SeqDesign is a generative, unsupervised model for biological sequences. It is capable of learning functional constraints from unaligned sequences in order to predict the effects of mutations and generate novel sequences, including insertions and deletions. For more information, check out the biorxiv preprint.
This version of the codebase is compatible with Python 3 and Tensorflow 1.
For the Python 2.7 version used in the preprint, see the
v2 branch.
A PyTorch version is available here
See INSTALL.md.
See the examples directory for examples of training, mutation effect prediction, and generation.
Given a fasta file of training sequences, run:
run_autoregressive_fr --dataset <your_dataset>.faSequences are uniformly weighted by default. To set sequence
weights, append : and a weight to each fasta header, e.g. :1.0.
Deterministic:
calc_logprobs_seqs_fr --sess <your_sess> --dropout-p 1.0 --num-samples 1 --input <input>.fa --output <output>.csvAverage of 500 samples:
calc_logprobs_seqs_fr --sess <your_sess> --dropout-p 0.5 --num-samples 500 --input <input>.fa --output <output>.csvgenerate_sample_seqs_fr --sess <your_sess>Run each script with the -h argument to see additional arguments.
See the examples directory to download training sequences, mutation effect predictions, and generated sequences.