ,Generic health relevance ,Zebrafish ,Animals ,Zebrafish Proteins ,CRISPR-Cas Systems ,Animals ,Genetically Modified ,Luminescent Proteins ,Organ Specificity ,Green Fluorescent Proteins ,Gene Editing ,Promoter Regions ,Genetic ,Tubulin ,CRISPR-Cas ,Protein tagging ,Split fluorescent protein ,Medical and Health Sciences ,Developmental Biology ,Biological sciences ,Biomedical and clinical sciences ,Health sciences - Abstract
The ability to label proteins by fusion with genetically encoded fluorescent proteins is a powerful tool for understanding dynamic biological processes. However, current approaches for expressing fluorescent protein fusions possess drawbacks, especially at the whole organism level. Expression by transgenesis risks potential overexpression artifacts while fluorescent protein insertion at endogenous loci is technically difficult and, more importantly, does not allow for tissue-specific study of broadly expressed proteins. To overcome these limitations, we have adopted the split fluorescent protein system mNeonGreen21-10/11 (split-mNG2) to achieve tissue-specific and endogenous protein labeling in zebrafish. In our approach, mNG21-10 is expressed under a tissue-specific promoter using standard transgenesis while mNG211 is inserted into protein-coding genes of interest using CRISPR/Cas-directed gene editing. Each mNG2 fragment on its own is not fluorescent, but when co-expressed the fragments self-assemble into a fluorescent complex. Here, we report successful use of split-mNG2 to achieve differential labeling of the cytoskeleton genes tubb4b and krt8 in various tissues. We also demonstrate that by anchoring the mNG21-10 component to specific cellular compartments, the split-mNG2 system can be used to manipulate protein localization. Our approach should be broadly useful for a wide range of applications.
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- 2024
5. Inferring pattern-driving intercellular flows from single-cell and spatial transcriptomics
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Almet, Axel A, Tsai, Yuan-Chen, Watanabe, Momoko, and Nie, Qing
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Biological Sciences ,Bioinformatics and Computational Biology ,Human Genome ,Bioengineering ,Genetics ,Animals ,Single-Cell Analysis ,Mice ,Transcriptome ,COVID-19 ,Cell Communication ,Humans ,Gene Expression Profiling ,Islets of Langerhans ,Sequence Analysis ,RNA ,SARS-CoV-2 ,Embryonic Development ,Technology ,Medical and Health Sciences ,Developmental Biology ,Biological sciences - Abstract
From single-cell RNA-sequencing (scRNA-seq) and spatial transcriptomics (ST), one can extract high-dimensional gene expression patterns that can be described by intercellular communication networks or decoupled gene modules. These two descriptions of information flow are often assumed to occur independently. However, intercellular communication drives directed flows of information that are mediated by intracellular gene modules, in turn triggering outflows of other signals. Methodologies to describe such intercellular flows are lacking. We present FlowSig, a method that infers communication-driven intercellular flows from scRNA-seq or ST data using graphical causal modeling and conditional independence. We benchmark FlowSig using newly generated experimental cortical organoid data and synthetic data generated from mathematical modeling. We demonstrate FlowSig's utility by applying it to various studies, showing that FlowSig can capture stimulation-induced changes to paracrine signaling in pancreatic islets, demonstrate shifts in intercellular flows due to increasing COVID-19 severity and reconstruct morphogen-driven activator-inhibitor patterns in mouse embryogenesis.
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- 2024
6. Interaction of chikungunya virus glycoproteins with macrophage factors controls virion production
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Yao, Zhenlan, Ramachandran, Sangeetha, Huang, Serina, Kim, Erin, Jami-Alahmadi, Yasaman, Kaushal, Prashant, Bouhaddou, Mehdi, Wohlschlegel, James A, and Li, Melody MH
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Medical Microbiology ,Biomedical and Clinical Sciences ,Biological Sciences ,Vector-Borne Diseases ,Emerging Infectious Diseases ,Biodefense ,Infectious Diseases ,2.2 Factors relating to the physical environment ,2.1 Biological and endogenous factors ,Infection ,Good Health and Well Being ,Chikungunya virus ,Humans ,Macrophages ,Viral Envelope Proteins ,Virion ,Chikungunya Fever ,Glycoproteins ,Host-Pathogen Interactions ,Virus Replication ,THP-1 Cells ,Alphavirus E1 Glycoprotein ,Chikungunya Virus ,eIF3k ,Evolutionary Selection ,Macrophage ,Information and Computing Sciences ,Medical and Health Sciences ,Developmental Biology ,Biological sciences ,Biomedical and clinical sciences - Abstract
Despite their role as innate sentinels, macrophages can serve as cellular reservoirs of chikungunya virus (CHIKV), a highly-pathogenic arthropod-borne alphavirus that has caused large outbreaks among human populations. Here, with the use of viral chimeras and evolutionary selection analysis, we define CHIKV glycoproteins E1 and E2 as critical for virion production in THP-1 derived human macrophages. Through proteomic analysis and functional validation, we further identify signal peptidase complex subunit 3 (SPCS3) and eukaryotic translation initiation factor 3 subunit K (eIF3k) as E1-binding host proteins with anti-CHIKV activities. We find that E1 residue V220, which has undergone positive selection, is indispensable for CHIKV production in macrophages, as its mutation attenuates E1 interaction with the host restriction factors SPCS3 and eIF3k. Finally, we show that the antiviral activity of eIF3k is translation-independent, and that CHIKV infection promotes eIF3k translocation from the nucleus to the cytoplasm, where it associates with SPCS3. These functions of CHIKV glycoproteins late in the viral life cycle provide a new example of an intracellular evolutionary arms race with host restriction factors, as well as potential targets for therapeutic intervention.
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- 2024
7. Deciphering the role of structural variation in human evolution: a functional perspective
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Karageorgiou, Charikleia, Gokcumen, Omer, and Dennis, Megan Y
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Biological Sciences ,Bioinformatics and Computational Biology ,Genetics ,Human Genome ,1.1 Normal biological development and functioning ,Generic health relevance ,Humans ,Animals ,Evolution ,Molecular ,Genome ,Human ,Genomics ,Genomic Structural Variation ,Phenotype ,Hominidae ,Biological Evolution ,Gene Editing ,Developmental Biology ,Biochemistry and cell biology - Abstract
Advances in sequencing technologies have enabled the comparison of high-quality genomes of diverse primate species, revealing vast amounts of divergence due to structural variation. Given their large size, structural variants (SVs) can simultaneously alter the function and regulation of multiple genes. Studies estimate that collectively more than 3.5% of the genome is divergent in humans versus other great apes, impacting thousands of genes. Functional genomics and gene-editing tools in various model systems recently emerged as an exciting frontier - investigating the wide-ranging impacts of SVs on molecular, cellular, and systems-level phenotypes. This review examines existing research and identifies future directions to broaden our understanding of the functional roles of SVs on phenotypic innovations and diversity impacting uniquely human features, ranging from cognition to metabolic adaptations.
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- 2024
8. A call from patient-researchers to advance research on long COVID
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Fitzgerald, Megan L, Cohen, Alison K, Jaudon, Toni Wall, Vogel, Julia Moore, Koppes, Abigail N, Santos, Lucia, Robles, Rachel, Lin, Jerry, Davids, JD, McWilliams, Chris, Redfield, Signe, Banks, Kathleen P, Richardson, Maria, Akintonwa, Teresa T Tindle, Pollack, Beth, Spier, Ezra, Weiss, Aimee, Assaf, Gina, Davis, Hannah, and McCorkell, Lisa
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Pharmacology and Pharmaceutical Sciences ,Biomedical and Clinical Sciences ,Emerging Infectious Diseases ,Clinical Research ,Infectious Diseases ,Coronaviruses ,Good Health and Well Being ,Humans ,COVID-19 ,SARS-CoV-2 ,Post-Acute COVID-19 Syndrome ,Biomedical Research ,Research Personnel ,long COVID ,patient-led research ,post-acute sequelae of COVID-19 ,Biological Sciences ,Medical and Health Sciences ,Developmental Biology ,Biological sciences ,Biomedical and clinical sciences - Abstract
Long COVID is a chronic and often disabling illness with long-term consequences. Although progress has been made in the clinical characterization of long COVID, no approved treatments exist and disconnects between patients and researchers threaten to hinder future progress. Incorporating patients as active collaborators in long COVID research can bridge the gap and accelerate progress toward treatments and cures.
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- 2024
9. Dynamic allostery drives autocrine and paracrine TGF-β signaling
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Jin, Mingliang, Seed, Robert I, Cai, Guoqing, Shing, Tiffany, Wang, Li, Ito, Saburo, Cormier, Anthony, Wankowicz, Stephanie A, Jespersen, Jillian M, Baron, Jody L, Carey, Nicholas D, Campbell, Melody G, Yu, Zanlin, Tang, Phu K, Cossio, Pilar, Wen, Weihua, Lou, Jianlong, Marks, James, Nishimura, Stephen L, and Cheng, Yifan
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Biochemistry and Cell Biology ,Biomedical and Clinical Sciences ,Biological Sciences ,1.1 Normal biological development and functioning ,2.1 Biological and endogenous factors ,Animals ,Mice ,Autocrine Communication ,Allosteric Regulation ,Paracrine Communication ,Transforming Growth Factor beta1 ,Integrins ,Humans ,Membrane Proteins ,Signal Transduction ,Transforming Growth Factor beta ,Mice ,Inbred C57BL ,Transforming Growth Factor beta3 ,Cryoelectron Microscopy ,TGF-b signaling ,TGF-b1 ,TGF-b3 ,activation ,autocrine signaling ,avb8 integrin ,dynamic allostery ,entropy redistribution ,furin ,latency ,paracrine signaling ,regulatory T cells ,single-particle cryo-EM ,Medical and Health Sciences ,Developmental Biology ,Biological sciences ,Biomedical and clinical sciences - Abstract
TGF-β, essential for development and immunity, is expressed as a latent complex (L-TGF-β) non-covalently associated with its prodomain and presented on immune cell surfaces by covalent association with GARP. Binding to integrin αvβ8 activates L-TGF-β1/GARP. The dogma is that mature TGF-β must physically dissociate from L-TGF-β1 for signaling to occur. Our previous studies discovered that αvβ8-mediated TGF-β autocrine signaling can occur without TGF-β1 release from its latent form. Here, we show that mice engineered to express TGF-β1 that cannot release from L-TGF-β1 survive without early lethal tissue inflammation, unlike those with TGF-β1 deficiency. Combining cryogenic electron microscopy with cell-based assays, we reveal a dynamic allosteric mechanism of autocrine TGF-β1 signaling without release where αvβ8 binding redistributes the intrinsic flexibility of L-TGF-β1 to expose TGF-β1 to its receptors. Dynamic allostery explains the TGF-β3 latency/activation mechanism and why TGF-β3 functions distinctly from TGF-β1, suggesting that it broadly applies to other flexible cell surface receptor/ligand systems.
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- 2024
10. Large-scale map of RNA-binding protein interactomes across the mRNA life cycle
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Street, Lena A, Rothamel, Katherine L, Brannan, Kristopher W, Jin, Wenhao, Bokor, Benjamin J, Dong, Kevin, Rhine, Kevin, Madrigal, Assael, Al-Azzam, Norah, Kim, Jenny Kim, Ma, Yanzhe, Gorhe, Darvesh, Abdou, Ahmed, Wolin, Erica, Mizrahi, Orel, Ahdout, Joshua, Mujumdar, Mayuresh, Doron-Mandel, Ella, Jovanovic, Marko, and Yeo, Gene W
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Biochemistry and Cell Biology ,Biological Sciences ,Genetics ,1.1 Normal biological development and functioning ,Neurological ,Generic health relevance ,Humans ,RNA ,Messenger ,RNA-Binding Proteins ,Protein Interaction Maps ,Protein Binding ,HeLa Cells ,Protein Interaction Mapping ,Ribonucleoproteins ,Small Nuclear ,HEK293 Cells ,Mass Spectrometry ,RNA Splicing ,Hela Cells ,ERH ,IP-MS ,RBP ,RNA-binding proteins ,RNA-dependent protein interactions ,SEC-MS ,SNRNP200 ,interactome ,mRNA life-cycle ,protein-protein interactions ,Medical and Health Sciences ,Developmental Biology ,Biological sciences ,Biomedical and clinical sciences ,Health sciences - Abstract
mRNAs interact with RNA-binding proteins (RBPs) throughout their processing and maturation. While efforts have assigned RBPs to RNA substrates, less exploration has leveraged protein-protein interactions (PPIs) to study proteins in mRNA life-cycle stages. We generated an RNA-aware, RBP-centric PPI map across the mRNA life cycle in human cells by immunopurification-mass spectrometry (IP-MS) of ∼100 endogenous RBPs with and without RNase, augmented by size exclusion chromatography-mass spectrometry (SEC-MS). We identify 8,742 known and 20,802 unreported interactions between 1,125 proteins and determine that 73% of the IP-MS-identified interactions are RNA regulated. Our interactome links many proteins, some with unknown functions, to specific mRNA life-cycle stages, with nearly half associated with multiple stages. We demonstrate the value of this resource by characterizing the splicing and export functions of enhancer of rudimentary homolog (ERH), and by showing that small nuclear ribonucleoprotein U5 subunit 200 (SNRNP200) interacts with stress granule proteins and binds cytoplasmic RNA differently during stress.
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- 2024
11. Longitudinal activity monitoring and lifespan: quantifying the interface
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Iao, Su I, Kundu, Poorbita, Chen, Han, Carey, James R, and Müller, Hans-Georg
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Biochemistry and Cell Biology ,Biomedical and Clinical Sciences ,Clinical Sciences ,Biological Sciences ,Aging ,Behavioral and Social Science ,Generic health relevance ,Animals ,Longevity ,Humans ,Behavior ,Animal ,Ceratitis capitata ,Longitudinal Studies ,Reproduction ,age-at-death ,force of mortality ,functional data analysis ,longitudinal data ,mediterranean fruit fly ,Physiology ,Oncology and Carcinogenesis ,Developmental Biology - Abstract
Understanding the relationship between activity over the entire lifespan and longevity is an important facet of aging research. We present a comprehensive framework for the statistical analysis of longitudinal activity and behavioral monitoring and their relationship with age-at-death at the individual level, highlighting the importance of advanced methodological approaches in aging research. The focus is on animal models, where continuous monitoring activity in terms of movement, reproduction and behaviors over the entire lifespan is feasible at the individual level. We specifically demonstrate the methodology with data on activity monitoring for Mediterranean fruit flies. Advanced statistical methodologies to explore the interface between activity and age-at-death include functional principal component analysis, concurrent regression, Fréchet regression and point processes. While the focus of this perspective is on relating age-at-death with data on movement, reproduction, behavior and nutrition of Mediterranean fruit flies, the methodology equally pertains to data from other species, including human data.
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- 2024
12. Rapid, biochemical tagging of cellular activity history in vivo
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Zhang, Run, Anguiano, Maribel, Aarrestad, Isak K, Lin, Sophia, Chandra, Joshua, Vadde, Sruti S, Olson, David E, and Kim, Christina K
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Biochemistry and Cell Biology ,Biological Sciences ,Bioengineering ,Animals ,Mice ,Calcium ,Neurons ,Humans ,Biotin ,Calcium Signaling ,Prefrontal Cortex ,Mice ,Inbred C57BL ,Male ,Technology ,Medical and Health Sciences ,Developmental Biology ,Biological sciences - Abstract
Intracellular calcium (Ca2+) is ubiquitous to cell signaling across biology. While existing fluorescent sensors and reporters can detect activated cells with elevated Ca2+ levels, these approaches require implants to deliver light to deep tissue, precluding their noninvasive use in freely behaving animals. Here we engineered an enzyme-catalyzed approach that rapidly and biochemically tags cells with elevated Ca2+ in vivo. Ca2+-activated split-TurboID (CaST) labels activated cells within 10 min with an exogenously delivered biotin molecule. The enzymatic signal increases with Ca2+ concentration and biotin labeling time, demonstrating that CaST is a time-gated integrator of total Ca2+ activity. Furthermore, the CaST readout can be performed immediately after activity labeling, in contrast to transcriptional reporters that require hours to produce signal. These capabilities allowed us to apply CaST to tag prefrontal cortex neurons activated by psilocybin, and to correlate the CaST signal with psilocybin-induced head-twitch responses in untethered mice.
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- 2024
13. A systematic search for RNA structural switches across the human transcriptome
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Khoroshkin, Matvei, Asarnow, Daniel, Zhou, Shaopu, Navickas, Albertas, Winters, Aidan, Goudreau, Jackson, Zhou, Simon K, Yu, Johnny, Palka, Christina, Fish, Lisa, Borah, Ashir, Yousefi, Kian, Carpenter, Christopher, Ansel, K Mark, Cheng, Yifan, Gilbert, Luke A, and Goodarzi, Hani
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Biological Sciences ,Bioinformatics and Computational Biology ,Genetics ,Human Genome ,1.1 Normal biological development and functioning ,Humans ,Transcriptome ,Nucleic Acid Conformation ,3' Untranslated Regions ,RNA ,Sulfuric Acid Esters ,Nonsense Mediated mRNA Decay ,Cryoelectron Microscopy ,Computational Biology ,Technology ,Medical and Health Sciences ,Developmental Biology ,Biological sciences - Abstract
RNA structural switches are key regulators of gene expression in bacteria, but their characterization in Metazoa remains limited. Here, we present SwitchSeeker, a comprehensive computational and experimental approach for systematic identification of functional RNA structural switches. We applied SwitchSeeker to the human transcriptome and identified 245 putative RNA switches. To validate our approach, we characterized a previously unknown RNA switch in the 3' untranslated region of the RORC (RAR-related orphan receptor C) transcript. In vivo dimethyl sulfate (DMS) mutational profiling with sequencing (DMS-MaPseq), coupled with cryogenic electron microscopy, confirmed its existence as two alternative structural conformations. Furthermore, we used genome-scale CRISPR screens to identify trans factors that regulate gene expression through this RNA structural switch. We found that nonsense-mediated messenger RNA decay acts on this element in a conformation-specific manner. SwitchSeeker provides an unbiased, experimentally driven method for discovering RNA structural switches that shape the eukaryotic gene expression landscape.
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- 2024
14. Protocol for 3D surface texture modeling and quantitative spectral decomposition analysis in Drosophila border cell clusters
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Gabbert, Allison M, Mitchell, Noah P, Gemmill, Emily G, Campanale, Joseph P, Mondo, James A, and Montell, Denise J
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Biochemistry and Cell Biology ,Biological Sciences ,Biophysics ,Cell Biology ,Developmental biology ,Microscopy - Abstract
Drosophila border cell clusters model collective cell migration. Airyscan super-resolution microscopy enables fine-scale description of cluster shape and texture. Here we describe how to convert Airyscan images of border cell clusters into 3D models of the surface and detect regions of convex and concave curvature. We use spectral decomposition analysis to compare surface textures across genotypes to determine how genes of interest impact cluster surface geometry. This protocol applies to border cells and could generalize to additional cell types. For complete details on the use and execution of this protocol, please refer to Gabbert et al.1.
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- 2024
15. Protocol to electroporate DNA plasmids into Ciona robusta embryos at the 1-cell stage
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Jindal, Granton A, Lim, Fabian, Tellez, Krissie, Song, Benjamin P, Bantle, Alexis T, and Farley, Emma K
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Biological Sciences ,Biomedical and Clinical Sciences ,Genetics ,1.1 Normal biological development and functioning ,Generic health relevance ,Developmental biology ,Model Organisms ,Molecular Biology - Abstract
Electroporation is a technique to introduce DNA constructs into cells using electric current. Here, we present a protocol to electroporate DNA plasmids into Ciona robusta embryos at the 1-cell stage. We describe steps for setting up and conducting electroporation. We then detail procedures for collecting, fixing, and mounting embryos and counting expression. This protocol can be used to study the expression of enhancers via reporter assays, manipulating cells using genes or modified genes such as dominant negatives, and genome editing. For complete details on the use and execution of this protocol, please refer to Song, et al.1.
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- 2024
16. Orange carotenoid proteins: structural understanding of evolution and function
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Kerfeld, Cheryl A and Sutter, Markus
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Biochemistry and Cell Biology ,Biological Sciences ,Genetics ,Generic health relevance ,Bacterial Proteins ,Cyanobacteria ,Evolution ,Molecular ,Carotenoids ,carotenoids ,cyanobacteria ,photoprotection ,photosynthesis ,protein dynamics ,protein evolution ,Chemical Sciences ,Medical and Health Sciences ,Developmental Biology ,Biochemistry and cell biology ,Medical biochemistry and metabolomics ,Medicinal and biomolecular chemistry - Abstract
Cyanobacteria uniquely contain a primitive water-soluble carotenoprotein, the orange carotenoid protein (OCP). Nearly all extant cyanobacterial genomes contain genes for the OCP or its homologs, implying an evolutionary constraint for cyanobacteria to conserve its function. Genes encoding the OCP and its two constituent structural domains, the N-terminal domain, helical carotenoid proteins (HCPs), and its C-terminal domain, are found in the most basal lineages of extant cyanobacteria. These three carotenoproteins exemplify the importance of the protein for carotenoid properties, including protein dynamics, in response to environmental changes in facilitating a photoresponse and energy quenching. Here, we review new structural insights for these carotenoproteins and situate the role of the protein in what is currently understood about their functions.
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- 2024
17. Mistranslating the genetic code with leucine in yeast and mammalian cells
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Davey-Young, Josephine, Hasan, Farah, Tennakoon, Rasangi, Rozik, Peter, Moore, Henry, Hall, Peter, Cozma, Ecaterina, Genereaux, Julie, Hoffman, Kyle S, Chan, Patricia P, Lowe, Todd M, Brandl, Christopher J, and O’Donoghue, Patrick
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Biological Sciences ,Genetics ,Animals ,Humans ,Saccharomyces cerevisiae ,Anticodon ,Leucine ,RNA ,Transfer ,Leu ,Genetic Code ,Codon ,RNA ,Transfer ,Amino Acyl-tRNA Synthetases ,Alanine ,Mammals ,Genetic code ,mistranslation ,neuroblastoma cells ,protein synthesis ,Transfer RNA ,translation fidelity ,yeast ,Developmental Biology ,Biochemistry and cell biology - Abstract
Translation fidelity relies on accurate aminoacylation of transfer RNAs (tRNAs) by aminoacyl-tRNA synthetases (AARSs). AARSs specific for alanine (Ala), leucine (Leu), serine, and pyrrolysine do not recognize the anticodon bases. Single nucleotide anticodon variants in their cognate tRNAs can lead to mistranslation. Human genomes include both rare and more common mistranslating tRNA variants. We investigated three rare human tRNALeu variants that mis-incorporate Leu at phenylalanine or tryptophan codons. Expression of each tRNALeu anticodon variant in neuroblastoma cells caused defects in fluorescent protein production without significantly increased cytotoxicity under normal conditions or in the context of proteasome inhibition. Using tRNA sequencing and mass spectrometry we confirmed that each tRNALeu variant was expressed and generated mistranslation with Leu. To probe the flexibility of the entire genetic code towards Leu mis-incorporation, we created 64 yeast strains to express all possible tRNALeu anticodon variants in a doxycycline-inducible system. While some variants showed mild or no growth defects, many anticodon variants, enriched with G/C at positions 35 and 36, including those replacing Leu for proline, arginine, alanine, or glycine, caused dramatic reductions in growth. Differential phenotypic defects were observed for tRNALeu mutants with synonymous anticodons and for different tRNALeu isoacceptors with the same anticodon. A comparison to tRNAAla anticodon variants demonstrates that Ala mis-incorporation is more tolerable than Leu at nearly every codon. The data show that the nature of the amino acid substitution, the tRNA gene, and the anticodon are each important factors that influence the ability of cells to tolerate mistranslating tRNAs.
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- 2024
18. Methylation patterns associated with C-reactive protein in racially and ethnically diverse populations
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Lundin, Jessica I, Peters, Ulrike, Hu, Yao, Ammous, Farah, Avery, Christy L, Benjamin, Emelia J, Bis, Joshua C, Brody, Jennifer A, Carlson, Chris, Cushman, Mary, Gignoux, Chris, Guo, Xiuqing, Haessler, Jeff, Haiman, Chris, Joehanes, Roby, Kasela, Silva, Kenny, Eimear, Lapalainien, Tuuli, Levy, Daniel, Liu, Chunyu, Liu, Yongmei, Loos, Ruth JF, Lu, Ake, Matise, Tara, North, Kari E, Park, Sungshim L, Ratliff, Scott M, Reiner, Alex, Rich, Stephen S, Rotter, Jerome I, Smith, Jennifer A, Sotoodehnia, Nona, Tracy, Russell, Van den Berg, David, Xu, Huichun, Ye, Ting, Zhao, Wei, Raffield, Laura M, Kooperberg, Charles, and Study, On Behalf of the PAGE
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Biological Sciences ,Genetics ,Minority Health ,American Indian or Alaska Native ,Human Genome ,Health Disparities ,Aetiology ,2.1 Biological and endogenous factors ,Inflammatory and immune system ,Humans ,DNA Methylation ,C-Reactive Protein ,Epigenesis ,Genetic ,DNA ,Inflammation ,Genome-Wide Association Study ,CpG Islands ,Intracellular Signaling Peptides and Proteins ,C-reactive protein ,methylation ,epigenetics ,EWAS ,racial and ethnic diversity ,Mendelian randomization ,causal pathway ,PAGE Study ,Biochemistry and Cell Biology ,Medical Biochemistry and Metabolomics ,Developmental Biology ,Biochemistry and cell biology - Abstract
Systemic low-grade inflammation is a feature of chronic disease. C-reactive protein (CRP) is a common biomarker of inflammation and used as an indicator of disease risk; however, the role of inflammation in disease is not completely understood. Methylation is an epigenetic modification in the DNA which plays a pivotal role in gene expression. In this study we evaluated differential DNA methylation patterns associated with blood CRP level to elucidate biological pathways and genetic regulatory mechanisms to improve the understanding of chronic inflammation. The racially and ethnically diverse participants in this study were included as 50% White, 41% Black or African American, 7% Hispanic or Latino/a, and 2% Native Hawaiian, Asian American, American Indian, or Alaska Native (total n = 13,433) individuals. We replicated 113 CpG sites from 87 unique loci, of which five were novel (CADM3, NALCN, NLRC5, ZNF792, and cg03282312), across a discovery set of 1,150 CpG sites associated with CRP level (p
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- 2024
19. Evaluation of bi-layer silk fibroin grafts for onlay urethroplasty in a rabbit model of urethral stricture disease
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Gundogdu, Gokhan, Budrewicz, Jay, Giordano, Jodie, Melidone, Raffaele, Searcy, Chris, Agarwal, Vikas, Estrada, Carlos R, and Mauney, Joshua R
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Biomedical and Clinical Sciences ,Engineering ,Biomedical Engineering ,Transplantation ,Bioengineering ,Regenerative Medicine ,biomaterial ,silk fibroin ,tissue engineering ,urethra ,urethroplasty ,Medical Biotechnology ,Developmental Biology ,Medical biotechnology ,Biomedical engineering - Abstract
Background: Autologous tissues such as buccal mucosa (BM) are widely used for reconstruction of urethral strictures; however, limitations such as donor site morbidity and scarce tissue supply require the development of alternative biomaterials for urethral repair. The goals of this study were to determine the safety and efficacy of bi-layer silk fibroin (BLSF) matrices for urethral stricture repair and compare histological and functional outcomes to the standard approach, BM urethroplasty under good laboratory practices.Material and methods: A total of 13 rabbits exhibiting urethral stricture formation following electrocoagulation injury were treated with onlay urethroplasty with either acellular BLSF (N = 7) or autologous BM (N = 6) grafts for 3 months. Uninjured control rabbits were maintained in parallel (N = 4).Results and conclusion: Animals receiving BLSF implants were demonstrated to be functionally equivalent to BM grafts in their ability to restored strictured calibers, support micturition and promote tissue regeneration with minimal inflammation.
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- 2024
20. Modulating bacterial function utilizing A knowledge base of transcriptional regulatory modules
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Shin, Jongoh, Zielinski, Daniel C, and Palsson, Bernhard O
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Biochemistry and Cell Biology ,Biological Sciences ,Genetics ,Biotechnology ,Generic health relevance ,Environmental Sciences ,Information and Computing Sciences ,Developmental Biology ,Biological sciences ,Chemical sciences ,Environmental sciences - Abstract
Synthetic biology enables the reprogramming of cellular functions for various applications. However, challenges in scalability and predictability persist due to context-dependent performance and complex circuit-host interactions. This study introduces an iModulon-based engineering approach, utilizing machine learning-defined co-regulated gene groups (iModulons) as design parts containing essential genes for specific functions. This approach identifies the necessary components for genetic circuits across different contexts, enhancing genome engineering by improving target selection and predicting module behavior. We demonstrate several distinct uses of iModulons: (i) discovery of unknown iModulons to increase protein productivity, heat tolerance and fructose utilization; (ii) an iModulon boosting approach, which amplifies the activity of specific iModulons, improved cell growth under osmotic stress with minimal host regulation disruption; (iii) an iModulon rebalancing strategy, which adjusts the activity levels of iModulons to balance cellular functions, significantly increased oxidative stress tolerance while minimizing trade-offs and (iv) iModulon-based gene annotation enabled natural competence activation by predictably rewiring iModulons. Comparative experiments with traditional methods showed our approach offers advantages in efficiency and predictability of strain engineering. This study demonstrates the potential of iModulon-based strategies to systematically and predictably reprogram cellular functions, offering refined and adaptable control over complex regulatory networks.
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- 2024
21. Activation of the helper NRC4 immune receptor forms a hexameric resistosome
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Liu, Furong, Yang, Zhenlin, Wang, Chao, You, Zhang, Martin, Raoul, Qiao, Wenjie, Huang, Jian, Jacob, Pierre, Dangl, Jeffery L, Carette, Jan E, Luan, Sheng, Nogales, Eva, and Staskawicz, Brian J
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Biochemistry and Cell Biology ,Biomedical and Clinical Sciences ,Biological Sciences ,Immunology ,ETI ,NLR proteins ,NRC0 ,NRC2 ,NRC3 ,NRC4 resistosome ,PTI ,calcium influx ,pathogen recognition ,plant immunity ,Medical and Health Sciences ,Developmental Biology ,Biological sciences ,Biomedical and clinical sciences - Abstract
Innate immune responses to microbial pathogens are regulated by intracellular receptors known as nucleotide-binding leucine-rich repeat receptors (NLRs) in both the plant and animal kingdoms. Across plant innate immune systems, "helper" NLRs (hNLRs) work in coordination with "sensor" NLRs (sNLRs) to modulate disease resistance signaling pathways. Activation mechanisms of hNLRs based on structures are unknown. Our research reveals that the hNLR, known as NLR required for cell death 4 (NRC4), assembles into a hexameric resistosome upon activation by the sNLR Bs2 and the pathogenic effector AvrBs2. This conformational change triggers immune responses by facilitating the influx of calcium ions (Ca2+) into the cytosol. The activation mimic alleles of NRC2, NRC3, or NRC4 alone did not induce Ca2+ influx and cell death in animal cells, suggesting that unknown plant-specific factors regulate NRCs' activation in plants. These findings significantly advance our understanding of the regulatory mechanisms governing plant immune responses.
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- 2024
22. Context-dependent roles of mitochondrial LONP1 in orchestrating the balance between airway progenitor versus progeny cells
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Xu, Le, Tan, Chunting, Barr, Justinn, Talaba, Nicole, Verheyden, Jamie, Chin, Ji Sun, Gaboyan, Samvel, Kasaraneni, Nikita, Elgamal, Ruth M, Gaulton, Kyle J, Lin, Grace, Afshar, Kamyar, Golts, Eugene, Meier, Angela, Alexander, Laura E Crotty, Borok, Zea, Shen, Yufeng, Chung, Wendy K, McCulley, David J, and Sun, Xin
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Biochemistry and Cell Biology ,Biomedical and Clinical Sciences ,Biological Sciences ,Chronic Obstructive Pulmonary Disease ,Lung ,Genetics ,Stem Cell Research ,Stem Cell Research - Nonembryonic - Non-Human ,1.1 Normal biological development and functioning ,2.1 Biological and endogenous factors ,Respiratory ,ATF4 ,BOK ,COPD ,airway homeostasis ,differentiated progeny cells ,influenza infection ,integrated stress response ,lung epithelial cells ,mitochondria ,progenitor basal cells ,Medical and Health Sciences ,Developmental Biology ,Biological sciences ,Biomedical and clinical sciences - Abstract
While all eukaryotic cells are dependent on mitochondria for function, in a complex tissue, which cell type and which cell behavior are more sensitive to mitochondrial deficiency remain unpredictable. Here, we show that in the mouse airway, compromising mitochondrial function by inactivating mitochondrial protease gene Lonp1 led to reduced progenitor proliferation and differentiation during development, apoptosis of terminally differentiated ciliated cells and their replacement by basal progenitors and goblet cells during homeostasis, and failed airway progenitor migration into damaged alveoli following influenza infection. ATF4 and the integrated stress response (ISR) pathway are elevated and responsible for the airway phenotypes. Such context-dependent sensitivities are predicted by the selective expression of Bok, which is required for ISR activation. Reduced LONP1 expression is found in chronic obstructive pulmonary disease (COPD) airways with squamous metaplasia. These findings illustrate a cellular energy landscape whereby compromised mitochondrial function could favor the emergence of pathological cell types.
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- 2024
23. The molecular architecture of the nuclear basket
- Author
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Singh, Digvijay, Soni, Neelesh, Hutchings, Joshua, Echeverria, Ignacia, Shaikh, Farhaz, Duquette, Madeleine, Suslov, Sergey, Li, Zhixun, van Eeuwen, Trevor, Molloy, Kelly, Shi, Yi, Wang, Junjie, Guo, Qiang, Chait, Brian T, Fernandez-Martinez, Javier, Rout, Michael P, Sali, Andrej, and Villa, Elizabeth
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Biochemistry and Cell Biology ,Biological Sciences ,Genetics ,1.1 Normal biological development and functioning ,NPC ,chromatin organization ,cross-linking mass spectrometry ,cryo-electron tomography ,cryo-focused-ion-beam milling ,in-cell structural biology ,integrative modeling ,mRNA transport ,nuclear basket ,nuclear pore complex ,subtomogram analysis ,Medical and Health Sciences ,Developmental Biology ,Biological sciences ,Biomedical and clinical sciences - Abstract
The nuclear pore complex (NPC) is the sole mediator of nucleocytoplasmic transport. Despite great advances in understanding its conserved core architecture, the peripheral regions can exhibit considerable variation within and between species. One such structure is the cage-like nuclear basket. Despite its crucial roles in mRNA surveillance and chromatin organization, an architectural understanding has remained elusive. Using in-cell cryo-electron tomography and subtomogram analysis, we explored the NPC's structural variations and the nuclear basket across fungi (yeast; S. cerevisiae), mammals (mouse; M. musculus), and protozoa (T. gondii). Using integrative structural modeling, we computed a model of the basket in yeast and mammals that revealed how a hub of nucleoporins (Nups) in the nuclear ring binds to basket-forming Mlp/Tpr proteins: the coiled-coil domains of Mlp/Tpr form the struts of the basket, while their unstructured termini constitute the basket distal densities, which potentially serve as a docking site for mRNA preprocessing before nucleocytoplasmic transport.
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- 2024
24. Maternal age is related to offspring DNA methylation: A meta‐analysis of results from the PACE consortium
- Author
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Yeung, Edwina, Biedrzycki, Richard J, Herrera, Laura C Gómez, Issarapu, Prachand, Dou, John, Marques, Irene Fontes, Mansuri, Sohail Rafik, Page, Christian Magnus, Harbs, Justin, Khodasevich, Dennis, Poisel, Eric, Niu, Zhongzheng, Allard, Catherine, Casey, Emma, Berstein, Fernanda Morales, Mancano, Giulia, Elliott, Hannah R, Richmond, Rebecca, He, Yiyan, Ronkainen, Justiina, Sebert, Sylvain, Bell, Erin M, Sharp, Gemma, Mumford, Sunni L, Schisterman, Enrique F, Chandak, Giriraj R, Fall, Caroline HD, Sahariah, Sirazul A, Silver, Matt J, Prentice, Andrew M, Bouchard, Luigi, Domellof, Magnus, West, Christina, Holland, Nina, Cardenas, Andres, Eskenazi, Brenda, Zillich, Lea, Witt, Stephanie H, Send, Tabea, Breton, Carrie, Bakulski, Kelly M, Fallin, M Daniele, Schmidt, Rebecca J, Stein, Dan J, Zar, Heather J, Jaddoe, Vincent WV, Wright, John, Grazuleviciene, Regina, Gutzkow, Kristine Bjerve, Sunyer, Jordi, Huels, Anke, Vrijheid, Martine, Harlid, Sophia, London, Stephanie, Hivert, Marie‐France, Felix, Janine, Bustamante, Mariona, and Guan, Weihua
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Biological Sciences ,Biomedical and Clinical Sciences ,Genetics ,Prevention ,Human Genome ,Clinical Research ,Women's Health ,Aging ,Pediatric ,Good Health and Well Being ,DNA Methylation ,Humans ,Female ,Maternal Age ,Infant ,Newborn ,Child ,Adult ,Male ,Child ,Preschool ,CpG Islands ,Pregnancy ,aging ,child ,DNA methylation ,melatonin ,receptor ,Medical and Health Sciences ,Developmental Biology ,Biological sciences ,Biomedical and clinical sciences - Abstract
Worldwide trends to delay childbearing have increased parental ages at birth. Older parental age may harm offspring health, but mechanisms remain unclear. Alterations in offspring DNA methylation (DNAm) patterns could play a role as aging has been associated with methylation changes in gametes of older individuals. We meta-analyzed epigenome-wide associations of parental age with offspring blood DNAm of over 9500 newborns and 2000 children (5-10 years old) from the Pregnancy and Childhood Epigenetics consortium. In newborns, we identified 33 CpG sites in 13 loci with DNAm associated with maternal age (PFDR
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- 2024
25. RDH12 allows cone photoreceptors to regenerate opsin visual pigments from a chromophore precursor to escape competition with rods
- Author
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Kaylor, Joanna J, Frederiksen, Rikard, Bedrosian, Christina K, Huang, Melody, Stennis-Weatherspoon, David, Huynh, Theodore, Ngan, Tiffany, Mulamreddy, Varsha, Sampath, Alapakkam P, Fain, Gordon L, and Travis, Gabriel H
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Biological Sciences ,Biomedical and Clinical Sciences ,Ophthalmology and Optometry ,Eye Disease and Disorders of Vision ,Neurosciences ,Eye ,Animals ,Zebrafish ,Retinal Cone Photoreceptor Cells ,Retinal Rod Photoreceptor Cells ,Alcohol Oxidoreductases ,Zebrafish Proteins ,Retinaldehyde ,Retinal Pigments ,Humans ,Opsins ,RDH12 ,cone photoreceptor ,dehydrogenase ,retinal ,vision ,visual cycle ,zebrafish ,Medical and Health Sciences ,Psychology and Cognitive Sciences ,Developmental Biology ,Biological sciences ,Biomedical and clinical sciences ,Psychology - Abstract
Capture of a photon by an opsin visual pigment isomerizes its 11-cis-retinaldehyde (11cRAL) chromophore to all-trans-retinaldehyde (atRAL), which subsequently dissociates. To restore light sensitivity, the unliganded apo-opsin combines with another 11cRAL to make a new visual pigment. Two enzyme pathways supply chromophore to photoreceptors. The canonical visual cycle in retinal pigment epithelial cells supplies 11cRAL at low rates. The photic visual cycle in Müller cells supplies cones with 11-cis-retinol (11cROL) chromophore precursor at high rates. Although rods can only use 11cRAL to regenerate rhodopsin, cones can use 11cRAL or 11cROL to regenerate cone visual pigments. We performed a screen in zebrafish retinas and identified ZCRDH as a candidate for the enzyme that converts 11cROL to 11cRAL in cone inner segments. Retinoid analysis of eyes from Zcrdh-mutant zebrafish showed reduced 11cRAL and increased 11cROL levels, suggesting impaired conversion of 11cROL to 11cRAL. By microspectrophotometry, isolated Zcrdh-mutant cones lost the capacity to regenerate visual pigments from 11cROL. ZCRDH therefore possesses all predicted properties of the cone 11cROL dehydrogenase. The human protein most similar to ZCRDH is RDH12. By immunocytochemistry, ZCRDH was abundantly present in cone inner segments, similar to the reported distribution of RDH12. Finally, RDH12 was the only mammalian candidate protein to exhibit 11cROL-oxidase catalytic activity. These observations suggest that RDH12 in mammals is the functional ortholog of ZCRDH, which allows cones, but not rods, to regenerate visual pigments from 11cROL provided by Müller cells. This capacity permits cones to escape competition from rods for visual chromophore in daylight-exposed retinas.
- Published
- 2024
26. Cohesin prevents cross-domain gene coactivation
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Dong, Peng, Zhang, Shu, Gandin, Valentina, Xie, Liangqi, Wang, Lihua, Lemire, Andrew L, Li, Wenhong, Otsuna, Hideo, Kawase, Takashi, Lander, Arthur D, Chang, Howard Y, and Liu, Zhe J
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Biochemistry and Cell Biology ,Bioinformatics and Computational Biology ,Genetics ,Biological Sciences ,Biotechnology ,Human Genome ,1.1 Normal biological development and functioning ,Generic health relevance ,Cohesins ,Cell Cycle Proteins ,Chromosomal Proteins ,Non-Histone ,Chromatin ,Gene Expression Regulation ,Promoter Regions ,Genetic ,Single-Cell Analysis ,Saccharomyces cerevisiae ,Transcriptome ,Medical and Health Sciences ,Developmental Biology ,Agricultural biotechnology ,Bioinformatics and computational biology - Abstract
The contrast between the disruption of genome topology after cohesin loss and the lack of downstream gene expression changes instigates intense debates regarding the structure-function relationship between genome and gene regulation. Here, by analyzing transcriptome and chromatin accessibility at the single-cell level, we discover that, instead of dictating population-wide gene expression levels, cohesin supplies a general function to neutralize stochastic coexpression tendencies of cis-linked genes in single cells. Notably, cohesin loss induces widespread gene coactivation and chromatin co-opening tens of million bases apart in cis. Spatial genome and protein imaging reveals that cohesin prevents gene co-bursting along the chromosome and blocks spatial mixing of transcriptional hubs. Single-molecule imaging shows that cohesin confines the exploration of diverse enhancer and core promoter binding transcriptional regulators. Together, these results support that cohesin arranges nuclear topology to control gene coexpression in single cells.
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- 2024
27. A novel reporter for helicase activity in translation uncovers DDX3X interactions
- Author
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Wilkins, Kevin, Schroeder, Till, Gu, Sohyun, Revalde, Jezrael Lafuente, and Floor, Stephen N
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Biochemistry and Cell Biology ,Biological Sciences ,1.1 Normal biological development and functioning ,Generic health relevance ,DEAD-box RNA Helicases ,Humans ,5' Untranslated Regions ,Protein Biosynthesis ,Genes ,Reporter ,Nucleic Acid Conformation ,RNA ,Messenger ,HEK293 Cells ,Protein Binding ,RNA helicases ,RNA structure ,reporter genes ,translational control ,Developmental Biology ,Biochemistry and cell biology - Abstract
DDX3X regulates the translation of a subset of human transcripts containing complex 5' untranslated regions (5' UTRs). In this study, we developed the helicase activity reporter for translation (HART), which uses DDX3X-sensitive 5' UTRs to measure DDX3X-mediated translational activity in cells. To directly measure RNA structure in DDX3X-dependent mRNAs, we used SHAPE-MaP to determine the secondary structures present in DDX3X-sensitive 5' UTRs and then used HART to investigate how sequence alterations influence DDX3X sensitivity. Additionally, we identified residues 38-44 as potential mediators of DDX3X's interaction with the translational machinery. HART revealed that both DDX3X's association with the translational machinery and its helicase activity are required for its function in promoting the translation of DDX3X-sensitive 5' UTRs. These findings suggest DDX3X plays a crucial role in regulating translation through its interaction with the translational machinery during ribosome scanning and establish the HART reporter as a robust, lentivirally encoded, colorimetric measurement of DDX3X-dependent translation in cells.
- Published
- 2024
28. Hemodynamics regulate spatiotemporal artery muscularization in the developing circle of Willis.
- Author
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Cheng, Siyuan, Xia, Ivan, Wanner, Renate, Abello, Javier, Stratman, Amber, and Nicoli, Stefania
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artery muscularization ,brain artery development ,circle of Willis ,developmental biology ,flow hemodynamics ,vascular smooth muscle cell differentiation ,zebrafish ,Animals ,Zebrafish ,Circle of Willis ,Muscle ,Smooth ,Vascular ,Cell Differentiation ,Humans ,Hemodynamics ,Myocytes ,Smooth Muscle ,Endothelial Cells - Abstract
Vascular smooth muscle cells (VSMCs) envelop vertebrate brain arteries and play a crucial role in regulating cerebral blood flow and neurovascular coupling. The dedifferentiation of VSMCs is implicated in cerebrovascular disease and neurodegeneration. Despite its importance, the process of VSMC differentiation on brain arteries during development remains inadequately characterized. Understanding this process could aid in reprogramming and regenerating dedifferentiated VSMCs in cerebrovascular diseases. In this study, we investigated VSMC differentiation on zebrafish circle of Willis (CoW), comprising major arteries that supply blood to the vertebrate brain. We observed that arterial specification of CoW endothelial cells (ECs) occurs after their migration from cranial venous plexus to form CoW arteries. Subsequently, acta2+ VSMCs differentiate from pdgfrb+ mural cell progenitors after they were recruited to CoW arteries. The progression of VSMC differentiation exhibits a spatiotemporal pattern, advancing from anterior to posterior CoW arteries. Analysis of blood flow suggests that earlier VSMC differentiation in anterior CoW arteries correlates with higher red blood cell velocity and wall shear stress. Furthermore, pulsatile flow induces differentiation of human brain PDGFRB+ mural cells into VSMCs, and blood flow is required for VSMC differentiation on zebrafish CoW arteries. Consistently, flow-responsive transcription factor klf2a is activated in ECs of CoW arteries prior to VSMC differentiation, and klf2a knockdown delays VSMC differentiation on anterior CoW arteries. In summary, our findings highlight blood flow activation of endothelial klf2a as a mechanism regulating initial VSMC differentiation on vertebrate brain arteries.
- Published
- 2024
29. Site-specific regulation of RNA editing with ribose-modified nucleoside analogs in ADAR guide strands
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Jauregui-Matos, Victorio, Jacobs, Olivia, Ouye, Randall, Mozumder, Sukanya, Salvador, Prince J, Fink, Kyle D, and Beal, Peter A
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Biological Sciences ,Bioinformatics and Computational Biology ,Genetics ,RNA Editing ,Adenosine Deaminase ,Ribose ,Humans ,Oligonucleotides ,RNA-Binding Proteins ,Methylation ,Adenosine ,Nucleosides ,RNA ,Inosine ,Environmental Sciences ,Information and Computing Sciences ,Developmental Biology ,Biological sciences ,Chemical sciences ,Environmental sciences - Abstract
Adenosine Deaminases Acting on RNA (ADARs) are enzymes that catalyze the conversion of adenosine to inosine in RNA duplexes. These enzymes can be harnessed to correct disease-causing G-to-A mutations in the transcriptome because inosine is translated as guanosine. Guide RNAs (gRNAs) can be used to direct the ADAR reaction to specific sites. Chemical modification of ADAR guide strands is required to facilitate delivery, increase metabolic stability, and increase the efficiency and selectivity of the editing reaction. Here, we show the ADAR reaction is highly sensitive to ribose modifications (e.g. 4'-C-methylation and Locked Nucleic Acid (LNA) substitution) at specific positions within the guide strand. Our studies were enabled by the synthesis of RNA containing a new, ribose-modified nucleoside analog (4'-C-methyladenosine). Importantly, the ADAR reaction is potently inhibited by LNA or 4'-C-methylation at different positions in the ADAR guide. While LNA at guide strand positions -1 and -2 block the ADAR reaction, 4'-C-methylation only inhibits at the -2 position. These effects are rationalized using high-resolution structures of ADAR-RNA complexes. This work sheds additional light on the mechanism of ADAR deamination and aids in the design of highly selective ADAR guide strands for therapeutic editing using chemically modified RNA.
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- 2024
30. What Makes a Mimic? Orange, Red, and Black Color Production in the Mimic Poison Frog (Ranitomeya imitator)
- Author
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Rubio, Andrew O, Stuckert, Adam MM, Geralds, BreAnn, Nielsen, Rasmus, MacManes, Matthew D, and Summers, Kyle
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Biological Sciences ,Ecology ,Genetics ,Animals ,Biological Mimicry ,Melanins ,Pigmentation ,Poison Frogs ,amphibian ,aposematism ,coloration genetics ,gene expression ,genomics ,Biochemistry and Cell Biology ,Evolutionary Biology ,Developmental Biology ,Biochemistry and cell biology ,Evolutionary biology - Abstract
Aposematic organisms rely on their conspicuous appearance to signal that they are defended and unpalatable. Such phenotypes are strongly tied to survival and reproduction. Aposematic colors and patterns are highly variable; however, the genetic, biochemical, and physiological mechanisms producing this conspicuous coloration remain largely unidentified. Here, we identify genes potentially affecting color variation in two color morphs of Ranitomeya imitator: the orange-banded Sauce and the redheaded Varadero morphs. We examine gene expression in black and orange skin patches from the Sauce morph and black and red skin patches from the Varadero morph. We identified genes differentially expressed between skin patches, including those that are involved in melanin synthesis (e.g. mlana, pmel, tyrp1), iridophore development (e.g. paics, ppat, ak1), pteridine synthesis (e.g. gch1, pax3-a, xdh), and carotenoid metabolism (e.g. dgat2, rbp1, scarb2). In addition, using weighted correlation network analysis, we identified the top 50 genes with high connectivity from the most significant network associated with gene expression differences between color morphs. Of these 50 genes, 13 were known to be related to color production (gch1, gmps, gpr143, impdh1, mc1r, pax3-a, pax7, ppat, rab27a, rlbp1, tfec, trpm1, xdh).
- Published
- 2024
31. Low- and high-grade glioma-associated vascular cells differentially regulate tumor growth
- Author
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Muthukrishnan, Sree Deepthi, Qi, Haocheng, Wang, David, Elahi, Lubayna, Pham, Amy, Alvarado, Alvaro G, Li, Tie, Gao, Fuying, Kawaguchi, Riki, Lai, Albert, and Kornblum, Harley I
- Subjects
Biomedical and Clinical Sciences ,Oncology and Carcinogenesis ,Rare Diseases ,Brain Cancer ,Cancer ,Brain Disorders ,Neurosciences ,Genetics ,Humans ,Glioma ,Animals ,Mice ,Brain Neoplasms ,Neovascularization ,Pathologic ,Cell Line ,Tumor ,Cell Proliferation ,Mutation ,Neoplasm Grading ,Developmental Biology ,Oncology & Carcinogenesis ,Biochemistry and cell biology ,Oncology and carcinogenesis - Abstract
A key feature distinguishing high-grade glioma (HG) from low-grade glioma (LG) is the extensive neovascularization and endothelial hyperproliferation. Prior work has shown that tumor-associated vasculature from HG is molecularly and functionally distinct from normal brain vasculature and expresses higher levels of protumorigenic factors that promote glioma growth and progression. However, it remains unclear whether vessels from LG also express protumorigenic factors, and to what extent they functionally contribute to glioma growth. Here, we profile the transcriptomes of glioma-associated vascular cells (GVC) from IDH-mutant (mIDH) LG and IDH-wild-type (wIDH) HG and show that they exhibit significant molecular and functional differences. LG-GVC show enrichment of extracellular matrix-related gene sets and sensitivity to antiangiogenic drugs, whereas HG-GVC display an increase in immune response-related gene sets and antiangiogenic resistance. Strikingly, conditioned media from LG-GVC inhibits the growth of wIDH glioblastoma cells, whereas HG-GVC promotes growth. In vivo cotransplantation of LG-GVC with tumor cells reduces growth, whereas HG-GVC enhances tumor growth in orthotopic xenografts. We identify ASPORIN (ASPN), a small leucine-rich repeat proteoglycan, highly enriched in LG-GVC as a growth suppressor of wIDH glioblastoma cells in vitro and in vivo. Together, these findings indicate that GVC from LG and HG are molecularly and functionally distinct and differentially regulate tumor growth. Implications: This study demonstrated that vascular cells from IDH-mutant LG and IDH-wild-type HG exhibit distinct molecular signatures and have differential effects on tumor growth via regulation of ASPN-TGFβ1-GPM6A signaling.
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- 2024
32. Activation of fetal-like molecular programs during regeneration in the intestine and beyond
- Author
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Viragova, Sara, Li, Dong, and Klein, Ophir D
- Subjects
Reproductive Medicine ,Biomedical and Clinical Sciences ,Stem Cell Research - Nonembryonic - Non-Human ,Regenerative Medicine ,Stem Cell Research ,1.1 Normal biological development and functioning ,Regeneration ,Humans ,Animals ,Intestines ,Cell Differentiation ,Fetus ,Signal Transduction ,Hippo ,YAP ,colon ,dedifferentiation ,developmental reprogramming ,epithelium ,fetal-like reversion ,intestinal epithelium ,intestine ,liver ,paligenosis ,plasticity ,regeneration ,stem cells ,stomach ,Biological Sciences ,Medical and Health Sciences ,Developmental Biology ,Biological sciences ,Biomedical and clinical sciences - Abstract
Tissue regeneration after damage is generally thought to involve the mobilization of adult stem cells that divide and differentiate into progressively specialized progeny. However, recent studies indicate that tissue regeneration can be accompanied by reversion to a fetal-like state. During this process, cells at the injury site reactivate programs that operate during fetal development but are typically absent in adult homeostasis. Here, we summarize our current understanding of the molecular signals and epigenetic mediators that orchestrate "fetal-like reversion" during intestinal regeneration. We also explore evidence for this phenomenon in other organs and species and highlight open questions that merit future examination.
- Published
- 2024
33. Adapting and facilitating responses in mouse somatosensory cortex are dynamic and shaped by experience
- Author
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Dobler, Zoë, Suresh, Anand, Chari, Trishala, Mula, Supriya, Tran, Anne, Buonomano, Dean V, and Portera-Cailliau, Carlos
- Subjects
Biomedical and Clinical Sciences ,Neurosciences ,1.1 Normal biological development and functioning ,Neurological ,barrel cortex ,calcium imaging ,facilitation ,habituation ,population drift ,sensitization ,stimulus-specific adaptation ,two-photon ,whisker ,Biological Sciences ,Medical and Health Sciences ,Psychology and Cognitive Sciences ,Developmental Biology ,Biological sciences ,Biomedical and clinical sciences ,Psychology - Abstract
Sensory adaptation is the process whereby brain circuits adjust neuronal activity in response to redundant sensory stimuli. Although sensory adaptation has been extensively studied for individual neurons on timescales of tens of milliseconds to a few seconds, little is known about it over longer timescales or at the population level. We investigated population-level adaptation in the barrel field of the mouse somatosensory cortex (S1BF) using in vivo two-photon calcium imaging and Neuropixels recordings in awake mice. Among stimulus-responsive neurons, we found both adapting and facilitating neurons, which decreased or increased their firing, respectively, with repetitive whisker stimulation. The former outnumbered the latter by 2:1 in layers 2/3 and 4; hence, the overall population response of mouse S1BF was slightly adapting. We also discovered that population adaptation to one stimulus frequency (5 Hz) does not necessarily generalize to a different frequency (12.5 Hz). Moreover, responses of individual neurons to repeated rounds of stimulation over tens of minutes were strikingly heterogeneous and stochastic, such that their adapting or facilitating response profiles were not stable across time. Such representational drift was particularly striking when recording longitudinally across 8-9 days, as adaptation profiles of most whisker-responsive neurons changed drastically from one day to the next. Remarkably, repeated exposure to a familiar stimulus paradoxically shifted the population away from strong adaptation and toward facilitation. Thus, the adapting vs. facilitating response profile of S1BF neurons is not a fixed property of neurons but rather a highly dynamic feature that is shaped by sensory experience across days.
- Published
- 2024
34. Multicellular magnetotactic bacteria are genetically heterogeneous consortia with metabolically differentiated cells
- Author
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Schaible, George A, Jay, Zackary J, Cliff, John, Schulz, Frederik, Gauvin, Colin, Goudeau, Danielle, Malmstrom, Rex R, Ruff, S Emil, Edgcomb, Virginia, and Hatzenpichler, Roland
- Subjects
Microbiology ,Biological Sciences ,Ecology ,Genetics ,Human Genome ,Biotechnology ,Generic health relevance ,In Situ Hybridization ,Fluorescence ,Metagenome ,Microbial Consortia ,Genome ,Bacterial ,Bacteria ,Genetic Variation ,Phylogeny ,Agricultural and Veterinary Sciences ,Medical and Health Sciences ,Developmental Biology ,Agricultural ,veterinary and food sciences ,Biological sciences ,Biomedical and clinical sciences - Abstract
Consortia of multicellular magnetotactic bacteria (MMB) are currently the only known example of bacteria without a unicellular stage in their life cycle. Because of their recalcitrance to cultivation, most previous studies of MMB have been limited to microscopic observations. To study the biology of these unique organisms in more detail, we use multiple culture-independent approaches to analyze the genomics and physiology of MMB consortia at single-cell resolution. We separately sequenced the metagenomes of 22 individual MMB consortia, representing 8 new species, and quantified the genetic diversity within each MMB consortium. This revealed that, counter to conventional views, cells within MMB consortia are not clonal. Single consortia metagenomes were then used to reconstruct the species-specific metabolic potential and infer the physiological capabilities of MMB. To validate genomic predictions, we performed stable isotope probing (SIP) experiments and interrogated MMB consortia using fluorescence in situ hybridization (FISH) combined with nanoscale secondary ion mass spectrometry (NanoSIMS). By coupling FISH with bioorthogonal noncanonical amino acid tagging (BONCAT), we explored their in situ activity as well as variation of protein synthesis within cells. We demonstrate that MMB consortia are mixotrophic sulfate reducers and that they exhibit metabolic differentiation between individual cells, suggesting that MMB consortia are more complex than previously thought. These findings expand our understanding of MMB diversity, ecology, genomics, and physiology, as well as offer insights into the mechanisms underpinning the multicellular nature of their unique lifestyle.
- Published
- 2024
35. Multi-step control of homologous recombination via Mec1/ATR suppresses chromosomal rearrangements
- Author
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Xie, Bokun, Sanford, Ethan James, Hung, Shih-Hsun, Wagner, Mateusz, Heyer, Wolf-Dietrich, and Smolka, Marcus B
- Subjects
Biochemistry and Cell Biology ,Biological Sciences ,Genetics ,Prevention ,Human Genome ,Saccharomyces cerevisiae Proteins ,Saccharomyces cerevisiae ,Protein Serine-Threonine Kinases ,Homologous Recombination ,Intracellular Signaling Peptides and Proteins ,Cell Cycle Proteins ,Checkpoint Kinase 2 ,RecQ Helicases ,Signal Transduction ,Phosphorylation ,Chromosome Aberrations ,Gene Rearrangement ,Mec1 ,Sgs1 ,Resection ,Chromosomal Rearrangement ,Information and Computing Sciences ,Medical and Health Sciences ,Developmental Biology ,Biological sciences ,Biomedical and clinical sciences - Abstract
The Mec1/ATR kinase is crucial for genome stability, yet the mechanism by which it prevents gross chromosomal rearrangements (GCRs) remains unknown. Here we find that in cells with deficient Mec1 signaling, GCRs accumulate due to the deregulation of multiple steps in homologous recombination (HR). Mec1 primarily suppresses GCRs through its role in activating the canonical checkpoint kinase Rad53, which ensures the proper control of DNA end resection. Upon loss of Rad53 signaling and resection control, Mec1 becomes hyperactivated and triggers a salvage pathway in which the Sgs1 helicase is recruited to sites of DNA lesions via the 911-Dpb11 scaffolds and phosphorylated by Mec1 to favor heteroduplex rejection and limit HR-driven GCR accumulation. Fusing an ssDNA recognition domain to Sgs1 bypasses the requirement of Mec1 signaling for GCR suppression and nearly eliminates D-loop formation, thus preventing non-allelic recombination events. We propose that Mec1 regulates multiple steps of HR to prevent GCRs while ensuring balanced HR usage when needed for promoting tolerance to replication stress.
- Published
- 2024
36. DART.2: bidirectional synaptic pharmacology with thousandfold cellular specificity
- Author
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Shields, Brenda C, Yan, Haidun, Lim, Shaun SX, Burwell, Sasha CV, Cammarata, Celine M, Fleming, Elizabeth A, Yousefzadeh, S Aryana, Goldenshtein, Victoria Z, Kahuno, Elizabeth W, Vagadia, Purav P, Loughran, Marie H, Zhiquan, Lei, McDonnell, Mark E, Scalabrino, Miranda L, Thapa, Mishek, Hawley, Tammy M, Field, Greg D, Hull, Court, Schiltz, Gary E, Glickfeld, Lindsey L, Reitz, Allen B, and Tadross, Michael R
- Subjects
Biological Sciences ,Neurosciences ,Mental Health ,1.1 Normal biological development and functioning ,Neurological ,Good Health and Well Being ,Animals ,Mice ,Synapses ,Brain ,Male ,Mice ,Inbred C57BL ,Humans ,Female ,Dopaminergic Neurons ,Technology ,Medical and Health Sciences ,Developmental Biology ,Biological sciences - Abstract
Precision pharmacology aims to manipulate specific cellular interactions within complex tissues. In this pursuit, we introduce DART.2 (drug acutely restricted by tethering), a second-generation cell-specific pharmacology technology. The core advance is optimized cellular specificity-up to 3,000-fold in 15 min-enabling the targeted delivery of even epileptogenic drugs without off-target effects. Additionally, we introduce brain-wide dosing methods as an alternative to local cannulation and tracer reagents for brain-wide dose quantification. We describe four pharmaceuticals-two that antagonize excitatory and inhibitory postsynaptic receptors, and two that allosterically potentiate these receptors. Their versatility is showcased across multiple mouse-brain regions, including cerebellum, striatum, visual cortex and retina. Finally, in the ventral tegmental area, we find that blocking inhibitory inputs to dopamine neurons accelerates locomotion, contrasting with previous optogenetic and pharmacological findings. Beyond enabling the bidirectional perturbation of chemical synapses, these reagents offer intersectional precision-between genetically defined postsynaptic cells and neurotransmitter-defined presynaptic partners.
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- 2024
37. Single-stranded pre-methylated 5mC adapters uncover the methylation profile of plasma ultrashort Single-stranded cell-free DNA
- Author
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Cheng, Jordan C, Swarup, Neeti, Morselli, Marco, Huang, Wei-Lun, Aziz, Mohammad, Caggiano, Christa, Kordi, Misagh, Patel, Abhijit A, Chia, David, Kim, Yong, Li, Feng, Wei, Fang, Zaitlen, Noah, Krysan, Kostyantyn, Dubinett, Steve, Pellegrini, Matteo, and Wong, David TW
- Subjects
Biological Sciences ,Bioinformatics and Computational Biology ,Genetics ,Human Genome ,Cancer ,Genetic Testing ,Cancer Genomics ,DNA Methylation ,Humans ,Cell-Free Nucleic Acids ,CpG Islands ,DNA ,Single-Stranded ,5-Methylcytosine ,Lung Neoplasms ,Sulfites ,Promoter Regions ,Genetic ,Sequence Analysis ,DNA ,Whole Genome Sequencing ,Environmental Sciences ,Information and Computing Sciences ,Developmental Biology ,Biological sciences ,Chemical sciences ,Environmental sciences - Abstract
Whole-genome bisulfite sequencing (BS-Seq) measures cytosine methylation changes at single-base resolution and can be used to profile cell-free DNA (cfDNA). In plasma, ultrashort single-stranded cfDNA (uscfDNA, ∼50 nt) has been identified together with 167 bp double-stranded mononucleosomal cell-free DNA (mncfDNA). However, the methylation profile of uscfDNA has not been described. Conventional BS-Seq workflows may not be helpful because bisulfite conversion degrades larger DNA into smaller fragments, leading to erroneous categorization as uscfDNA. We describe the '5mCAdpBS-Seq' workflow in which pre-methylated 5mC (5-methylcytosine) single-stranded adapters are ligated to heat-denatured cfDNA before bisulfite conversion. This method retains only DNA fragments that are unaltered by bisulfite treatment, resulting in less biased uscfDNA methylation analysis. Using 5mCAdpBS-Seq, uscfDNA had lower levels of DNA methylation (∼15%) compared to mncfDNA and was enriched in promoters and CpG islands. Hypomethylated uscfDNA fragments were enriched in upstream transcription start sites (TSSs), and the intensity of enrichment was correlated with expressed genes of hemopoietic cells. Using tissue-of-origin deconvolution, we inferred that uscfDNA is derived primarily from eosinophils, neutrophils, and monocytes. As proof-of-principle, we show that characteristics of the methylation profile of uscfDNA can distinguish non-small cell lung carcinoma from non-cancer samples. The 5mCAdpBS-Seq workflow is recommended for any cfDNA methylation-based investigations.
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- 2024
38. Harnessing the power of new genetic tools to illuminate Giardia biology and pathogenesis
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Hagen, Kari D, Hart, Christopher JS, McInally, Shane G, and Dawson, Scott C
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Biochemistry and Cell Biology ,Genetics ,Biological Sciences ,Digestive Diseases ,Biotechnology ,Emerging Infectious Diseases ,Infectious Diseases ,Biodefense ,2.1 Biological and endogenous factors ,Giardia ,Giardiasis ,Protozoan Proteins ,Humans ,CRISPR-Cas Systems ,Animals ,CRISPR/Cas9 ,morpholino ,CRISPRi ,Cre-Lox ,Developmental Biology ,Biochemistry and cell biology - Abstract
Giardia is a prevalent single-celled microaerophilic intestinal parasite causing diarrheal disease and significantly impacting global health. Double diploid (essentially tetraploid) Giardia trophozoites have presented a formidable challenge to the development of molecular genetic tools to interrogate gene function. High sequence divergence and the high percentage of hypothetical proteins lacking homology to proteins in other eukaryotes have limited our understanding of Giardia protein function, slowing drug target validation and development. For more than 25 years, Giardia A and B assemblages have been readily amenable to transfection with plasmids or linear DNA templates. Here, we highlight the utility and power of genetic approaches developed to assess protein function in Giardia, with particular emphasis on the more recent clustered regularly interspaced palindromic repeats/Cas9-based methods for knockdowns and knockouts. Robust and reliable molecular genetic approaches are fundamental toward the interrogation of Giardia protein function and evaluation of druggable targets. New genetic approaches tailored for the double diploid Giardia are imperative for understanding Giardia's unique biology and pathogenesis.
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- 2024
39. Higher expression of denervation‐responsive genes is negatively associated with muscle volume and performance traits in the study of muscle, mobility, and aging (SOMMA)
- Author
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Lukasiewicz, Cole J, Tranah, Gregory J, Evans, Daniel S, Coen, Paul M, Barnes, Haley N, Huo, Zhiguang, Esser, Karyn A, Zhang, Xiping, Wolff, Christopher, Wu, Kevin, Lane, Nancy E, Kritchevsky, Steven B, Newman, Anne B, Cummings, Steven R, Cawthon, Peggy M, and Hepple, Russell T
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Medical Physiology ,Biomedical and Clinical Sciences ,Aging ,Genetics ,Underpinning research ,1.1 Normal biological development and functioning ,Musculoskeletal ,gene expression profiling ,muscle ,skeletal ,neuromuscular junction ,denervation ,Biological Sciences ,Medical and Health Sciences ,Developmental Biology ,Biological sciences ,Biomedical and clinical sciences - Abstract
With aging skeletal muscle fibers undergo repeating cycles of denervation and reinnervation. In approximately the 8th decade of life reinnervation no longer keeps pace, resulting in the accumulation of persistently denervated muscle fibers that in turn cause an acceleration of muscle dysfunction. The significance of denervation in important clinical outcomes with aging is poorly studied. The Study of Muscle, Mobility, and Aging (SOMMA) is a large cohort study with the primary objective to assess how aging muscle biology impacts clinically important traits. Using transcriptomics data from vastus lateralis muscle biopsies in 575 participants we have selected 49 denervation-responsive genes to provide insights to the burden of denervation in SOMMA, to test the hypothesis that greater expression of denervation-responsive genes negatively associates with SOMMA participant traits that included time to walk 400 meters, fitness (VO2peak), maximal mitochondrial respiration, muscle mass and volume, and leg muscle strength and power. Consistent with our hypothesis, increased transcript levels of: a calciumdependent intercellular adhesion glycoprotein (CDH15), acetylcholine receptor subunits (CHRNA1, CHRND, CHRNE), a glycoprotein promoting reinnervation (NCAM1), a transcription factor regulating aspects of muscle organization (RUNX1), and a sodium channel (SCN5A) were each negatively associated with at least 3 of these traits. VO2peak and maximal respiration had the strongest negative associations with 15 and 19 denervation-responsive genes, respectively. In conclusion, the abundance of denervationresponsive gene transcripts is a significant determinant of muscle and mobility outcomes in aging humans, supporting the imperative to identify new treatment strategies to restore innervation in advanced age.
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- 2024
40. Multiplex profiling of developmental cis-regulatory elements with quantitative single-cell expression reporters
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Lalanne, Jean-Benoît, Regalado, Samuel G, Domcke, Silvia, Calderon, Diego, Martin, Beth K, Li, Xiaoyi, Li, Tony, Suiter, Chase C, Lee, Choli, Trapnell, Cole, and Shendure, Jay
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Biochemistry and Cell Biology ,Bioinformatics and Computational Biology ,Biological Sciences ,Genetics ,Human Genome ,Biotechnology ,Bioengineering ,1.1 Normal biological development and functioning ,Generic health relevance ,Single-Cell Analysis ,Animals ,Mice ,Gene Expression Regulation ,Developmental ,Genes ,Reporter ,Regulatory Sequences ,Nucleic Acid ,Humans ,Transcription Factors ,Chromatin ,Regulatory Elements ,Transcriptional ,Gene Expression Profiling ,Technology ,Medical and Health Sciences ,Developmental Biology ,Biological sciences - Abstract
The inability to scalably and precisely measure the activity of developmental cis-regulatory elements (CREs) in multicellular systems is a bottleneck in genomics. Here we develop a dual RNA cassette that decouples the detection and quantification tasks inherent to multiplex single-cell reporter assays. The resulting measurement of reporter expression is accurate over multiple orders of magnitude, with a precision approaching the limit set by Poisson counting noise. Together with RNA barcode stabilization via circularization, these scalable single-cell quantitative expression reporters provide high-contrast readouts, analogous to classic in situ assays but entirely from sequencing. Screening >200 regions of accessible chromatin in a multicellular in vitro model of early mammalian development, we identify 13 (8 previously uncharacterized) autonomous and cell-type-specific developmental CREs. We further demonstrate that chimeric CRE pairs generate cognate two-cell-type activity profiles and assess gain- and loss-of-function multicellular expression phenotypes from CRE variants with perturbed transcription factor binding sites. Single-cell quantitative expression reporters can be applied in developmental and multicellular systems to quantitatively characterize native, perturbed and synthetic CREs at scale, with high sensitivity and at single-cell resolution.
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- 2024
41. Rapid DNA unwinding accelerates genome editing by engineered CRISPR-Cas9
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Eggers, Amy R, Chen, Kai, Soczek, Katarzyna M, Tuck, Owen T, Doherty, Erin E, Xu, Bryant, Trinidad, Marena I, Thornton, Brittney W, Yoon, Peter H, and Doudna, Jennifer A
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Biochemistry and Cell Biology ,Biological Sciences ,Genetics ,Biotechnology ,Gene Therapy ,2.1 Biological and endogenous factors ,1.1 Normal biological development and functioning ,Generic health relevance ,Cancer ,Humans ,Bacterial Proteins ,CRISPR-Associated Protein 9 ,CRISPR-Cas Systems ,Cryoelectron Microscopy ,DNA ,Gene Editing ,Geobacillus stearothermophilus ,HEK293 Cells ,Protein Domains ,Genome ,Human ,Models ,Molecular ,Protein Structure ,Tertiary ,Nucleic Acid Conformation ,Biocatalysis ,Magnesium ,CRISPR-Cas ,Cas9 engineering ,DNA unwinding ,GeoCas9 ,R-loop formation ,WED domain ,cryo-EM ,genome editing ,iGeoCas9 ,magnesium ,Medical and Health Sciences ,Developmental Biology ,Biological sciences ,Biomedical and clinical sciences - Abstract
Thermostable clustered regularly interspaced short palindromic repeats (CRISPR) and CRISPR-associated (Cas9) enzymes could improve genome-editing efficiency and delivery due to extended protein lifetimes. However, initial experimentation demonstrated Geobacillus stearothermophilus Cas9 (GeoCas9) to be virtually inactive when used in cultured human cells. Laboratory-evolved variants of GeoCas9 overcome this natural limitation by acquiring mutations in the wedge (WED) domain that produce >100-fold-higher genome-editing levels. Cryoelectron microscopy (cryo-EM) structures of the wild-type and improved GeoCas9 (iGeoCas9) enzymes reveal extended contacts between the WED domain of iGeoCas9 and DNA substrates. Biochemical analysis shows that iGeoCas9 accelerates DNA unwinding to capture substrates under the magnesium-restricted conditions typical of mammalian but not bacterial cells. These findings enabled rational engineering of other Cas9 orthologs to enhance genome-editing levels, pointing to a general strategy for editing enzyme improvement. Together, these results uncover a new role for the Cas9 WED domain in DNA unwinding and demonstrate how accelerated target unwinding dramatically improves Cas9-induced genome-editing activity.
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- 2024
42. Dermal TRPV1 innervations engage a macrophage- and fibroblast-containing pathway to activate hair growth in mice
- Author
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Ben-Shaanan, Tamar L, Knöpper, Konrad, Duan, Lihui, Liu, Ruiqi, Taglinao, Hanna, Xu, Ying, An, Jinping, Plikus, Maksim V, and Cyster, Jason G
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Biochemistry and Cell Biology ,Biological Sciences ,Neurosciences ,Chronic Pain ,Pain Research ,2.1 Biological and endogenous factors ,1.1 Normal biological development and functioning ,CGRP ,Spp1 ,TRPV1 ,fibroblasts ,hair ,injury ,macrophages ,neurons ,pain ,skin ,Medical and Health Sciences ,Developmental Biology ,Biochemistry and cell biology - Abstract
Pain, detected by nociceptors, is an integral part of injury, yet whether and how it can impact tissue physiology and recovery remain understudied. Here, we applied chemogenetics in mice to locally activate dermal TRPV1 innervations in naive skin and found that it triggered new regenerative cycling by dormant hair follicles (HFs). This was preceded by rapid apoptosis of dermal macrophages, mediated by the neuropeptide calcitonin gene-related peptide (CGRP). TRPV1 activation also triggered a macrophage-dependent induction of osteopontin (Spp1)-expressing dermal fibroblasts. The neuropeptide CGRP and the extracellular matrix protein Spp1 were required for the nociceptor-triggered hair growth. Finally, we showed that epidermal abrasion injury induced Spp1-expressing dermal fibroblasts and hair growth via a TRPV1 neuron and CGRP-dependent mechanism. Collectively, these data demonstrated a role for TRPV1 nociceptors in orchestrating a macrophage and fibroblast-supported mechanism to promote hair growth and enabling the efficient restoration of this mechano- and thermo-protective barrier after wounding.
- Published
- 2024
43. A brainstem maestro conducting the somatic and autonomic motor symphony
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Huang, Xiaolin and Dan, Yang
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Biomedical and Clinical Sciences ,Neurosciences ,Underpinning research ,1.1 Normal biological development and functioning ,Animals ,Arousal ,Autonomic Nervous System ,Brain Stem ,Medulla Oblongata ,Neurons ,Sympathetic Nervous System ,Periodicals as Topic ,Spinal Nerves ,Biological Sciences ,Medical and Health Sciences ,Developmental Biology ,Biological sciences ,Biomedical and clinical sciences - Abstract
Somatic and sympathetic tones fluctuate together seamlessly across daily behaviors. In this issue of Cell, Zhang et al. describe populations of spinal projecting neurons in the rostral ventromedial medulla (rVMM) that harmonize somatic motor function and sympathetic activation. The coordinated regulation plays a vital role in supporting behaviors associated with various arousal states.
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- 2024
44. Spatial genomic, biochemical and cellular mechanisms underlying meningioma heterogeneity and evolution
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Lucas, Calixto-Hope G, Mirchia, Kanish, Seo, Kyounghee, Najem, Hinda, Chen, William C, Zakimi, Naomi, Foster, Kyla, Eaton, Charlotte D, Cady, Martha A, Choudhury, Abrar, Liu, S John, Phillips, Joanna J, Magill, Stephen T, Horbinski, Craig M, Solomon, David A, Perry, Arie, Vasudevan, Harish N, Heimberger, Amy B, and Raleigh, David R
- Subjects
Agricultural ,Veterinary and Food Sciences ,Biological Sciences ,Bioinformatics and Computational Biology ,Genetics ,Agricultural Biotechnology ,Human Genome ,Cancer Genomics ,Brain Cancer ,Precision Medicine ,Biotechnology ,Cancer ,Brain Disorders ,Rare Diseases ,Good Health and Well Being ,Meningioma ,Humans ,Meningeal Neoplasms ,Genetic Heterogeneity ,DNA Copy Number Variations ,Gene Expression Regulation ,Neoplastic ,Genomics ,Single-Cell Analysis ,Cell Proliferation ,Neoplasm Recurrence ,Local ,Signal Transduction ,Cell Line ,Tumor ,Transcriptome ,Medical and Health Sciences ,Developmental Biology ,Agricultural biotechnology ,Bioinformatics and computational biology - Abstract
Intratumor heterogeneity underlies cancer evolution and treatment resistance, but targetable mechanisms driving intratumor heterogeneity are poorly understood. Meningiomas are the most common primary intracranial tumors and are resistant to all medical therapies, and high-grade meningiomas have significant intratumor heterogeneity. Here we use spatial approaches to identify genomic, biochemical and cellular mechanisms linking intratumor heterogeneity to the molecular, temporal and spatial evolution of high-grade meningiomas. We show that divergent intratumor gene and protein expression programs distinguish high-grade meningiomas that are otherwise grouped together by current classification systems. Analyses of matched pairs of primary and recurrent meningiomas reveal spatial expansion of subclonal copy number variants associated with treatment resistance. Multiplexed sequential immunofluorescence and deconvolution of meningioma spatial transcriptomes using cell types from single-cell RNA sequencing show decreased immune infiltration, decreased MAPK signaling, increased PI3K-AKT signaling and increased cell proliferation, which are associated with meningioma recurrence. To translate these findings to preclinical models, we use CRISPR interference and lineage tracing approaches to identify combination therapies that target intratumor heterogeneity in meningioma cell co-cultures.
- Published
- 2024
45. The microtubular preprophase band recruits Myosin XI to the cortical division site to guide phragmoplast expansion during plant cytokinesis
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Huang, Calvin Haoyuan, Peng, Felicia Lei, Lee, Yuh-Ru Julie, and Liu, Bo
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Biochemistry and Cell Biology ,Biological Sciences ,Underpinning research ,1.1 Normal biological development and functioning ,PPB ,actin ,cell plate ,cytokinesis ,division site determination ,kinesin-12 ,microtubules ,myosin XI ,phragmoplast ,preprophase band ,preprophase band ( ,PPB) ,Medical and Health Sciences ,Developmental Biology ,Biochemistry and cell biology - Abstract
In plant vegetative tissues, cell division employs a mitotic microtubule array called the preprophase band (PPB) that marks the cortical division site. This transient cytoskeletal array imprints the spatial information to be read by the cytokinetic phragmoplast at later stages of mitotic cell division. In Arabidopsis thaliana, we discovered that the PPB recruited the Myosin XI motor MYA1/Myo11F to the cortical division site, where it joined microtubule-associated proteins and motors to form a ring of prominent cytoskeletal assemblies that received the expanding phragmoplast. Such a myosin localization pattern at the cortical division site was dependent on the POK1/2 Kinesin-12 motors. This regulatory function of MYA1/Myo11F in phragmoplast guidance was dependent on intact actin filaments. The discovery of these cytoskeletal motor assemblies pinpoints a mechanism underlying how two dynamic cytoskeletal networks work in concert to govern PPB-dependent division plane orientation in flowering plants.
- Published
- 2024
46. Playing three-dimensional video games boosts stereo vision
- Author
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Li, Roger W, Li, Betty Z, Chat, Sandy W, Patel, Saumil S, Chung, Susana TL, and Levi, Dennis M
- Subjects
Biological Sciences ,Biomedical and Clinical Sciences ,Psychology ,Clinical Research ,Video Games ,Humans ,Young Adult ,Depth Perception ,Vision ,Binocular ,Male ,Adult ,Female ,Contrast Sensitivity ,Medical and Health Sciences ,Psychology and Cognitive Sciences ,Developmental Biology ,Biological sciences ,Biomedical and clinical sciences - Abstract
Playing two-dimensional video games has been shown to result in improvements in a range of visual and cognitive tasks, and these improvements appear to generalize widely1,2,3,4,5,6. Here we report that young adults with healthy vision, surprisingly, showed a dramatic improvement in stereo vision after playing three-dimensional, but not two-dimensional, video games for a relatively short period of time. Intriguingly, neither group showed any significant improvement in binocular contrast sensitivity. This dissociation suggests that the visual enhancement was specific to genuine stereoscopic processing, not indirectly resulting from enhanced contrast processing, and required engaging in a disparity cue-rich three-dimensional environment.
- Published
- 2024
47. Systematic decoding of cis gene regulation defines context-dependent control of the multi-gene costimulatory receptor locus in human T cells
- Author
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Mowery, Cody T, Freimer, Jacob W, Chen, Zeyu, Casaní-Galdón, Salvador, Umhoefer, Jennifer M, Arce, Maya M, Gjoni, Ketrin, Daniel, Bence, Sandor, Katalin, Gowen, Benjamin G, Nguyen, Vinh, Simeonov, Dimitre R, Garrido, Christian M, Curie, Gemma L, Schmidt, Ralf, Steinhart, Zachary, Satpathy, Ansuman T, Pollard, Katherine S, Corn, Jacob E, Bernstein, Bradley E, Ye, Chun Jimmie, and Marson, Alexander
- Subjects
Biochemistry and Cell Biology ,Biological Sciences ,Genetics ,Human Genome ,Biotechnology ,1.1 Normal biological development and functioning ,Underpinning research ,Humans ,CTLA-4 Antigen ,CD28 Antigens ,Gene Expression Regulation ,Chromatin ,T-Lymphocytes ,Inducible T-Cell Co-Stimulator Protein ,CCCTC-Binding Factor ,CRISPR-Cas Systems ,Medical and Health Sciences ,Developmental Biology ,Agricultural biotechnology ,Bioinformatics and computational biology - Abstract
Cis-regulatory elements (CREs) interact with trans regulators to orchestrate gene expression, but how transcriptional regulation is coordinated in multi-gene loci has not been experimentally defined. We sought to characterize the CREs controlling dynamic expression of the adjacent costimulatory genes CD28, CTLA4 and ICOS, encoding regulators of T cell-mediated immunity. Tiling CRISPR interference (CRISPRi) screens in primary human T cells, both conventional and regulatory subsets, uncovered gene-, cell subset- and stimulation-specific CREs. Integration with CRISPR knockout screens and assay for transposase-accessible chromatin with sequencing (ATAC-seq) profiling identified trans regulators influencing chromatin states at specific CRISPRi-responsive elements to control costimulatory gene expression. We then discovered a critical CCCTC-binding factor (CTCF) boundary that reinforces CRE interaction with CTLA4 while also preventing promiscuous activation of CD28. By systematically mapping CREs and associated trans regulators directly in primary human T cell subsets, this work overcomes longstanding experimental limitations to decode context-dependent gene regulatory programs in a complex, multi-gene locus critical to immune homeostasis.
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- 2024
48. Novel RNA molecular bioengineering technology efficiently produces functional miRNA agents
- Author
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Traber, Gavin M, Yi, Colleen, Batra, Neelu, Tu, Meijuan, and Yu, Aiming
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Biochemistry and Cell Biology ,Biological Sciences ,Genetics ,Bioengineering ,Cancer ,Lung ,Biotechnology ,Lung Cancer ,RNA ,Transfer ,Gly ,RNA ,Transfer ,Leu ,MicroRNAs ,Carcinoma ,Non-Small-Cell Lung ,Antineoplastic Agents ,Gene Expression ,Computer Simulation ,Cell Line ,Tumor ,RNA interference ,microRNA ,bioengineering ,gene regulation ,cancer ,therapy ,Developmental Biology ,Biochemistry and cell biology - Abstract
Genome-derived microRNAs (miRNAs or miRs) govern posttranscriptional gene regulation and play important roles in various cellular processes and disease progression. While chemo-engineered miRNA mimics or biosimilars made in vitro are widely available and used, miRNA agents produced in vivo are emerging to closely recapitulate natural miRNA species for research. Our recent work has demonstrated the success of high-yield, in vivo production of recombinant miRNAs by using human tRNA (htRNA) fused precursor miRNA (pre-miR) carriers. In this study, we aim to compare the production of bioengineered RNA (BioRNA) molecules with glycyl versus leucyl htRNA fused hsa-pre-miR-34a carriers, namely, BioRNAGly and BioRNALeu, respectively, and perform the initial functional assessment. We designed, cloned, overexpressed, and purified a total of 48 new BioRNA/miRNAs, and overall expression levels, final yields, and purities were revealed to be comparable between BioRNAGly and BioRNALeu molecules. Meanwhile, the two versions of BioRNA/miRNAs showed similar activities to inhibit non-small cell lung cancer cell viability. Interestingly, functional analyses using model BioRNA/miR-7-5p demonstrated that BioRNAGly/miR-7-5p exhibited greater efficiency to regulate a known target gene expression (EGFR) than BioRNALeu/miR-7-5p, consistent with miR-7-5p levels released in cells. Moreover, BioRNAGly/miR-7-5p showed comparable or slightly greater activities to modulate MRP1 and VDAC1 expression, compared with miRCURY LNA miR-7-5p mimic. Computational modeling illustrated overall comparable 3D structures for exemplary BioRNA/miRNAs with noticeable differences in htRNA species and payload miRNAs. These findings support the utility of hybrid htRNA/hsa-pre-miR-34a as reliable carriers for RNA molecular bioengineering, and the resultant BioRNAs serve as functional biologic RNAs for research and development.
- Published
- 2024
49. Association of citrus crops phenology with the number of adults of Anastrepha ludens (Loew, 1873) (Diptera: Tephritidae) in Tamaulipas, Mexico/ Asociacion de la fenologia de citricos cultivados con el numero de adultos de Anastrepha ludens (Loew, 1873) (Diptera: Tephritidae) en Tamaulipas, Mexico
- Author
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Vargas-Tovar, Jesus Armando, Delgado-Luna, Carolina, Zavala-Zapata, Vidal, and Azuara-Dominguez, Ausencio
- Published
- 2024
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50. A phage nucleus-associated RNA-binding protein is required for jumbo phage infection
- Author
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Enustun, Eray, Armbruster, Emily G, Lee, Jina, Zhang, Sitao, Yee, Brian A, Malukhina, Kseniya, Gu, Yajie, Deep, Amar, Naritomi, Jack T, Liang, Qishan, Aigner, Stefan, Adler, Benjamin A, Cress, Brady F, Doudna, Jennifer A, Chaikeeratisak, Vorrapon, Cleveland, Don W, Ghassemian, Majid, Bintu, Bogdan, Yeo, Gene W, Pogliano, Joe, and Corbett, Kevin D
- Subjects
Biochemistry and Cell Biology ,Biological Sciences ,Genetics ,Infectious Diseases ,1.1 Normal biological development and functioning ,2.2 Factors relating to the physical environment ,2.1 Biological and endogenous factors ,Infection ,Generic health relevance ,Bacteriophages ,Cell Nucleus ,CRISPR-Cas Systems ,Genome ,Viral ,RNA ,Messenger ,RNA ,Viral ,RNA-Binding Proteins ,Viral Proteins ,Virus Assembly ,Environmental Sciences ,Information and Computing Sciences ,Developmental Biology ,Biological sciences ,Chemical sciences ,Environmental sciences - Abstract
Large-genome bacteriophages (jumbo phages) of the proposed family Chimalliviridae assemble a nucleus-like compartment bounded by a protein shell that protects the replicating phage genome from host-encoded restriction enzymes and DNA-targeting CRISPR-Cas nucleases. While the nuclear shell provides broad protection against host nucleases, it necessitates transport of mRNA out of the nucleus-like compartment for translation by host ribosomes, and transport of specific proteins into the nucleus-like compartment to support DNA replication and mRNA transcription. Here, we identify a conserved phage nuclear shell-associated protein that we term Chimallin C (ChmC), which adopts a nucleic acid-binding fold, binds RNA with high affinity in vitro, and binds phage mRNAs in infected cells. ChmC also forms phase-separated condensates with RNA in vitro. Targeted knockdown of ChmC using mRNA-targeting dCas13d results in accumulation of phage-encoded mRNAs in the phage nucleus, reduces phage protein production, and compromises virion assembly. Taken together, our data show that the conserved ChmC protein plays crucial roles in the viral life cycle, potentially by facilitating phage mRNA translocation through the nuclear shell to promote protein production and virion development.
- Published
- 2024
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