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4 publications mentioning dre-mir-338-1

Open access articles that are associated with the species Danio rerio and mention the gene name mir-338-1. Click the [+] symbols to view sentences that include the gene name, or the word cloud on the right for a summary.

1
[+] score: 49
Other miRNAs from this paper: hsa-let-7a-1, hsa-let-7a-2, hsa-let-7a-3, hsa-let-7b, hsa-let-7e, hsa-mir-20a, hsa-mir-21, hsa-mir-23a, hsa-mir-24-1, hsa-mir-24-2, hsa-mir-26b, hsa-mir-27a, hsa-mir-29a, hsa-mir-31, hsa-mir-29b-1, hsa-mir-29b-2, hsa-mir-103a-2, hsa-mir-103a-1, hsa-mir-199a-1, hsa-mir-148a, hsa-mir-7-1, hsa-mir-7-2, hsa-mir-7-3, hsa-mir-10b, hsa-mir-181a-2, hsa-mir-181b-1, hsa-mir-181c, hsa-mir-199a-2, hsa-mir-199b, hsa-mir-203a, hsa-mir-204, hsa-mir-212, hsa-mir-181a-1, hsa-mir-221, hsa-mir-23b, hsa-mir-27b, hsa-mir-128-1, hsa-mir-132, hsa-mir-133a-1, hsa-mir-133a-2, hsa-mir-143, hsa-mir-200c, hsa-mir-181b-2, hsa-mir-128-2, hsa-mir-200a, hsa-mir-30e, hsa-mir-148b, hsa-mir-338, hsa-mir-133b, dre-mir-7b, dre-mir-7a-1, dre-mir-7a-2, dre-mir-10b-1, dre-mir-181b-1, dre-mir-181b-2, dre-mir-199-1, dre-mir-199-2, dre-mir-199-3, dre-mir-203a, dre-mir-204-1, dre-mir-181a-1, dre-mir-221, dre-mir-222a, dre-let-7a-1, dre-let-7a-2, dre-let-7a-3, dre-let-7a-4, dre-let-7a-5, dre-let-7a-6, dre-let-7b, dre-let-7e, dre-mir-7a-3, dre-mir-10b-2, dre-mir-20a, dre-mir-21-1, dre-mir-21-2, dre-mir-23a-1, dre-mir-23a-2, dre-mir-23a-3, dre-mir-23b, dre-mir-24-4, dre-mir-24-2, dre-mir-24-3, dre-mir-24-1, dre-mir-26b, dre-mir-27a, dre-mir-27b, dre-mir-29b-1, dre-mir-29b-2, dre-mir-29a, dre-mir-30e-2, dre-mir-101b, dre-mir-103, dre-mir-128-1, dre-mir-128-2, dre-mir-132-1, dre-mir-132-2, dre-mir-133a-2, dre-mir-133a-1, dre-mir-133b, dre-mir-133c, dre-mir-143, dre-mir-148, dre-mir-181c, dre-mir-200a, dre-mir-200c, dre-mir-203b, dre-mir-204-2, dre-mir-338-2, dre-mir-454b, hsa-mir-181d, dre-mir-212, dre-mir-181a-2, hsa-mir-551a, hsa-mir-551b, dre-mir-31, dre-mir-722, dre-mir-724, dre-mir-725, dre-mir-735, dre-mir-740, hsa-mir-103b-1, hsa-mir-103b-2, dre-mir-2184, hsa-mir-203b, dre-mir-7146, dre-mir-181a-4, dre-mir-181a-3, dre-mir-181a-5, dre-mir-181b-3, dre-mir-181d, dre-mir-204-3, dre-mir-24b, dre-mir-7133, dre-mir-128-3, dre-mir-7132, dre-mir-338-3
Three of the 107 genes are previously identified targets of the downregulated miRNAs, including mmp14, a known target of miR-133 [64], mmp9 (targeted by miR-204 and miR-338) and timp2 (targeted by miR-24 and miR-204). [score:12]
Conversely, miR-204 was downregulated in zebrafish and bichir, miR-133a was downregulated in bichir, and miR-2184, miR-338 and miR-24 were downregulated in axolotl. [score:10]
S24 Table Zebrafish Ensembl gene identifiers for 107 genes upregulated in three mo dels with predicted miRNA binding sites for miR-2184, miR-204, miR-338, miR-133a and miR-24 and members of the network of commonly up- and downregulated genes with functional interactions to 11 blastema -associated genes. [score:7]
We performed similar analyses to capture potential target genes for the 5 commonly downregulated miRNAs (miR-2184, miR-204, miR-338, miR-133a and miR-24). [score:6]
Within this subset of differentially regulated zebrafish miRNAs, we identified 10 miRNAs: miR-21, miR-181c, miR-181b, miR-31, miR-7b, miR-2184, miR-24, miR-133a, miR-338 and miR-204, that showed conserved expression changes with both bichir and axolotl regenerating samples (Table 1). [score:4]
S23 Table Zebrafish Ensembl gene identifiers for 205 genes upregulated in three mo dels with predicted miRNA binding sites for miR-2184, miR-204, miR-338, miR-133a and miR-24 in all three mo dels. [score:4]
Ten genes were identified among those with the top 2% of interactions in the network, including fgf10, which is predicted to be targeted by miR-204, miR-338 and miR-2164. [score:3]
Although zebrafish miRNAs have been examined in numerous studies [25, 27, 41– 43], our analysis revealed novel paralogs of 18 miRNAs that do not currently have zebrafish records in miRBase (version 21), including miR-181a, miR-20a, miR-23b, miR-24, miR-29a, miR-103, miR-128, miR-148, miR-181b, miR-199, miR-204, miR-212, miR-221, miR-338, miR-724, miR-2184, let-7b and let-7e. [score:1]
26 +2.14 miR-132 +1.83 (1.71e-3) +0.52 miR-2184 -2.63 (2.54e-5) -2.25 -2.50 miR-222a +1.54 (1.13e-2) +3.24 miR-24 -1.36 (1.9e-2) -1.41 -0.73 miR-454b +1.14 (4.93e-2) +0.14 miR-133a -1.72 (2.67e-3) -4.25 -5.07 miR-101b -2.52 (3.44e-5) -3.43 miR-338 -2.23 (1.90e-4) -2.90 -1.57 miR-26b -1.91 (1.84e-3) -3. 67 miR-204 -2.60 (4.76e-5) -0.57 -2.36 miR-203b -1.77 (3.45e3 -0.21 miR-10b -1.36 (2.90e-2) -1.78 miR-725 -1.29 (3.23e-2) -1.62 Zebrafish + Axolotl Zebrafish SymbolZebrafish log [2] Fold-change (p-value)Axolotl log [2] Fold-change SymbolZebrafish log [2] Fold-change (p-value) miR-27a +1.57 (7.96e-3) +2.15 miR-27b +1.38 (2.44e-2) miR-29b -2.05 (1.28e-2) -0.97 miR-143 +1.31 (2.89e-2) miR-30e +1.18 (4.80e-2) miR-200c -1.85 (1.72e-3) miR-200a -1.74 (3.66e-3) miR-23a -1.35 (2.05e-2) 10. [score:1]
26 +2.14 miR-132 +1.83 (1.71e-3) +0.52 miR-2184 -2.63 (2.54e-5) -2.25 -2.50 miR-222a +1.54 (1.13e-2) +3.24 miR-24 -1.36 (1.9e-2) -1.41 -0.73 miR-454b +1.14 (4.93e-2) +0.14 miR-133a -1.72 (2.67e-3) -4.25 -5.07 miR-101b -2.52 (3.44e-5) -3.43 miR-338 -2.23 (1.90e-4) -2.90 -1.57 miR-26b -1.91 (1.84e-3) -3. 67 miR-204 -2.60 (4.76e-5) -0.57 -2.36 miR-203b -1.77 (3.45e3 -0.21 miR-10b -1.36 (2.90e-2) -1.78 miR-725 -1.29 (3.23e-2) -1.62 Zebrafish + Axolotl Zebrafish SymbolZebrafish log [2] Fold-change (p-value)Axolotl log [2] Fold-change SymbolZebrafish log [2] Fold-change (p-value) miR-27a +1.57 (7.96e-3) +2.15 miR-27b +1.38 (2.44e-2) miR-29b -2.05 (1.28e-2) -0.97 miR-143 +1.31 (2.89e-2) miR-30e +1.18 (4.80e-2) miR-200c -1.85 (1.72e-3) miR-200a -1.74 (3.66e-3) miR-23a -1.35 (2.05e-2) 10. [score:1]
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2
[+] score: 10
In total, 6 up-regulated miRNAs (such as dre-miR-142a-5p, dre-miR-155, dre-miR-29a, dre-miR-457a, dre-miR-223, and dre-miR-338) were joined to the gene regulatory network by potentially targeting relationships with 8 down-regulated genes. [score:10]
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3
[+] score: 5
Since miR-23 (JX994633), miR-218 (JX994383) and miR-338 (JX994406) are present in the elephant shark, these conserved miRNAs are likely to be involved in the regulation of Runx2 expression in elephant shark, possibly during chondrogenic differentiation through mechanisms similar to that in other jawed vertebrates. [score:4]
Of these, binding sites for miR-23, miR-218 and miR-338 were found conserved in the 3′UTR of elephant shark Runx2, while only that for miR-28 is present in zebrafish and fugu Runx2 (Fig. 8B). [score:1]
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4
[+] score: 3
Compared with their results, which were performed by microarray screening, we also identified similar miRNAs up- or down-regulated in early EPC (up: let-7 g-5p, miR-16-5p, miR-26b-5p, miR-30b-3p, miR-140-5p, miR-146a-5p, miR-146a-3p and miR-338-3p) or in late EPC (miR-27a-3p, miR-27b-5p, miR-27b-3p, miR-151a-5p and miR-193a-5p). [score:3]
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