A maximum likelihood algorithm for reconstructing 3D structures of human chromosomes from chromosomal contact data - 3DMax
Bioinformatics, Data Mining, Machine Learning (BDM) Laboratory,
University of Missouri, Columbia MO 65211
Developer:
Oluwatosin Oluwadare
Department of Computer Science
University of Missouri, Columbia
Email: [email protected]
Contact:
Jianlin Cheng, PhD
Department of Computer Science
University of Missouri, Columbia
Email: [email protected]
- executable: latest version can be downloaded from the release tab
- examples: contains example data and outputs generated from 3DMax for these datasets
- src: 3DMax Java and MATLAB source codes
- lib: The dependency libraries used for the Java source code
In our study, we used the synthetic dataset from Trussart et al. The contact maps, the original models and their reconstructed models used in this study were downloaded from http://sgt.cnag.cat/3dg/datasets/.
The Hi-C datasets we used can be downloaded from here : http://sysbio.rnet.missouri.edu/bdm_download/3DMax/
3DMax allows two formats:
- Tuple Input format(preferred) : A hi-C contact file, each line contains 3 numbers (separated by a space) of a contact, position_1 position_2 interaction_frequencies
- Square Matrix Input format: The square matrix is a comma seperated N by N intra-chromosomal contact matrix derived from Hi-C data, where N is the number of equal-sized regions of a chromosome.
4.1. Java:
To run the tool, open command line interface and type: java -jar 3DMax.jar parameters.txt
- Parameters are configured in the 'parameters.txt' file:
- NUM: number of models to generate
- OUTPUT_FOLDER: output folder
- INPUT_FILE: hi-C contact file, each line contains 3 numbers (separated by a space) of a contact, position_1 position_2 interaction_frequencies or a square matrix seperated by comma
- CONVERT_FACTOR: the factor used to convert IF to distance, distance = 1/(IF^factor), when not specified, the program will search for it in range [0.1, 2.0], step = 0.1
- CHROMOSOME_LENGTH: remove it if there is only one chromosome. If there are multiple chromosomes in the input data, specify number of points (or beads) of chromosomes in the input data, separated by a comma. These numbers must be consistent with the input data.
- VERBOSE: true or false to output gradient values during optmization
- LEARNING_RATE: learning rate for the optimization. Increase the learning rate to reduce running time. [Max recommended = 1]
- MAX_ITERATION: maximum number of iterations, the optimization may converge before this number
See in /examples/ for sample files
4.2. MATLAB:
Instructions on how to run the MATLAB source code is given here /src/MATLAB/
4.3. A short video demonstration of how to use the Java and MATLAB versions can be found here: https://youtu.be/ehQUFWoHwfo
3DMax produces 4 files"
- Output: there are 4 files
- *.pdb: contains the model and can be visualized by pyMol, Chimera or GenomeFlow
- *_log_a_number.txt: contains the settings used to build the model and Spearman's correlation of reconstructed distances and input IFs
- *_log.txt: NUM > 1, the files contains settings and average root means square error (RMSE) and average correlation of Spearman's and Pearson's correlations of separate models
- *_coordinate_mapping.txt: contains the mapping of genomic positions to indices in the model. Notice that indices start from 0, while in pyMol or Chimera, id starts from 1
The executable software and the source code of 3DMax is distributed free of charge as it is to any non-commercial users. The authors hold no liabilities to the performance of the program.
Oluwadare, Oluwatosin, Yuxiang Zhang, and Jianlin Cheng. "A maximum likelihood algorithm for reconstructing 3D structures of human chromosomes from chromosomal contact data." BMC genomics 19.1 (2018): 161.
8.1. Is there a computing speed difference between the Java and MATLAB implementation?
Yes, we explained this in our manuscript, the Java implementation is faster than the MATLAB implementation on all datasets
8.2. Is there a significant difference in the model generated by the Java and MATLAB implementation?
No, their is no significant difference in the models from both.
8.3. Can the MATLAB implementation perform whole genome structure prediction just like the Java version?
No, the MATLAB implementation is designed to only model chromosome structures.