👋 Welcome to BioF3's Paper Digest! Today's edition features 0 GitHub projects and 4 research papers from bioRxiv, arXiv, and PubMed.
Content generated by GLM-4.7 (Deep Thinking Mode) 🧠
1. A Physically-Informed Subgraph Isomorphism Approach to Molecular Docking Using Quantum Annealers
📄 arXiv Paper | Date:
2026-04-10| Category:q-bio.BM
Authors: Francesco Micucci, Matteo Barbieri, Gabriella Bettonte et al.
AI Research Digest (科研解读)
2. An Open-Source, Open Data Approach to Activity Classification from Triaxial Accelerometry in an Ambulatory Setting
📄 arXiv Paper | Date:
2026-04-10| Category:q-bio.QM
Authors: Sepideh Nikookar, Edward Tian, Harrison Hoffman et al.
AI Research Digest (科研解读)
一句话概括 本研究构建了一个包含三轴加速度计及同步心电数据的高质量开源数据集,并开发了基于信号处理与卷积神经网络(CNN)的混合算法,实现了对人体日常活动类型的精准分类。
研
3. Curcumol alleviates acute pancreatitis by inhibiting RIPK1/RIPK3/MLKL pathway-mediated necroptosis: integrated bioinformatics, network pharmacology, molecular docking and dynamics simulations, and experimental validation.
📄 PubMed Article | Date:
2026 Apr 8| Category:International immunopharmacology
Authors: Li X, Hu Q, Chen J et al.
AI Research Digest (科研解读)
一句话概括 本研究通过整合生物信息学与网络药理学策略,结合分子模拟与实验验证,系统揭示了莪术醇通过抑制RIPK1/RIPK3/MLKL通路介导的程序性坏死从而缓解急性胰腺炎的分子机制
4. Integrative proteogenomics maps multifactorial aetiology, progression and therapeutic vulnerabilities in gastric cancer.
📄 PubMed Article | Date:
2026 Apr 7| Category:Gut
Authors: Chang YH, Hong TC, Lin KT et al.
AI Research Digest (科研解读)
一句话概括 该研究通过大规模整合蛋白质组学与基因组学数据,系统绘制了胃癌的分子图谱,揭示了其复杂病因、进展机制及潜在的治疗靶点。
研究背景
胃癌具有高度异质性和复杂的致病机理,仅依赖基因组
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