Multifuricating Developmental cEll Lineage Tree Alignment (mDELTA) algorithm
Project description
mDELTA: an algorithm for multifuricating Developmental cEll Lineage Tree Alignment.
-
mDELTA is an algorithm for multifuricating Developmental cEll Lineage Tree Alignment. In essence, it compares two rooted, unordered, tip-labeled trees, and finds the best global / local correspondence between the nodes. The mDELTA program is designed for analyzing developmental cell lineage trees reconstructed through single-cell DNA barcoding (such as done by scGESTALT or SMALT, while greater cellular coverage is expected to yield more meaningful mDELTA alignments).
-
Except for dealing with cell lineage trees instead of biological sequences, mDELTA is conceptually similar to sequence alignment. It helps quantify similarity among different lineage trees, disentangle the consensus and variation, find recurrent motifs, and facilitate comparative/evolutionary analyses.
-
Also included in this repository are Python/R scripts for statistical analyses and visualization of mDELTA results, which facilitates their biological interpretation.
-
mDELTA was developed by Jingyu Chen under the supervision of Professor Jian-Rong Yang at the Zhongshan School of Medicine of Sun Yat-Sen University in China.
For details, please visit https://github.com/Chenjy0212/mdelta/blob/main/README2.md/
Quick start
Installation
pip install mdelta
This will install mDELTA and its prerequisites
Running the program
mDELTA.py -h
usage: mDELTA [-h] [-nt NAME2TYPEFILE] [-nt2 NAME2TYPEFILE2] [-sd SCOREDICTFILE] [-t TOP] [-ma MAV] [-mi MIV] [-p PV] [-T TQDM]
[-n NOTEBOOK] [-P PERM] [-a ALG] [-c CPUS] [-o OUTPUT] [-x DIFF] [-mg MERGE]
TreeSeqFile TreeSeqFile2
Multifuricating Developmental cEll Lineage Tree Alignment(mDELTA)
positional arguments:
TreeSeqFile [path/filename] A text file storing cell lineage tree #1 in newick format. Tips can be labeled by name or
cell type. Branch lengths should be removed.
TreeSeqFile2 [path/filename] A text file storing cell lineage tree #2 in newick format. Tips can be labeled by name or
cell type. Branch lengths should be removed.
optional arguments:
-h, --help show this help message and exit
-nt NAME2TYPEFILE, --Name2TypeFile NAME2TYPEFILE
[path/filename] List of correspondance between tip name and cell type for cell lineage tree #1.
-nt2 NAME2TYPEFILE2, --Name2TypeFile2 NAME2TYPEFILE2
[path/filename] List of correspondance between tip name and cell type for cell lineage tree #2.
-sd SCOREDICTFILE, --ScoreDictFile SCOREDICTFILE
[path/filename] A comma-delimited text file used to determine similarity scores between cells. If there
are exactly three columns, they will be interpreted as (1) the cell (name or type) in Tree #1, (2) the
cell in Tree #2, and (3) the similarity score. If otherwise, the first column will be interpreted as the
cell (name or type) and the remaining columns as features of the cell (e.g. expression of a gene). The
similarity scores will be estimated between all pairs of cells based on the Euclidean distance calculated
using all the features. Overrides `-ma` and `-mi`.
-t TOPN, --top TOPN [int > 0] Performs local (instead of global) alignment, and output the top TOPNUM local alignments with the
highest score (e.g. `-t 10`). In the case of global alignment, this parameter should be omitted.
-ma MAV, --mav MAV [float]
-mi MIV, --miv MIV [float] Shorthand for a simple matching score scheme, where the matching score between a pair of the same
cell types is MAV and all other pairs are MIV. (e.g. `-ma 2 -mi -2`). Overridden by `-sd`.
-p PV, --pv PV [float] The score for pruning a tip of the tree (e.g. `-p -2`). Default to -1.
-T TQDM, --Tqdm TQDM [0(off) or 1(on)] Toggle for the jupyter notebook environment.
-n NOTEBOOK, --notebook NOTEBOOK
[0(off) or 1(on)] Toggle for the jupyter notebook environment.
-P PERM, --PERM PERM [int > 0] Toggle for the statistical significance. For each observed alignment, the aligned trees will be
permuted PERM times to generate a null distribution of alignment scores, with which a P value can be
calculated for the observed alignment score.
-a ALG, --Alg ALG [KM / GA] Use Kuhn-Munkres or Greedy Algorithm to find the optimal alignment score.
-c CPUS, --CPUs CPUS [int > 0] Number of threads for multi-processing. Default to 50., it can reach the maximum number of local
CPU cores - 1.
-o OUTPUT, --output OUTPUT
[path/filename] Output filename
-x DIFF, --diff DIFF [int > 0] Alignment must consist of a minimal
of DIFF% aligned cell pairs that are different from previous(better) local
alignments in order to be considered as another new alignment (e.g. `-x 20` means 20%).
-mg MERGE, --merge MERGE
[float] This is the scaling factor for calculating the score of merging an internal node (e.g. -mg -1),
which is multiplied by the number of tips of the internal node to be merged. Default to 0.
More details on https://github.com/Chenjy0212/mdelta
Aligning a tree with itself, output top three local alignments
mDELTA.py ExampleFile/tree.nwk ExampleFile/tree.nwk -t 3
:writing_hand: Authors
Jingyu Chen (EeWhile) :man:
Student of SYSU. :school:
ZHONGSHAN SCHOOL OF MEDICINE,SYSU https://zssom.sysu.edu.cn/zh-hans :sparkling_heart:
Undergraduate majoring in computer science, master majoring in bioinformatics. :man_technologist:
Below is the contact information of the author. :eyes:
If you use this project in your research, please cite this project.
@misc{mdelta2022,
author = {Jingyu Chen},
title = {mDELTA: Multifuricating Developmental cEll Lineage Tree Alignment},
year = {2022},
publisher = {GitHub},
journal = {GitHub repository},
howpublished = {\url{https://github.com/Chenjy0212/mdelta}},
}
Release history Release notifications | RSS feed
Download files
Download the file for your platform. If you're not sure which to choose, learn more about installing packages.
