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TargetScanHuman 8.0 is a database that searches for conserved and nonconserved sites that match the seed region of microRNAs in human 3' UTRs and ORFs. It provides options to rank predictions by different criteria, such as biochemical model, context++ scores, or conservation probability.
- TargetScan 8.0 Information
TargetScan 8.0 information. Changes from version 7.2 to...
- miRNA Families
Aquí nos gustaría mostrarte una descripción, pero el sitio...
- Context++ Scores
The context++ score (CS) for a specific site is the sum of...
- Release 4
Targets are predicted using the TargetScanS algorithm and...
- Targetscanhuman 7.1
TargetScanHuman considers matches to human 3' UTRs and their...
- Targetscanfish 6.2
TargetScan predicts biological targets of miRNAs by...
- Targetscanfly 7.2
References: 1) Conserved Seed Pairing, Often Flanked by...
- TargetScan Archives
TargetScan: prediction of microRNA targets. Predicted miRNA...
- TargetScan 8.0 Information
This search page of TargetScan Release 8.0 retrieves predicted regulatory targets of mammalian microRNAs . The predicted targets are essentially the same as those presented in previous versions of the TargetScan site ( Releases 2.0, 2.1 , 3.0, 3.1, 4.0 - 4.2, 5.0 - 5.2, 6.0 - 6.2, 7.0, 7.1, and 7.2.
12 de ago. de 2015 · TargetScan predicts biological targets of miRNAs by searching for seed matches and other features in human 3' UTRs and ORFs. It uses an improved context++ model, 3' UTR profiles, and updated miRNA families.
12 de abr. de 2023 · The miR-142-3p’s mature sequences targeting of human RHOBTB3 are available in the TargetScan (TargetScanHuman 8.0 predicted targeting of Human RHOBTB3).
29 de sept. de 2022 · In addition to PREs, multiple, high confidence miR binding sites were also predicted using the online prediction tool TargetScanHuman (v8.0) . MiRs contain a critical binding sequence at nt positions 2–7 known as the seed sequence.
6 de sept. de 2022 · To identify miRNAs targeting the 3′-UTR of TIM-1, we used TargetScanHuman 8.0, as we previously described [20,111,114,115,116,117]. To assess the effects of miR-142 on TIM-1 gene transcription, we used a luciferase reporter containing the 3′-UTR of the predicted miRNA interaction site, both wild-type and mutated, in hBMECs cells.