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Huynh A, Gray P, Sullivan A, Mackie J, Guerin A, Rao GT, Pathmanandavel K, De...
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A Novel Case of IFNAR1 Deficiency Identified a Common Canonical Splice...

JOURNAL OF CLINICAL IMMUNOLOGY 2025 DEC; 45(1):? Article 11
Frost BL, Strimbu CE, Olson ES
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Narrow elliptical motion at the outer hair cell-Deiters' cell junction explai...

HEARING RESEARCH 2025 MAR; 458(?):? Article 109189
Sound-evoked displacement responses at the outer hair cell-Deiters' cell junction (OHC-DC) are of significant interest in cochlear mechanics, as OHCs are believed to be in part responsible for active tuning enhancement and amplification. Motion in the cochlea is three-dimensional, and the architecture of the organ of Corti complex (OCC) suggests the presence and mechanical importance of all three components of motion. Optical coherence tomography (OCT) displacement measurements of OHC-DC motion from different experimental preparations often show disparate results, potentially due to OCT measuring only the motion component along the beam axis. In this work, we show that narrow elliptical motion at the OHC-DC - nearly along a straight line, where towards-base longitudinal motion is in phase with towards-scala-media transverse motion - can explain two such preparation-dependent differences. We present longitudinal and transverse components of displacement responses from the OHC-DC in the gerbil base in response to moderately high-level sound stimuli that exhibit precisely this near-lineal motion. The results show the potential for active longitudinal energy transfer in the OCC.
Koyano KW, Taubert J, Robison W, Waidmann EN, Leopold DA
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Face pareidolia minimally engages macaque face selective neurons

PROGRESS IN NEUROBIOLOGY 2025 FEB; 245(?):? Article 102709
The macaque cerebral cortex contains concentrations of neurons that prefer faces over inanimate objects. Although these so-called face patches are thought to be specialized for the analysis of facial signals, their exact tuning properties remain unclear. For example, what happens when an object by chance resembles a face? Everyday objects can sometimes, through the accidental positioning of their internal components, appear as faces. This phenomenon is known as face pareidolia. Behavioral experiments have suggested that macaques, like humans, perceive illusory faces in such objects. However, it is an open question whether such stimuli would naturally stimulate neurons residing in cortical face patches. To address this question, we recorded single unit activity from four fMRI-defined face-selective regions: the anterior medial (AM), anterior fundus (AF), prefrontal orbital (PO), and perirhinal cortex (PRh) face patches. We compared neural responses elicited by images of real macaque faces, pareidolia-evoking objects, and matched control objects. Contrary to expectations, we found no evidence of a general preference for pareidolia-evoking objects over control objects. Although a subset of neurons exhibited stronger responses to pareidolia-evoking objects, the population responses to both categories of objects were similar, and collectively much less than to real macaque faces. These results suggest that neural responses in the four regions we tested are principally concerned with the analysis of realistic facial characteristics, whereas the special attention afforded to face-like pareidolia stimuli is supported by activity elsewhere in the brain.
Mclean TC, Balaguer-Pérez F, Chandanani J, Thomas CM, Aicart-Ramos C, Burick ...
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KorB switching from DNA-sliding clamp to repressor mediates long-range gene s...

NATURE MICROBIOLOGY 2025 FEB; 10(2):?
Examples of long-range gene regulation in bacteria are rare and generally thought to involve DNA looping. Here, using a combination of biophysical approaches including X-ray crystallography and single-molecule analysis for the KorB-KorA system in Escherichia coli, we show that long-range gene silencing on the plasmid RK2, a source of multi-drug resistance across diverse Gram-negative bacteria, is achieved cooperatively by a DNA-sliding clamp, KorB, and a clamp-locking protein, KorA. We show that KorB is a CTPase clamp that can entrap and slide along DNA to reach distal target promoters up to 1.5 kb away. We resolved the tripartite crystal structure of a KorB-KorA-DNA co-complex, revealing that KorA latches KorB into a closed clamp state. DNA-bound KorA thus stimulates repression by stalling KorB sliding at target promoters to occlude RNA polymerase holoenzymes. Together, our findings explain the mechanistic basis for KorB role switching from a DNA-sliding clamp to a co-repressor and provide an alternative mechanism for long-range regulation of gene expression in bacteria.
Schilling CM, Zdanowicz R, Rabl J, Müller AU, Boehringer D, Glockshuber R, We...
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Single-stranded DNA binding to the transcription factor PafBC triggers the my...

SCIENCE ADVANCES 2025 FEB 7; 11(6):? Article eadq9054
The DNA damage response in mycobacteria is controlled by the heterodimeric transcription factor PafBC, a member of the WYL domain-containing protein family. It has been shown that PafBC induces transcription of its regulon by reprogramming the housekeeping RNA polymerase holoenzyme to recognize PafBC-dependent promoters through sigma adaptation. However, the mechanism by which DNA damage is sensed and translated into PafBC activation has remained unclear. Here, we demonstrate that the binding of single-stranded DNA (ssDNA) to the WYL domains of PafBC activates the transcription factor. Our cryo-electron microscopy structure of full-length PafBC in its active conformation, bound to the transcription initiation complex, reveals a previously unknown mode of interaction between the ssDNA and the WYL domains. Using biochemical experiments, we show that short ssDNA fragments bind to PafBC dynamically, resulting in deactivation as ssDNA levels decrease postrepair. Our findings shed light on the mechanism linking DNA damage to PafBC activation and expand our understanding of WYL domain-containing proteins.
Al-Ajli FO, Formenti G, Fedrigo O, Tracey A, Sims Y, Howe K, Al-Karkhi IM, Al...
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Chromosome-level reference genome assembly of the gyrfalcon (Falco rustico...

SCIENTIFIC REPORTS 2025 FEB 4; 15(1):? Article 4154
The taxonomic classification of a falcon population found in the Mongolian Altai region in Asia has been heavily debated for two centuries and previous studies have been inconclusive, hindering a more informed conservation approach. Here, we generated a chromosome-level gyrfalcon reference genome using the Vertebrate Genomes Project (VGP) assembly pipeline. Using whole genome sequences of 49 falcons from different species and populations, including "Altai" falcons, we analyzed their population structure, admixture patterns, and demographic history. We find that the Altai falcons are genomic mosaics of saker and gyrfalcon ancestries, and carry distinct W and mitochondrial haplotypes that cluster with the lanner falcon. The Altai maternally-inherited haplotypes diverged 422,000 years before present (290,000-550,000 YBP) from the ancestor of sakers and gyrfalcons, both of which, in turn, split 109,000 YBP (70,000-150,000 YBP). The Altai W chromosome has 31 coding variants in 29 genes that may possibly influence important structural, behavioral, and reproductive traits. These findings provide insights into the question of Altai falcons as a candidate distinct species.
Capili B, Anastasi JK
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Pragmatic Clinical Trials: A Study Design for Real-World Evidence

AMERICAN JOURNAL OF NURSING 2025 FEB; 125(2):56-58
Editor's note: This is the 25th article in a series on clinical research by nurses coordinated by the Heilbrunn Family Center for Research Nursing at Rockefeller University. The series is designed to be used as a resource for nurses to understand the concepts and principles essential to research. Each column will present the concepts that underpin evidence-based practice-from research design to data interpretation. To see all the articles in the series, go to https://links.lww.com/AJN/A204.
Saca VR, Huber T, Sakmar TP
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G protein-coupled receptoretargeted proteolysis-targeting chimeras in cancer ...

MOLECULAR PHARMACOLOGY 2025 FEB; 107(2):? Article 100013
G protein-coupled receptors (GPCRs) comprise a family of heptahelical membrane proteins that mediate intracellular and intercellular transmembrane signaling. Defects in GPCR signaling pathways are implicated in the pathophysiology of many diseases, including cardiovascular disease, endocrinopathies, immune disorders, and cancer. Although GPCRs are attractive drug targets, only a small number of Food and Drug Administration-approved anticancer therapeutics target GPCRs. Targeted protein degradation (TPD) technology allows for the direct modulation of the cellular expression level of a protein of interest. TPD methods such as proteolysis-targeting chimeras (PROTACs) use the ubiquitin-proteasome system to degrade a protein of interest selectively. Although the PROTAC system has not been widely applied to GPCRs and other membrane proteins, there is evidence that PROTACs or other TPD methods could be applied to the GPCRome. Current GPCR PROTACs show the feasibility of using PROTACs to degrade GPCRs; however, the degradation mechanism for some of these GPCR PROTACs is uncertain. Additional studies aimed at elucidating the degradation mechanism of GPCRs with PROTACs are necessary. Discovery of new allosteric intracellular small molecule binders of GPCRs will be required for the development of intracellularly oriented PROTACs. Promising early results in targeted degradation of GPCRs suggest that TPD drug discovery platforms will be useful in developing PROTACs targeting pathological GPCRs. Significance Statement: Aberrant signaling of G protein-coupled receptors (GPCRs) can contribute to the pathophysiology of cancer. Although GPCRs are generally highly attractive drug targets, many individual GPCRs are currently undrugged using traditional drug discovery approaches. Targeted protein degradation technologies, such as proteolysis-targeting chimeras, provide a new approach to drug discovery for targeting previously undruggable GPCRs relevant to the molecular pathophysiology of cancer. (c) 2024 The Author(s). Published by Elsevier Inc. on behalf of American Society for Pharmacology and Experimental Therapeutics. This is an open access article under the CC BY-NC-ND license (http:// creativecommons.org/licenses/by-nc-nd/4.0/).
Paez S, Mapholi NO, Nesengani LT, Lamont SJ, Aggrey SE, Hanotte O, Bottema CD...
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Supporting social justice through equity-based actions for a sustainable futu...

ANIMAL GENETICS 2025 FEB; 56(1):? Article e13506
The 39th International Society for Animal Genetics conference (ISAG) was held for the first time in Africa under the theme 'Animal genetics for a sustainable future' in 2023. The conference convened scientists, policy makers, industry professionals, and students from interdisciplinary fields to share and discuss the latest developments in the space of animal genetics. Since its inception as a society, ISAG has sought to provide a platform advocating for a just and equitable future in animal genetics. At the 39th ISAG conference, this commitment towards furthering inclusion in animal genetic science was progressed with two new offerings to attendees. The first session guided discussions on the political, ethical, legal, socioeconomic, and cultural dynamics that present barriers to participating in and benefitting from the genomic and genetic science fraternity. This session also included principles of social justice, specifically equity, diversity, and inclusion, towards enacting fairness in an unfair world, and focused on constraints related to sustainability in animal genetics. The second session used the important tradition of storytelling to transfer knowledge and wisdom from experienced scientists to upcoming researchers. Experienced scientists shared lived experiences on educational and career paths, challenges, and opportunities, providing networking and opportunities for further mentoring. Here, we report on these equity-based actions and their relevance to address the urgent continent-specific and global disparities in animal genetics to move towards a sustainable future.
Hong SJ, Resnick SJ, Iketani S, Cha JW, Albert BA, Fazekas CT, Chang CW, Liu ...
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A multiplex method for rapidly identifying viral protease inhibitors

MOLECULAR SYSTEMS BIOLOGY 2025 FEB 3; 21(2):158-172
With current treatments addressing only a fraction of pathogens and new viral threats constantly evolving, there is a critical need to expand our existing therapeutic arsenal. To speed the rate of discovery and better prepare against future threats, we establish a high-throughput platform capable of screening compounds against 40 diverse viral proteases simultaneously. This multiplex approach is enabled by using cellular biosensors of viral protease activity combined with DNA-barcoding technology, as well as several design innovations that increase assay sensitivity and correct for plate-to-plate variation. Among >100,000 compound-target interactions explored within our initial screen, a series of broad-acting inhibitors against coronavirus proteases were uncovered and validated through orthogonal assays. A medicinal chemistry campaign was performed to improve one of the inhibitor's potency while maintaining its broad activity. This work highlights the power of multiplex screening to efficiently explore chemical space at a fraction of the time and costs of previous approaches.