programmablebio
We integrate algorithms and experiments to generate programmable platforms for genome, proteome, and cell engineering.
Duke UniversityDurham, NC
Pinned Repositories
beep
Base Editing Evaluation Program via Sanger Sequencing
cutnclip
Design of Peptide-Based Protein Degraders via Contrastive Deep Learning
egg
Efficient Human Germ Cell and Oogonia Specification from Stem Cells via Combinatorial TF Overexpression
granulosa
Directed Differentiation of Human iPSCs to Functional Ovarian Granulosa-Like Cells via Transcription Factor Overexpression
grn_benchmark
moppit
pepmlm
Target Sequence-Conditioned Generation of Peptide Binders via Masked Language Modeling
ptm-mamba
saltnpeppr
An Interface-Predicting Language Model for Designing Peptide-Guided Protein Degraders
stampscreen
An integrated pipeline for mammalian genetic screening
programmablebio's Repositories
programmablebio/pepmlm
Target Sequence-Conditioned Generation of Peptide Binders via Masked Language Modeling
programmablebio/ptm-mamba
programmablebio/saltnpeppr
An Interface-Predicting Language Model for Designing Peptide-Guided Protein Degraders
programmablebio/cutnclip
Design of Peptide-Based Protein Degraders via Contrastive Deep Learning
programmablebio/moppit
programmablebio/stampscreen
An integrated pipeline for mammalian genetic screening
programmablebio/beep
Base Editing Evaluation Program via Sanger Sequencing
programmablebio/egg
Efficient Human Germ Cell and Oogonia Specification from Stem Cells via Combinatorial TF Overexpression
programmablebio/granulosa
Directed Differentiation of Human iPSCs to Functional Ovarian Granulosa-Like Cells via Transcription Factor Overexpression
programmablebio/grn_benchmark
programmablebio/lung-cli
Predicting fetal lung response from ultrasound data