Input and runtime details for job 5724482 (precomputed example)
Sequence Parameters
 Query ncRNA (short) in FASTA | [.fa] | ||
| Index first query position | 1 | ||
| Target RNA (long) in FASTA | [.fa] | ||
| Index first target position | 1 |
Output Parameters
| Number of interactions per RNA pair | 1 | ||
| Suboptimal interaction overlap | can overlap in query | ||
| Max. interaction length | not provided | ||
| Max. absolute energy of an interaction | 0 | ||
| Max. delta energy above mfe of an interaction | 100 | ||
| No lonely base pairs | yes | ||
| No GU at helix ends | yes |
Seed Parameters
| Min. number of basepairs in seed | 7 | ||
| Max. Number of mismatches in seed | 0 | ||
| Maximal energy | 0 | ||
| Minimal unpaired probability (per RNA) | 0 | ||
| Seed position (query) | not provided | ||
| Seed position (target) | not provided | ||
| Ignore seeds with GU base pairs | no | ||
| Ignore seeds with GU ends | yes |
Folding Parameters
| Temperature for energy computation | 37.0 | ||
| Access. query: folding window size | 150 | ||
| Access. query: max. basepair distance | 100 | ||
| Access. target: folding window size | 150 | ||
| Access. target: max. basepair distance | 100 | ||
| Energy parameter set (Vienna package) | Turner model, 2004 |
Job ID 5724482 (server version trunk)
 | Job Submitted & Queued | @ Fri Jan 07 21:02:52 CET 2022 | |
| IntaRNA Started | @ Fri Jan 07 21:03:17 CET 2022 | |
| IntaRNA Finished & Post-Processing | @ Fri Jan 07 21:03:17 CET 2022 | |
| Post-Processing Finished | @ Fri Jan 07 21:03:17 CET 2022 | |
| Job Completed | @ Fri Jan 07 21:03:18 CET 2022 |
DIRECT ACCESS: http://rna.informatik.uni-freiburg.de/RetrieveResults.jsp?jobID=5724482&toolName=IntaRNA ( 30 days expiry )
Description of the job
pairwise ncRNA-mRNA predictions
Output
[zip]
Downloadable files
Identified Interactions
Details of Selected Interaction Download Interaction Details
Target Query
Position-wise minimal energy profile
The following plots provide insights into the overall RNA-RNA interaction
abundance. To this end, a minimal energy profile is provided for both
sequences of each query-target pair considered. It visualizes for a
given pair of sequences for each sequence position the minimal
energy of any RNA-RNA interaction that can be formed between these two RNAs.
Furthermore, a combined plot that visualizes the minimal energy for each intermolecular index pair is provided in a heatmap style to track whether or not alternative interactions can be formed exclusively (overlapping regions) or in conjunction.
Note, since IntaRNA uses a heuristic to enable the low runtime, the provided energies are (close) upper bounds. Note further, only RNA-RNA interactions featuring a seed (according to the user parameters) are considered. Only interaction energies below or equal to 0 are visualized and missing data (subsequences without predicted interactions) are also depicted with an energy of 0.
Furthermore, a combined plot that visualizes the minimal energy for each intermolecular index pair is provided in a heatmap style to track whether or not alternative interactions can be formed exclusively (overlapping regions) or in conjunction.
Note, since IntaRNA uses a heuristic to enable the low runtime, the provided energies are (close) upper bounds. Note further, only RNA-RNA interactions featuring a seed (according to the user parameters) are considered. Only interaction energies below or equal to 0 are visualized and missing data (subsequences without predicted interactions) are also depicted with an energy of 0.
Select a query-target sequence index combination for visualization:
Job resubmission
Use the following button if you want to resubmit the job with
altered input or parameterization:
usability assessment
When using IntaRNA please cite :
- Martin Mann, Patrick R. Wright, and Rolf Backofen
IntaRNA 2.0: enhanced and customizable prediction of RNA–RNA interactions
Nucleic Acids Research, 2017, 45 (W1), W435–W439. - Patrick R. Wright, Jens Georg, Martin Mann, Dragos A. Sorescu, Andreas S. Richter, Steffen Lott, Robert Kleinkauf, Wolfgang R. Hess, and Rolf Backofen
CopraRNA and IntaRNA: predicting small RNA targets, networks and interaction domains
Nucleic Acids Research, 2014, 42 (W1), W119-W123. - Anke Busch, Andreas S. Richter, and Rolf Backofen
IntaRNA: efficient prediction of bacterial sRNA targets incorporating target site accessibility and seed regions
Bioinformatics, 2008, 24 (24), 2849-56. - Martin Raden, Syed M Ali, Omer S Alkhnbashi, Anke Busch, Fabrizio Costa, Jason A Davis, Florian Eggenhofer, Rick Gelhausen, Jens Georg, Steffen Heyne, Michael Hiller, Kousik Kundu, Robert Kleinkauf, Steffen C Lott, Mostafa M Mohamed, Alexander Mattheis, Milad Miladi, Andreas S Richter, Sebastian Will, Joachim Wolff, Patrick R Wright, and Rolf Backofen
Freiburg RNA tools: a central online resource for RNA-focused research and teaching
Nucleic Acids Research, 46(W1), W25-W29, 2018.
Results are computed with IntaRNA version 3.2.0 linking Vienna RNA package 2.4.14
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