AIMC Topic: Genetic Engineering

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Advances in AAV capsid engineering: Integrating rational design, directed evolution and machine learning.

Molecular therapy : the journal of the American Society of Gene Therapy Apr 1, 2025
Adeno-associated virus (AAV) has emerged as a highly promising vector for human gene therapy due to its favorable safety profile, versatility, and ability to transduce a wide range of tissues. However, natural AAV serotypes have shortcomings, includi...
Animals Genetic Therapy Directed Molecular Evolution Humans Machine Learning Capsid Genetic Engineering Dependovirus Genetic Vectors Transduction, Genetic Capsid Proteins
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Artificial Intelligence-Based Approaches for AAV Vector Engineering.

Advanced science (Weinheim, Baden-Wurttemberg, Germany) Feb 11, 2025
Adeno-associated virus (AAV) has emerged as a leading vector for gene therapy due to its broad host range, low pathogenicity, and ability to facilitate long-term gene expression. However, AAV vectors face limitations, including immunogenicity and ins...
Dependovirus Humans Artificial Intelligence Genetic Therapy Genetic Vectors Genetic Engineering
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Machine learning for synthetic gene circuit engineering.

Current opinion in biotechnology Jan 27, 2025
Synthetic biology leverages engineering principles to program biology with new functions for applications in medicine, energy, food, and the environment. A central aspect of synthetic biology is the creation of synthetic gene circuits - engineered bi...
Genetic Engineering Machine Learning Gene Regulatory Networks Synthetic Biology
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Synthetic biology and artificial intelligence in crop improvement.

Plant communications Dec 12, 2024
Synthetic biology plays a pivotal role in improving crop traits and increasing bioproduction through the use of engineering principles that purposefully modify plants through "design, build, test, and learn" cycles, ultimately resulting in improved b...
Crops, Agricultural Synthetic Biology Gene Editing Artificial Intelligence Genetic Engineering Plant Breeding
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Integrating Deep Learning and Synthetic Biology: A Co-Design Approach for Enhancing Gene Expression via N-Terminal Coding Sequences.

ACS synthetic biology Sep 4, 2024
N-terminal coding sequence (NCS) influences gene expression by impacting the translation initiation rate. The NCS optimization problem is to find an NCS that maximizes gene expression. The problem is important in genetic engineering. However, current...
Bacillus subtilis Gene Expression Synthetic Biology Algorithms Deep Learning Green Fluorescent Proteins Genetic Engineering
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A pan-CRISPR analysis of mammalian cell specificity identifies ultra-compact sgRNA subsets for genome-scale experiments.

Nature communications Feb 2, 2022
A genetic knockout can be lethal to one human cell type while increasing growth rate in another. This context specificity confounds genetic analysis and prevents reproducible genome engineering. Genome-wide CRISPR compendia across most common human c...
Cell Line CRISPR-Cas Systems Clustered Regularly Interspaced Short Palindromic Repeats Gene Knockout Techniques Genetic Engineering Synthetic Lethal Mutations Machine Learning Animals Genomics Humans
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A machine learning toolkit for genetic engineering attribution to facilitate biosecurity.

Nature communications Dec 8, 2020
The promise of biotechnology is tempered by its potential for accidental or deliberate misuse. Reliably identifying telltale signatures characteristic to different genetic designers, termed 'genetic engineering attribution', would deter misuse, yet i...
Genetic Engineering DNA Datasets as Topic Biotechnology Bioterrorism Forensic Genetics Security Measures Neural Networks, Computer Data Analysis Databases, Factual
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Sequence-to-function deep learning frameworks for engineered riboregulators.

Nature communications Oct 7, 2020
While synthetic biology has revolutionized our approaches to medicine, agriculture, and energy, the design of completely novel biological circuit components beyond naturally-derived templates remains challenging due to poorly understood design rules....
Genetic Engineering Deep Learning Riboswitch Mutagenesis Models, Genetic Biotechnology Base Sequence Structure-Activity Relationship Humans Genome, Human Natural Language Processing Computer Simulation Genome, Viral Datasets as Topic Synthetic Biology
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A deep learning approach to programmable RNA switches.

Nature communications Oct 7, 2020
Engineered RNA elements are programmable tools capable of detecting small molecules, proteins, and nucleic acids. Predicting the behavior of these synthetic biology components remains a challenge, a situation that could be addressed through enhanced ...
Deep Learning Transcription Factors Kinetics Humans Datasets as Topic Synthetic Biology Thermodynamics Genome, Viral Genetic Engineering Riboswitch
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The Future of Skull Base Surgery: A View Through Tinted Glasses.

World neurosurgery Jun 27, 2020
In the present report, we have broadly outlined the potential advances in the field of skull base surgery, which might occur within the next 20 years based on the many areas of current research in biology and technology. Many of these advances will a...
Robotic Surgical Procedures Neurosurgical Procedures Forecasting Orthopedic Procedures Stem Cell Transplantation Spectrum Analysis, Raman Humans Skull Base Printing, Three-Dimensional Artificial Intelligence Genetic Engineering
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