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What is “gravitic propulsion” and could the US government hide it?

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The Cybertruck bomber’s mention of a “gravitic device” ignited rumours that the U.S. government might be trying to hide developments in physics, similar to what it did when the country was developing the nuclear bomb. Would that even be possible? Here’s what I think.

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The Unseen Monster Pulling Our Galaxy: The Great Attractor Explained

Welcome back to the Bureau of The Unexplained! 👽🌌 Where we dive into all things weird and unexplained.

Right now, as you sit watching this video, you are hurtling through space. The Milky Way galaxy, along with roughly 100,000 of our neighboring galaxies, is being dragged at millions of miles per hour toward a mysterious, terrifying gravitational anomaly. Scientists call it… The Great Attractor.

For decades, astronomers had no idea what it was. Why? Because it sits directly behind the \.

Genomic and Transcriptomic Approaches Advance the Diagnosis and Prognosis of Neurodegenerative Diseases

Neurodegenerative diseases, such as Alzheimer’s disease (AD), Parkinson’s disease (PD), Huntington’s disease (HD), and amyotrophic lateral sclerosis (ALS), represent a growing societal challenge due to their irreversible progression and significant impact on patients, caregivers, and healthcare systems. Despite advances in clinical and imaging-based diagnostics, these diseases are often detected at advanced stages, limiting the effectiveness of therapeutic interventions. Recent breakthroughs in genomic and transcriptomic technologies, including whole-genome sequencing, single-cell RNA sequencing (scRNA-seq), and CRISPR-based screens, have revolutionized the field, offering new avenues for early diagnosis and personalized prognosis.

Redox chemistry of early Earth and the origin of life

Redox reactions played an important role in shaping the conditions that enabled the emergence of life on the early Earth, but how these relate to specific environmental conditions and whether they led to heterotroph or autotroph organisms remains a matter of debate. In this Review, the authors summarize and discuss evidence reconciling dominant theories — from the redox nature of the Hadean atmosphere and the presence of conditions that could have supported both heterotrophs and chemoautotrophs, to the transport of organic compounds that could have led to the emergence of life in multiple local environments.

Genome pioneer Craig Venter dies: here’s how he transformed science

It’s very sad that Craig Venter passed away. One of a few people I’ve admired since middle school. Truly a life well lived.

Venter redrew the boundaries of biology — sequencing DNA at unprecedented speed, engineering synthetic life and charting ocean microbes.

Swine reporter model for preclinical evaluation and characterization of gene delivery vectors

Pigs which express tdTomato upon Cre or CRISPR editing of a genetic cassette inserted into their genome. (Pig analogue of Ai9 mice). This model system will aid translational preclinical studies for gene editing therapies.

A “turn-on” swine reporter model is developed to characterize local and systemic delivery of gene editors in vivo using viral or non-viral vectors. This adds the functionality of a reporter to preclinical gene delivery research in a large animal model that is more broadly accessible than nonhuman primates.

List of Biotechnology Companies to Watch — AI Expanded Version

I originally created a list of 160+ companies with detailed descriptions for each one. But updating the list manually takes a lot of time. So, I used ChatGPT and Claude to add a new batch of company website links I had collected (190 entries are now on the list). Hopefully I can continue expanding using this method. While I don’t learn about the new entries as directly since I’m not the one adding them, this will nonetheless be useful for keeping up with the fast-paced biotech world. I hope you find it useful as well!

I used ChatGPT and Claude to expand and revise/update my original 160+ entry list of biotech companies (now at 190 entries). I hope you find this expanded list and its descriptions useful!

Mitochondrial dysfunction in cerebrovascular diseases

Opening of the mitochondrial permeability transition pore, Ca2+ overload, and mitochondrial fragmentation are early features of stroke-induced brain injury observed in experimental models.

Mitochondrial reactive oxygen species and activation of the cyclophilin D– reactive oxygen species–NLR family pyrin domain-containing 3–matrix metalloproteinase-9 axis are associated with intracranial aneurysm progression, linking mitochondrial stress to vascular wall instability.

Disruption of mitochondrial homeostasis exacerbates vascular pathology in intracranial atherosclerotic stenosis, arteriovenous malformations, and cavernous malformation, indicating a shared mitochondrial contribution across cerebrovascular disorders.

Pharmacological modulation of mitochondrial permeability, redox signaling, proprotein convertase subtilisin/ kexin type 9, and mechanistic target of rapamycin kinase pathways shows robust preclinical efficacy, while clinical outcomes remain heterogeneous.

Experimental studies support the feasibility of mitochondrial transplantation in models of cerebrovascular injury, including stroke. sciencenewshighlights ScienceMission https://sciencemission.com/Mito-dysfunction-in-CVD

Mitochondria are central regulators of cerebrovascular health through their control of energy metabolism, Ca2+ homeostasis, and redox signaling, and their dysfunction represents a convergent pathogenic mechanism across cerebrovascular diseases. In ischemic stroke, mitochondrial failure exacerbates neuronal injury via permeability transition pore opening, oxidative stress, and bioenergetic collapse, while altered mitochondrial dynamics and the release of mitochondrial damage-associated molecular patterns amplify neuroinflammation during reperfusion. Beyond stroke, mitochondrial dysfunction contributes to intracranial aneurysms, atherosclerotic stenosis, and vascular malformations, where oxidative stress, mitochondrial DNA instability, and cell type-specific metabolic reprogramming drive vascular remodeling and lesion progression.

Continue reading “Mitochondrial dysfunction in cerebrovascular diseases” | >

An intrinsically disordered tug of war that fine-tunes acetylation

Acetylation of histones and transcriptional regulators modulates gene expression, but how acetyltransferases define target specificity remains puzzling. In Cell Reports, Gelder et al. have shown how intrinsically disordered regions of CBP temper each other to shape acetyltransferase activity.

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