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Turning the Tide Against Antibiotic Resistance: Protein-BERT’s Accurate and Interpretable Predictions

Scientists from Waseda University and Hitachi, Ltd., Japan, developed a novel approach for predicting antibiotic resistance genes (ARGs) resistance mechanisms using Protein-BERT, a protein...

Unraveling the Mysteries of Molecular Dynamics: MDverse Sheds Light on Dark Matter

Molecular dynamics (MD) files have accumulated in generalist data repositories due to the rise of open science and the lack of a worldwide repository...

The Ultimate Molecular Explorer: AlphaFold 3, DeepMind’s AI Marvel to Unravel the Mysteries of All Life’s Molecules

DeepMind and Isomorphic Labs unveil AlphaFold 3, an AI model that predicts structures and interactions of all biomolecules like proteins, nucleic acids, ligands, and...

Designing Multi-Tasking Drugs: How POLYGON Makes Polypharmacology Easier with Deep Generative Chemistry

Drugs with polypharmacology, or substances that block several proteins, offer a wide range of uses but are challenging to create. To overcome this difficulty,...

Did Aquatic Algae Pave the Way for Lush Forests? New Research Suggests Yes!

Have you ever wondered how those dense jungles and tall trees appear? It began with a leap from the water, a colonization attempt by...

Deciphering the Future with Decipher: A Computational Pipeline for Single-cell Profile-based Context-specific Mechanistic Insights

The development of single-cell profiling methods has transformed our understanding of the cellular and molecular processes underlying disease states and how they respond to...

A New Era of AI in Medicine: Google’s Med-Gemini Sets New Standards

AI faces significant obstacles in achieving excellence in a wide range of medical applications since it needs sophisticated reasoning, access to current medical information,...

Unveiling ChatNT: The Conversational AI Revolutionizing How We Explore DNA, RNA & Proteins

InstaDeep and BioNTech scientists introduced ChatNT, a multimodal conversational agent that has an advanced understanding of biological sequences like DNA, RNA, and proteins. ChatNT...

REvoLd: Accelerating Drug Discovery Through Evolutionary Algorithm-Driven Ultra-Large Library Screening in Rosetta

An endeavor to create new medicinal compounds that can reach great heights, though challenging, remains vital. The advent of computer tools has led to...

Multi-omics Data Analysis Made Easy with ExpOmics: A Comprehensive Web Platform for Robust Analysis

Biological research has been in a golden age ever since the advent of high-throughput technologies. We can now probe deeper into living systems than...

DeepGene: Revolutionizing Genomics with Pan-genome Graph Transformer-based Foundation Model

A significant issue in genome research is the Nucleotide Transformer, which makes DNA sequence interpretation accurate only with models such as DNABERT-2. Although these...

AI-Assisted Gene Editing: CRISPR-GPT, the Future of Efficient CRISPR Experiment Design

The ability to precisely alter genes with CRISPR technology has revolutionized biomedical research. It does, however, take a thorough grasp of CRISPR technology and...

From Genome to Function: AI Predicts Gene Regulation in Newly Sequenced Plants

A recent study published in Nature Communications explored the relationship between gene expression prediction and the use of deep learning models, which are the...

Transforming Bio-Chemical Engineering with DetSpace’s Detectable Pathway Design

Think of a society where daily requirements – such as biofuels for cars and drugs to cure illnesses – are not manufactured in polluting...

Revolutionizing Protein-Protein Interaction Prediction with ProLLM’s Chain-of-Thought Enhanced LLM

Predicting protein-protein interactions (PPIs) is essential to comprehend biological processes and illnesses. Conventional machine learning techniques ignore nonphysical linkages made through intermediary proteins in...

Personalized Cancer Care Gets a Boost with NIH’s AI Drug Matching Tool

Suppose there was a world in which your doctor could not just see how large and where your tumor is but also know the...

Protein Design Made Easy with Damietta Server: A Comprehensive Toolkit

The increasing relevance of protein design across a range of scientific fields drives the creation of integrative computational platforms that improve tool accessibility and...

ETH Zurich Chemists Unveil DRAGONFLY: New AI Approach for Rapid Drug Design from Protein Structures

Centuries of scientific invention have been driven by the search for new drugs to fight against diseases. Since medicinal plants became valuable sources of...

SpatialData: A Universal Framework for Handling Spatial Omics Analysis

The application of spatially resolved omics technology is revolutionizing our comprehension of biological tissues. Large data quantities, variety in data types, and a lack...

Cracking the RNA Inverse Folding Puzzle with RiboDiffusion’s Generative Diffusion Approach

Molecular biology scientists have been captivated by the complex way RNA folds. A recent study by Beihang and Nanjing University researchers in China introduces...

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Revolutionizing Biotechnology with Predictive Tools: A New Era of Discovery

Revolutionizing Biotechnology with Predictive Tools: A New Era of Discovery

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For years, biocatalysis has depended on bioprospecting – in essence, sieving through Nature's enzyme riches to find the best match. However, this method, though...
DrugLLM - A Game-changer in Few-shot Molecule Generation Using Open Large Language Models

Unlocking New Possibilities in Drug Design: DrugLLM’s Novel Approach to Few-Shot Molecule Generation Using...

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The languages of biology and chemistry are difficult for language processing and computer vision systems to grasp, notwithstanding their advances in language processing. Although...
Unleashing the Power of Foundation Models for Cancer Imaging Biomarker Discovery

Unleashing the Power of Foundation Models for Cancer Imaging Biomarker Discovery

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Despite the immense hurdles posed by cancer, technological developments, particularly in medical imaging and biomarker identification, provide a ray of hope. Foundation models have...
Unveiling the Future of Transcriptomics: CELLama - A Foundation Model Revolutionizing Single Cell and Spatial Analysis

Unveiling the Future of Transcriptomics: CELLama – A Foundation Model Revolutionizing Single Cell and...

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Comprehensive data atlases have been made possible by the data-driven nature of biomedical research thanks to large-scale single-cell RNA sequencing (scRNA-seq) and spatial transcriptomics...
Faster, More Accurate Spatial Omics: How BANKSY Streamlines Data Analysis

Faster, More Accurate Spatial Omics: How BANKSY Streamlines Data Analysis

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Spatial omics involve scientists generating maps of gene expression within tissues as they continue to evolve. This is an extremely important development with significant...