A component for building interactive molecular visualizations within Streamlit web-applications. It is designed to provide a state of the art visualizing and rendering 3D molecular structures for researchers, in a user-friendly manner.
Note: Due to recent changes in the 3Dmol.js package, it is recomended to install py3DMol in the following way,
pip install py3Dmol==2.0.0.post2
- An easy-to-use component for rendering interactive 3D molecular visualizations of protein and ligand structures within Streamlit web-apps
stmol
can render protein and ligand structures with just a few lines of Python code by utilizing popular visualization libraries, currently Py3DMol and Speck.- On the user-end,
stmol
does not require expertise to interactively navigate. - On the developer-end,
stmol
can be easily integrated within structural bioinformatic and cheminformatic pipelines to provide a simple means for user-end researchers to advance biological studies and drug discovery efforts.
stmol
runs with traditional Python stack.
To install stmol
from pypi, run this command in your terminal:
pip install stmol==0.0.9
Since the end goal of stmol
plugin, is to enable easy rendering of molecular structure within the streamlit applicaton, libraries such as
streamlit and py3Dmol are crucial to work with.
Run this command in your terminal to install the latest release of Streamlit,
pip install streamlit
Run this command in your terminal to install the latest release of py3Dmol,
pip install py3Dmol
A recent addition to stmol
project, in a form of static HTML wrapper is the speck_plot()
function, which helps in rendering Speck structures within the Streamlit web-application, is dependent on the following libraries,
ipyspeck(==0.6.1)
ipywidgets(==7.6.3)
ipython_genutils
- Using
py3Dmol object
To visualize any protein structure, all we need is the PDB ID of the protein.
from stmol import showmol
import py3Dmol
# 1A2C
# Structure of thrombin inhibited by AERUGINOSIN298-A from a BLUE-GREEN ALGA
xyzview = py3Dmol.view(query='pdb:1A2C')
xyzview.setStyle({'cartoon':{'color':'spectrum'}})
showmol(xyzview, height = 500,width=800)
- Using the
render_pdb()
function
The render_pdb()
function accepts any PDB ID and returns a py3Dmol object.
from stmol import *
showmol(render_pdb(id = '1A2C'))
Inorder to mark the residues, we can use the render_pdb_resn()
function, which in this example marks the Alanine [ALA] residues,
showmol(render_pdb_resn(viewer = render_pdb(id = '1A2C'),resn_lst = ['ALA',]))
Refer to the documentation here
You can find several stmol
examples here.
We appreciate contributions from the community! Every little bit helps, and credit will always be given.
- Reporting Bugs - Report bugs at https://github.com/napoles-uach/stmol/issues
- Fix Bugs - Look through the GitHub issues for bugs. Anything tagged with “bug” and “help wanted” is open to whoever wants to help with it.
- Implement Features - Look through the GitHub issues for features. Anything tagged with “enhancement” and “help wanted” is open to whoever wants to implement it.
- Submit Feedback - The best way to send feedback is to file an issue at https://github.com/napoles-uach/stmol/issues
- J. M. Nápoles-Duarte jnapoles@uach.mx
- Avratanu Biswas avratanu.biswas@brc.hu
- Mitchell I. Parker mip34@drexel.edu
We thank the authors of 3dmol.js and py3Dmol. Nicholas Rego, David Koes, 3Dmol.js: molecular visualization with WebGL, Bioinformatics, Volume 31, Issue 8, 15 April 2015, Pages 1322–1324, https://doi.org/10.1093/bioinformatics/btu829
Please include this citation if Stmol is used in an academic study:
Nápoles-Duarte JM, Biswas A, Parker MI, Palomares-Baez JP, Chávez-Rojo MA and Rodríguez-Valdez LM (2022) Stmol: A component for building interactive molecular visualizations within streamlit web-applications. Front. Mol. Biosci. 9:990846. doi: 10.3389/fmolb.2022.990846
Or use the following bibtex format,
@ARTICLE{stmol,
AUTHOR={Nápoles-Duarte, J.M. and Biswas, Avratanu and Parker, Mitchell I. and Palomares-Baez, J.P. and Chávez-Rojo, M. A. and Rodríguez-Valdez, L. M.},
TITLE={Stmol: A component for building interactive molecular visualizations within streamlit web-applications},
JOURNAL={Frontiers in Molecular Biosciences},
VOLUME={9},
YEAR={2022},
URL={https://www.frontiersin.org/articles/10.3389/fmolb.2022.990846},
DOI={10.3389/fmolb.2022.990846},
ISSN={2296-889X},
}