README.md

metadata

license: mit
configs:
  - config_name: study_meta
    data_files: study_meta.csv
    default: true
  - config_name: Meta_variable_description
    data_files: Meta_variable_description.csv
  - config_name: example_meta
    data_files: example_dataset/GSE194378_meta_sample.csv
  - config_name: example_bulk_gene_expr
    data_files: example_dataset/GSE194378_gene_expr_sample.csv
  - config_name: example_antibody
    data_files: example_dataset/GSE194378_antibody_sample.csv
task_categories:
  - zero-shot-classification
  - feature-extraction
  - token-classification
  - summarization
  - fill-mask
tags:
  - biology
  - medical
  - gene
  - genomics
  - scRNA-seq
  - Bulk-Gene-Expression
  - Change-Point-Detection
size_categories:
  - 1K<n<10K

HR-VILAGE-3K3M: Human Respiratory Viral Immunization Longitudinal Gene Expression

This repository provides the HR-VILAGE-3K3M dataset, a curated collection of human longitudinal gene expression profiles, antibody measurements, and aligned metadata from respiratory viral immunization and infection studies. The dataset includes baseline transcriptomic profiles and covers diverse exposure types (vaccination, inoculation, and mixed exposure). HR-VILAGE-3K3M is designed as a benchmark resource to support the development and evaluation of deep learning models for longitudinal gene expression analysis and to facilitate research into the temporal dynamics of immune responses.

Fig: Overview of HR-VILAGE-3K3M. (a) HR-VILAGE-3K3M construction workflow. (b) Distribution of sample timepoints for vaccine and inoculation studies, , shown separately for bulk RNA-seq and single-cell RNA-seq datasets. (c) Composition of the dataset, stratified by platform, tissue type, study type, and pathogen, including both bulk and single-cell transcriptomic studies.

Update

Sep 9, 2025 We corrected technical issues in GSE194378_gene_expr.csv, GSE199750_gene_expr.csv, and GSE276544_gene_expr.csv. These files have been re-uploaded, and users are advised to re-run analyses if relying on them.

Oct 13, 2025 Data repo V2 release

1. GSE169159_gene_expr.csv: updated to incorporate the authors’ latest data revision.
2. GSE230494_antibody.csv: added antibody measurements and updated the corresponding metadata.
3. study_meta: updated to include the number of genes and timepoint information; added Meta_variable_description.csv.

Dataset Description:

• This repo contains 66 studies (59 bulk and 7 single cell studies), comprising 3178 subjects and 14,136 observations along with 2,557,942 single cells.
• We provide preprocessed and normalized gene expression data, raw gene expression data, metadata and antibody data.

Data Structure:

HR-VILAGE-3K3M/
├── README.md
├── study_meta.csv
├── bulk_gene_expr/
│    └── <study_ID>_gene_expr.csv
├── singel_cell_gene_expr/
│    └── <study_ID>.h5ad
├── meta/
│    └── <study_ID>_meta.csv
├── bulk_gene_expr_raw/
│    └── <study_ID>_raw.csv
└── antibody/
     └── <study_ID>_antibody.csv

• study_meta.csv: Contains study-level metadata (e.g., platform, tissue type, study type) and serves as an overview of the repository. Users can use this file to filter and select a subset of studies based on custom criteria.
• bulk_gene_expr/: Processed gene expression matrices for each study (sample-by-gene). All files share the same 41,667 gene columns, with 9,004 genes non-missing across all studies.
• singel_cell_gene_expr/: Processed single cell gene expression matrices for each study in h5ad format. Raw count matrices are stored in the .X attribute, and cell-level metadata is stored in the .obs dataframe.
• meta/: Study-specific metadata files (.csv), aligned by row names with the corresponding expression data. All metadata files share the same column structure; missing values are marked as NA.
• bulk_gene_expr_raw/: Raw probe-level expression matrices (probe-by-sample), provided when available to support custom preprocessing workflows.
• antibody/: Raw antibody measurements with sample IDs matching those in the metadata, enabling integration with gene expression data at the subject level.

How to start:

Users could directly download all files and read files locally.

Alternatively, the following provides (partially) loading the dataset into Python using dataset package.

repo_id = "xuejun72/HR-VILAGE-3K3M"
import pandas as pd
from datasets import load_dataset

Bulk gene expression data

Bulk gene expression data can be loaded and combined using two alternative approaches.

1. Use our predefined configuration name, and pass to name argument in load_dataset(). trust_remote_code=True and revision="script" are required.

   Example 1, to download study_meta:

   study_meta = load_dataset(repo_id, name="study_meta", trust_remote_code=True, revision="script")["train"].to_pandas()
   

   Example 2, to download and combine all meta datasets:

   meta_dict = load_dataset(repo_id, name = "meta", trust_remote_code=True, revision="script")
   meta = meta_dict["train"].to_pandas()
   

   Example 3, to download and combine all bulk gene expression datasets. However, this is highly NOT recommended since their size are too large and the execution time will be long.

   # Not recommended!
   gene_expr_dict = load_dataset(repo_id, name = "bulk_gene_expr", trust_remote_code=True, revision="script")
   

   In addition, we provide a study filter function before downloading and loading, which works for meta and bulk gene expression datasets. split_filter argument is designed for this filter, which is optional. By default, split_filter=None will download all datasets as shown before. split_filter is a dict Python object where key is filter factors taking values from ['study_type','platform','tissue','pathogen','vaccine'] and value is a list of categories for each key. value should be exact same as that in study_meta.csv. Some examples of a valid split_filter:

   split_filter = {"study_type": ["inoculation","inoculation"]}
   split_filter = {"study_type": ["vaccine"], "vaccine": ["Influenza TIV"]}
   split_filter = {"study_type": ["vaccine"], "platform": ["RNA-seq"], "tissue": ["PBMC","nasal swab"], "pathogen": []}
   

   Example 4, to download and combine a customized filtered meta dataset:

   split_filter = {"study_type": ["vaccine"], "platform": ["RNA-seq"], "tissue": ["PBMC","nasal swab"], "pathogen": []}
   meta_filtered_dict = load_dataset(repo_id, name = "meta", trust_remote_code=True, split_filter=split_filter, revision="script")
   for _, value in meta_filtered_dict.items(): 
     meta_filtered = value.to_pandas().set_index("row_name")
   meta_filtered
   

   Example 5, to download and combine a customized filtered bulk gene expression dataset:

   split_filter = {"study_type": ["vaccine"], "platform": ["RNA-seq"], "tissue": ["PBMC","nasal swab"], "pathogen": []}
   gene_expr_filtered_dict = load_dataset(repo_id, name = "bulk_gene_expr", trust_remote_code=True, split_filter=split_filter, revision="script")
   gene_names = gene_expr_filtered_dict["gene_expr_colnames"][0]["gene_names"]
   all_row_names = []
   all_matrix = []
   for batch in next(iter(gene_expr_filtered_dict.items()))[1]:
     all_row_names.extend(batch["row_names"])
     all_matrix.extend(batch["matrix"])
   gene_expr_filtered = pd.DataFrame(all_matrix, index=all_row_names, columns=gene_names)
   gene_expr_filtered
   

2. Use exact path of one csv file, and pass to data_files argument in load_dataset().

   Example 1, to download study_meta:

   study_meta = load_dataset(repo_id, data_files = "study_meta.csv")["train"].to_pandas()
   

   Example 2, to download antibody dataset for GSE194378:

   antibody = load_dataset(repo_id, data_files = "antibody/GSE194378_antibody.csv")["train"].to_pandas()
   

   Example 3, to download raw gene expression dataset for GSE194378:

   raw = load_dataset(repo_id, data_files = "bulk_gene_expr_raw/GSE194378_raw.csv")["train"].to_pandas()
   

   Note: for antibody and raw gene expression datasets, since different study has different columns which cannot be simply combined, loading them must using data_files argument and be one-by-one.

Single cell gene expression data

Single-cell gene expression data can be downloaded and accessed using the anndata package.

  import anndata as ad
  # Load the GSE195673 dataset
  GSE195673 = ad.read_h5ad("./GSE195673_processed.h5ad")
  # View cell-level metadata
  GSE195673.obs

A merged dataset containing all 7 studies is also provided, comprising 2,557,942 cells and 13,589 common genes:

  import anndata as ad
  # Load the combined dataset
  combined = ad.read_h5ad("./combined.h5ad")
  # View cell-level metadata
  combined.obs

The combined object includes detailed cell-level metadata such as sample_id, cell_type, sex, donor_id, time_point_day, dataset, covid_status, age, tissue, and study_type. It also contains dimensionality reductions (X_pca, X_umap) and graph-based neighbor information in obsp for downstream analysis.

Example code:

The codes for data processing and reproducing evaluation results in the paper are in Document.

Data Relations:

The following duplicate studies (right nodes) are not included in HR-VILAGE-3K3M, while their source studies (left leaves) are included in HR-VILAGE-3K3M.

GSE73072_H3N2_DEE2 ──┐
                      ├── GSE52428
GSE73072_H1N1_DEE4 ──┘

GSE73072_H3N2_DEE2    ├── GSE30550

GSE73072_HRV_UVA   ──┐
GSE73072_RSV_DEE1  ── ├── GSE17156
GSE73072_H3N2_DEE2 ──┘

The studies grouped below originate from the same research group and were typically processed using consistent experimental and technical pipelines. Consequently, these studies are expected to exhibit minimal batch effects compared to those conducted independently. We provide this grouping information to assist users interested in pooling data across studies—combining studies from the same group can help mitigate confounding technical variability and enhance statistical power in downstream analyses such as differential expression. Notably, GSE201533 and GSE201534 represent paired bulk RNA-seq and single-cell RNA-seq data from the same subjects, while GSE246937 is paired with GSE246525, offering a valuable opportunity for multi-resolution analyses.

How to cite:

@misc{sun2025hrvilage3k3mhumanrespiratoryviral,
      title={HR-VILAGE-3K3M: A Human Respiratory Viral Immunization Longitudinal Gene Expression Dataset for Systems Immunity}, 
      author={Xuejun Sun and Yiran Song and Xiaochen Zhou and Ruilie Cai and Yu Zhang and Xinyi Li and Rui Peng and Jialiu Xie and Yuanyuan Yan and Muyao Tang and Prem Lakshmanane and Baiming Zou and James S. Hagood and Raymond J. Pickles and Didong Li and Fei Zou and Xiaojing Zheng},
      year={2025},
      eprint={2505.14725},
      archivePrefix={arXiv},
      primaryClass={q-bio.GN},
      url={https://arxiv.org/abs/2505.14725}, 
}