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--- |
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license: cc-by-nc-sa-4.0 |
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widget: |
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- text: ACCTGA<mask>TTCTGAGTC |
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tags: |
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- DNA |
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- biology |
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- genomics |
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- segmentation |
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--- |
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# segment-nt |
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SegmentNT is a segmentation model leveraging the [Nucleotide Transformer](https://huggingface.co/InstaDeepAI/nucleotide-transformer-v2-500m-multi-species) (NT) DNA foundation model to predict the location of several types of genomics |
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elements in a sequence at a single nucleotide resolution. It was trained on 14 different classes of human genomics elements in input sequences up to 30kb. These |
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include gene (protein-coding genes, lncRNAs, 5’UTR, 3’UTR, exon, intron, splice acceptor and donor sites) and regulatory (polyA signal, tissue-invariant and |
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tissue-specific promoters and enhancers, and CTCF-bound sites) elements. |
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**Developed by:** [InstaDeep](https://huggingface.co/InstaDeepAI) |
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### Model Sources |
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<!-- Provide the basic links for the model. --> |
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- **Repository:** [Nucleotide Transformer](https://github.com/instadeepai/nucleotide-transformer) |
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- **Paper:** [Segmenting the genome at single-nucleotide resolution with DNA foundation models](https://www.biorxiv.org/content/biorxiv/early/2024/03/15/2024.03.14.584712.full.pdf) |
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### How to use |
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<!-- Need to adapt this section to our model. Need to figure out how to load the models from huggingface and do inference on them --> |
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Until its next release, the `transformers` library needs to be installed from source with the following command in order to use the models: |
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```bash |
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pip install --upgrade git+https://github.com/huggingface/transformers.git |
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``` |
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A small snippet of code is given here in order to retrieve both logits and embeddings from a dummy DNA sequence. |
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⚠️ The maximum sequence length is set by default at the training length of 30,000 nucleotides, or 5001 tokens (accounting for the CLS token). However, |
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SegmentNT-multi-species has been shown to generalize up to sequences of 50,000 bp. In case you need to infer on sequences between 30kbp and 50kbp, make sure to change |
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the `rescaling_factor` of the Rotary Embedding layer in the esm model `num_dna_tokens_inference / max_num_tokens_nt` where `num_dna_tokens_inference` is the number of tokens at inference |
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(i.e 6669 for a sequence of 40008 base pairs) and `max_num_tokens_nt` is the max number of tokens on which the backbone nucleotide-transformer was trained on, i.e `2048`. |
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[](https://colab.research.google.com/#fileId=https%3A//huggingface.co/InstaDeepAI/segment_nt/blob/main/inference_segment_nt.ipynb) |
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The `./inference_segment_nt.ipynb` can be run in Google Colab by clicking on the icon and shows how to handle inference on sequence lengths require changing |
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the rescaling factor and sequence lengths that do not. One can run the notebook and reproduce Fig.1 and Fig.3 from the SegmentNT paper. |
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```python |
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# Load model and tokenizer |
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from transformers import AutoTokenizer, AutoModel |
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import torch |
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tokenizer = AutoTokenizer.from_pretrained("InstaDeepAI/segment_nt", trust_remote_code=True) |
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model = AutoModel.from_pretrained("InstaDeepAI/segment_nt", trust_remote_code=True) |
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# Choose the length to which the input sequences are padded. By default, the |
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# model max length is chosen, but feel free to decrease it as the time taken to |
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# obtain the embeddings increases significantly with it. |
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# The number of DNA tokens (excluding the CLS token prepended) needs to be dividible by |
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# 2 to the power of the number of downsampling block, i.e 4. |
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max_length = 12 + 1 |
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assert (max_length - 1) % 4 == 0, ( |
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"The number of DNA tokens (excluding the CLS token prepended) needs to be dividible by" |
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"2 to the power of the number of downsampling block, i.e 4.") |
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# Create a dummy dna sequence and tokenize it |
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sequences = ["ATTCCGATTCCGATTCCG", "ATTTCTCTCTCTCTCTGAGATCGATCGATCGAT"] |
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tokens = tokenizer.batch_encode_plus(sequences, return_tensors="pt", padding="max_length", max_length = max_length)["input_ids"] |
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# Infer |
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attention_mask = tokens != tokenizer.pad_token_id |
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outs = model( |
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tokens, |
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attention_mask=attention_mask, |
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output_hidden_states=True |
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) |
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# Obtain the logits over the genomic features |
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logits = outs.logits.detach() |
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# Transform them in probabilities |
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probabilities = torch.nn.functional.softmax(logits, dim=-1) |
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print(f"Probabilities shape: {probabilities.shape}") |
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# Get probabilities associated with intron |
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idx_intron = model.config.features.index("intron") |
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probabilities_intron = probabilities[:,:,idx_intron] |
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print(f"Intron probabilities shape: {probabilities_intron.shape}") |
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``` |
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## Training data |
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The **segment-nt** model was trained on all human chromosomes except for chromosomes 20 and 21, kept as test set, and chromosome 22, used as a validation set. |
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During training, sequences are randomly sampled in the genome with associated annotations. However, we keep the sequences in the validation and test set fixed by |
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using a sliding window of length 30,000 over the chromosomes 20 and 21. The validation set was used to monitor training and for early stopping. |
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## Training procedure |
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### Preprocessing |
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The DNA sequences are tokenized using the Nucleotide Transformer Tokenizer, which tokenizes sequences as 6-mers tokens as described in the [Tokenization](https://github.com/instadeepai/nucleotide-transformer#tokenization-abc) section of the associated repository. This tokenizer has a vocabulary size of 4105. The inputs of the model are then of the form: |
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``` |
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<CLS> <ACGTGT> <ACGTGC> <ACGGAC> <GACTAG> <TCAGCA> |
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``` |
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### Training |
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The model was trained on a DGXH100 node with 8 GPUs on a total of 23B tokens for 3 days. The model was trained on 3kb, 10kb, 20kb and finally 30kb sequences, at each time with an effective batch size of 256 sequences. |
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### Architecture |
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The model is composed of the [nucleotide-transformer-v2-500m-multi-species](https://huggingface.co/InstaDeepAI/nucleotide-transformer-v2-500m-multi-species) encoder, from which we removed |
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the language model head and replaced it by a 1-dimensional U-Net segmentation head [4] made of 2 downsampling convolutional blocks and 2 upsampling convolutional blocks. Each of these |
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blocks is made of 2 convolutional layers with 1, 024 and 2, 048 kernels respectively. This additional segmentation head accounts for 53 million parameters, bringing the total number of parameters |
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to 562M. |
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### BibTeX entry and citation info |
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```bibtex |
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@article{de2024segmentnt, |
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title={SegmentNT: annotating the genome at single-nucleotide resolution with DNA foundation models}, |
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author={de Almeida, Bernardo P and Dalla-Torre, Hugo and Richard, Guillaume and Blum, Christopher and Hexemer, Lorenz and Gelard, Maxence and Pandey, Priyanka and Laurent, Stefan and Laterre, Alexandre and Lang, Maren and others}, |
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journal={bioRxiv}, |
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pages={2024--03}, |
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year={2024}, |
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publisher={Cold Spring Harbor Laboratory} |
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} |
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``` |
