Understanding RNA folding at the level of secondary structures can give important insights concerning the function of a molecule. DrForna is an interactive visualization app for viewing the time course of a cotranscriptional RNA folding simulation. Users can scroll along the time axis and see the population of structures that are present at any particular time point.
Visit gh-pages for a life demonstration of the app, e.g., view the example simulation or upload your own input file. The default input examples are part of this repository: ./static/grow.drf and ./static/grow.fa.
The DrForna input format is currently supported by the cotranscriptional folding software DrTransformer, and there exist various wrappers to generate the DrForna input format from other cotranscriptional folding software at drconverters.
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The ensemble visualization area (top) presents the structure plots for a selected time point (the time point is marked with a vertical red line on the time point selection panel below):
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Each rectangle shows a structure together with its ID in the top left corner.
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The size of a rectangle is proportional to the occupancy of the corresponding structure.
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Nucleotides of pairs that are part of the same helix are shown in the same color, unpaired nucleotides remain uncolored.
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A mouse move over a rectangle displays the occupancy of the corresponding structure.
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A click on a rectangle zooms in on a structure. A second click returns to the enemble view.
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The time point selection panel (bottom):
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The vertical black line on the time scale marks the end of transcription, and also a transition from a linear time scale to a logarithmic time scale.
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For each time point, the vertical section of the colors shown on the scale correspond to the nucleotide colors of the most occupied structure present at the selected time point.
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A mouse click on the time scale freezes the visualization at a specific time point. A second click makes the time point selection panel responsive to mouse-over events again.
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The Play/Pause button in the top control panel starts an animation, which can also be deactivated by a mouse click on the scale area.
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The DrFrona input file should be a white-space separated value ("csv-like") file as shown in the example below:
id time occupancy structure energy
6 1.47 1.0000 .((((....((((....))))....))))........ -9.30
6 1.48 1.0000 .((((....((((....))))....))))........ -9.30
9 1.49 0.1494 .........((((....))))....((((....)))). -10.00
6 1.49 0.8506 .((((....((((....))))....))))......... -9.30
9 1.50 0.2693 .........((((....))))....((((....)))). -10.00
6 1.50 0.7306 .((((....((((....))))....))))......... -9.30
9 1.51 0.3656 .........((((....))))....((((....)))). -10.00
6 1.51 0.6344 .((((....((((....))))....))))......... -9.30
The header must have the form id time occupancy structure energy.
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id groups structures that differ only in the number of unpaired nucleotides at the end. (This grouping is recommended for a better performance, but not mandatory. Alternatively, every structure can have a unique ID, which will not change in the visual output, or the same ID can be used for structures with different base-pairs. However, the latter may lead to unexpected visualization, as the colors in the time point selection panel are defined by first structure for each ID.)
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time denotes the time point at which structures are plotted in the ensemble visualization area.
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occupancy is the probability of observing the structure in the ensemble at the given time point. (This affects the size of a structure plot in the ensemble visualization area.)
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structure is the structure in dot-bracket notation. (Pseudoknots are denoted by different sets of parenthesis, or pairs of lowercase/uppercase letters.)
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energy is the free energy of the structure. (The value in this field is not used for visualization.)
- The sequence is optional and can be either uploaded using a fasta file or written in the provided text box. Lines starting with the symbol ">" do not count as sequence, but can be used to specify the name for downloads. Note that providing a sequence may cause the colors of nucleotides be perceived darker than corresponding colors in the time point selection panel.
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min-occupancy: This parameter filters lines from the input file if the occupancy is too low. Filtering at a defined threshold helps to avoid performance problems, e.g. at most 100 structures can have occupancy
$\ge$ 0.01. Be careful with this parameter, it can remove entire time points from the visualization if it is set too high. -
speed: This parameter adjusts the frame rate of the animation, which can be triggered with the play/pause button. Note that loading structure plots can limit the frame rate.
We also provide a summary table that displays the currently visualized part of the DrForna input file. The order of structures is determined by the order in the input file. (Typically, the order is by free energy, which correlates with the probability of a structure in the equilibrated ensemble.) The dot-bracket notation is colored to match the color scheme of helices in the main visualization area.
Nucleotides engaged in base-pairs (i paired with j) are colored depending on
the ``imaginary center''
The file to produce the image above is part of this repository: ./img/colors.drf.
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npm install
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npm run serve
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npm run build
For documentation, and/or testing, run:
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npm run jsdoc
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npm run test
All commands are defined in package.json.
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v0.11 -- Many minor changes and a few major ones:
- new color scheme
- new buttons for play/pause/step (ArrowLeft/ArrowRight Keybindings)
- summary table in new window (resizes on click only)
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v0.10 -- many new features and a new layout after user feedback.
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v0.9 -- a more or less full rewrite