👋 Welcome to BioF3's Daily Trends! Today's edition features 3 GitHub projects and 1 research papers from bioRxiv, arXiv, and PubMed.
Content generated by GLM-4.7 (Deep Thinking Mode) 🧠
1. harmony
🔧 GitHub Project | Language:
R| ⭐622| 🍴104
Fast, sensitive and accurate integration of single-cell data with Harmony
Key Topics: algorithm data-integration r scrna-seq
AI Technical Review (深度解读)
(AI 正在思考人生... 暂时无法解读: Error code: 401, with error text {"error":{"code":"1000","message":"身份验证失败。"}})
Description: Fast, sensitive and accurate integration of single-cell data with Harmony Topics: algorithm, data-integration, r, scrna-seq
README:
Harmony 
===========
[
(AI 正在思考人生... 暂时无法解读: Error code: 401, with error text {"error":{"code":"1000","message":"身份验证失败。"}})
Description: Spatial Single Cell Analysis in Python Topics: data-visualization, image-analysis, single-cell-genomics, single-cell-rna-seq, spatial-analysis, spatial-transcriptomics, squidpy
README:
[
](https://github....
3. PHATE
🔧 GitHub Project | Language:
Python| ⭐537| 🍴79
PHATE (Potential of Heat-diffusion for Affinity-based Transition Embedding) is a tool for visualizing high dimensional data.
Key Topics: data-visualization dimensionality-reduction manifold-learning single-cell unsupervised-learning
AI Technical Review (深度解读)
(AI 正在思考人生... 暂时无法解读: Error code: 401, with error text {"error":{"code":"1000","message":"身份验证失败。"}})
Description: PHATE (Potential of Heat-diffusion for Affinity-based Transition Embedding) is a tool for visualizing high dimensional data. Topics: data-visualization, dimensionality-reduction, manifold-learning, single-cell, unsupervised-learning
README: PHATE - Visualizing Transitions and Structure...
4. Multicellular Tumour Spheroids Exposure to Pulsed Electric Field: A Combined Experimental and Mathematical Modelling Study Highlighting Temporal Dynamics of DAMP Release and Accelerated Regrowth at Intermediate Field Intensities
📄 arXiv Paper | Date:
2026-03-06| Category:q-bio.QM
Authors: Emma Leschiera, Nicolas Mattei, Marie-Pierre Rols et al.
AI Research Digest (科研解读)
(AI 暂时无法解读: Error code: 401, with error text {"error":{"code":"1000","message":"身份验证失败。"}})
Electroporation is increasingly used as a percutaneous ablation technique for tumours located near vital structures. Although effective, tumour regrowth may still occur. At the same time, in vitro studies on cell monolayers have shown that electroporation can trigger immunogenic cell death (ICD) thr...
Powered by BioF3 Auto-Bot & ZhipuAI GLM-4.7