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14 publications mentioning rno-mir-370

Open access articles that are associated with the species Rattus norvegicus and mention the gene name mir-370. Click the [+] symbols to view sentences that include the gene name, or the word cloud on the right for a summary.

1
[+] score: 23
Other miRNAs from this paper: mmu-mir-30a, mmu-mir-101a, mmu-mir-125a, mmu-mir-125b-2, mmu-mir-132, mmu-mir-134, mmu-mir-135a-1, mmu-mir-138-2, mmu-mir-142a, mmu-mir-150, mmu-mir-154, mmu-mir-182, mmu-mir-183, mmu-mir-24-1, mmu-mir-194-1, mmu-mir-200b, mmu-mir-122, mmu-mir-296, mmu-mir-21a, mmu-mir-27a, mmu-mir-92a-2, mmu-mir-96, rno-mir-322-1, mmu-mir-322, rno-mir-330, mmu-mir-330, rno-mir-339, mmu-mir-339, rno-mir-342, mmu-mir-342, rno-mir-135b, mmu-mir-135b, mmu-mir-19a, mmu-mir-100, mmu-mir-139, mmu-mir-212, mmu-mir-181a-1, mmu-mir-214, mmu-mir-224, mmu-mir-135a-2, mmu-mir-92a-1, mmu-mir-138-1, mmu-mir-181b-1, mmu-mir-125b-1, mmu-mir-194-2, mmu-mir-377, mmu-mir-383, mmu-mir-181b-2, rno-mir-19a, rno-mir-21, rno-mir-24-1, rno-mir-27a, rno-mir-30a, rno-mir-92a-1, rno-mir-92a-2, rno-mir-96, rno-mir-100, rno-mir-101a, rno-mir-122, rno-mir-125a, rno-mir-125b-1, rno-mir-125b-2, rno-mir-132, rno-mir-134, rno-mir-135a, rno-mir-138-2, rno-mir-138-1, rno-mir-139, rno-mir-142, rno-mir-150, rno-mir-154, rno-mir-181b-1, rno-mir-181b-2, rno-mir-183, rno-mir-194-1, rno-mir-194-2, rno-mir-200b, rno-mir-212, rno-mir-181a-1, rno-mir-214, rno-mir-296, mmu-mir-376b, mmu-mir-370, mmu-mir-433, rno-mir-433, mmu-mir-466a, rno-mir-383, rno-mir-224, mmu-mir-483, rno-mir-483, rno-mir-377, mmu-mir-542, rno-mir-542-1, mmu-mir-494, mmu-mir-20b, mmu-mir-503, rno-mir-494, rno-mir-376b, rno-mir-20b, rno-mir-503-1, mmu-mir-1224, mmu-mir-551b, mmu-mir-672, mmu-mir-455, mmu-mir-490, mmu-mir-466b-1, mmu-mir-466b-2, mmu-mir-466b-3, mmu-mir-466c-1, mmu-mir-466e, mmu-mir-466f-1, mmu-mir-466f-2, mmu-mir-466f-3, mmu-mir-466g, mmu-mir-466h, mmu-mir-504, mmu-mir-466d, mmu-mir-872, mmu-mir-877, rno-mir-466b-1, rno-mir-466b-2, rno-mir-466c, rno-mir-872, rno-mir-877, rno-mir-182, rno-mir-455, rno-mir-672, mmu-mir-466l, mmu-mir-466i, mmu-mir-466f-4, mmu-mir-466k, mmu-mir-466j, rno-mir-551b, rno-mir-490, rno-mir-1224, rno-mir-504, mmu-mir-466m, mmu-mir-466o, mmu-mir-466c-2, mmu-mir-466b-4, mmu-mir-466b-5, mmu-mir-466b-6, mmu-mir-466b-7, mmu-mir-466p, mmu-mir-466n, mmu-mir-466b-8, rno-mir-466d, mmu-mir-466q, mmu-mir-21b, mmu-mir-21c, mmu-mir-142b, mmu-mir-466c-3, rno-mir-322-2, rno-mir-503-2, rno-mir-466b-3, rno-mir-466b-4, rno-mir-542-2, rno-mir-542-3
qRT-PCR measurements confirmed that the expression of miR-212, miRNA-183, miRNA-182, miRNA-132, miRNA-370, miRNA-377 and miRNA-96 was up-regulated and that of miRNA-122, miRNA-200b, miRNA-466b, miRNA-138, miRNA-214, miRNA-503 and miRNA-27a down-regulated in adrenals from 17α-E2 treated rats (Fig. 3 ). [score:7]
Real-time quantitative PCR measurements confirmed that the expression of miR-212, miRNA-183, miRNA-182, miRNA-132, miRNA-370, miRNA-377 and miRNA-96 was up-regulated and that of miRNA-122, miRNA-200b, miRNA-466b, miRNA-138, miRNA-214, miRNA-503 and miRNA-27a down-regulated in adrenals from 17α-E2 treated rats. [score:7]
The levels of miR-212, miRNA-183, miRNA-182, miRNA-132, miRNA-370, miRNA-377, and miRNA-96 were up-regulated, whereas miR-125b, miRNA-200b, miR-122, miRNA-466b, miR-138, miRNA-214, miRNA-503 and miRNA27a were down-regulated in response to 17α-E2 treatment. [score:7]
0078040.g003 Figure 3Quantitative RT-PCR (qRT-PCR) validation of miRNA-212, miRNA-200b, miRNA-183, miRNA-122, miRNA-19a, miRNA-466b, miRNA-182, miRNA-132, miRNA-138, miRNA-370, miRNA-96, miRNA-503, miRNA-27a and miRNA-214 levels in control, ACTH-, 17α-E2 or DEX -treated adrenals in vivo. [score:1]
Quantitative RT-PCR (qRT-PCR) validation of miRNA-212, miRNA-200b, miRNA-183, miRNA-122, miRNA-19a, miRNA-466b, miRNA-182, miRNA-132, miRNA-138, miRNA-370, miRNA-96, miRNA-503, miRNA-27a and miRNA-214 levels in control, ACTH-, 17α-E2 or DEX -treated adrenals in vivo. [score:1]
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2
[+] score: 22
Comparable to miR-298, hypoxia and DOR activation also downregulated miR-370 and miR-363* expression after 1-day treatment. [score:6]
Although the individual treatments had no significant effect on miR-370 after 5 days, the combination downregulated its expression by 70% compared to either hypoxia or UFP-512 alone (Figure 6b). [score:5]
Castilla et al (2011) recently demonstrated that miR-370 is upregulated in the mesenchymal component of endometrial cancers undergoing epithelial-mesenchymal transition (EMT). [score:4]
DOR -mediated inhibition of miR-370 could be applied to reduce migratory capability in hypoxic tumors undergoing EMT. [score:3]
As for instance, miR-370 had no response to DOR activation under normoxia but its expression decreased under hypoxic exposure after 5-day treatment. [score:3]
Increased miR-370 is associated with the acquisition of a migratory phenotype and may play a role in maintaining stemness [39]. [score:1]
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3
[+] score: 11
In addition, salidroside has been reported to regulate lipid metabolism in type 2 diabetic mice by down-regulation of miR-370 of primary hepatocytes [38], improve the cellular metabolic flux by the activation of a mitochondria-related AMPK/PI3K/Akt/GSK3β pathway in hepatocytes [39], regulate glucose homeostasis in obese mice by repressing inflammation in white adipose tissues and improving leptin sensitivity in hypothalamus [15], stimulate glucose uptake in skeletal muscle cells by activating AMPK, and alleviate diabetic albuminuria by downregulation of caveolin-1 phosphorylation and inhibition of albumin transcytosis across glomerular endothelial cells [19]. [score:11]
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4
[+] score: 6
Relative miRNA expression levels of miR-363*, miR-let-7f, and miR-370 in the kidney following 10 days of hypoxia as determined by quantitative RT-PCR. [score:3]
Conversely, UFP-512 tended to increase miR-370 in normoxic condition but tended to decrease it under hypoxia (Figure 3c), suggesting a differential regulation of miR-370 in response to DOR signals in different environments. [score:2]
As with let-7f, miR-370 did not alter in response to hypoxia alone. [score:1]
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5
[+] score: 4
In the context of development, higher detected levels of miRNA in colostrum whey are interesting because miR-143, miR-148b-3p, and miR-141 are known to regulate intestinal function [41], [42] and miR-107 and miR-370 are known to modulate carbohydrate and lipid metabolism [27], [33]. [score:3]
On the other hand, other miRNAs such as, let-7i, miR-143, miR-148b-3p, miR-15b, miR-17-5p, miR-24, miR-27b, miR-92a, miR-106b, miR-125b-5p, miR-181a, miR-181c, miR-181d, miR-200c, miR-375, miR-107, miR-141, and miR-370, were present at higher levels in colostrum whey than in mature milk whey (Fig. 6). [score:1]
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6
[+] score: 4
On one hand, the expression trend of miR-138-5p, miR-370-3p, and miR-484 was not ideal. [score:3]
MiR-344a-5p, miR-138-5p, miR-370-3p, and miR-484 were selected for the study according to their relative high affinity between lnc-PCF and miRNAs (Supplementary Figure 2). [score:1]
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7
[+] score: 3
Other miRNAs from this paper: rno-mir-21
For example, our previous study has found that LIN28A, the target gene of miR-370, blocked the biogenesis of miR-370 by binding to its precursor [46]. [score:3]
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8
[+] score: 3
Other miRNAs from this paper: rno-mir-103-2, rno-mir-103-1, rno-mir-107, rno-mir-122, rno-mir-539
Iliopoulos D. Drosatos K. Hiyama Y. Goldberg I. J. Zannis V. I. MicroRNA-370 controls the expression of microRNA-122 and cpt1alpha and affects lipid metabolismJ. [score:3]
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9
[+] score: 3
The luciferase values were further normalized to the average luciferase value obtained after transfecting a panel of microRNAs not predicted to target the rat Arc 3′UTR (rno-miR-370, rno-miR-150, rno-miR-342, rno-miR-30b, rno-miR-105, rno-miR-145 and rno-miR-9). [score:3]
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10
[+] score: 2
Name Primers U6F: 5′-GCTTCGGCAGCACATATACTAAAAT-3′ R: 5′-CGCTTCACGAATTTGCGTGTCAT-3′ rno-miR-500-3pGSP: 5′-GGAAGGCACCTGGGCAAG-3′ R: 5′-GTGCGTGTCGTGGAGTCG-3′ rno-miR-499-3pGSP: 5′-GGGGAACATCACAGCAAGTC-3′ R: 5′-GTGCGTGTCGTGGAGTCG-3′ rno-miR-214-3pGSP: 5′-GGGGACAGCAGGCACAGAC-3′ R: 5′-GTGCGTGTCGTGGAGTCG-3′ rno-miR-20b-5pGSP: 5′-GGGGCAAAGTGCTCATAGTG-3′ R: 5′-GTGCGTGTCGTGGAGTCG-3′ rno-miR-877GSP: 5′-GGGGAAGTAGAGGAGATGGC-3′ R: 5′-GTGCGTGTCGTGGAGTCG-3′ rno-miR-451-5pGSP: 5′-GGGGGAAACCGTTACCATTAC-3′ R: 5′-GTGCGTGTCGTGGAGTCG-3′ rno-miR-3577GSP: 5′-GGGTTCTGTCCCTCTTGGC-3′ R: 5′-GTGCGTGTCGTGGAGTCG-3′ rno-miR-370-3pGSP: 5′-AGCCTGCTGGGGTGGAA-3′ R: 5′-GTGCGTGTCGTGGAGTCG-3′ rno-miR-181d-5pGSP: 5′-GGGGCATTCATTGTTGTCG-3′ R: 5′-GTGCGTGTCGTGGAGTCG-3′ rno-miR-23b-3pGSP: 5′-GGGATCACATTGCCAGGG-3′ R: 5′-GTGCGTGTCGTGGAGTCG-3′ rno-miR-191a-5pGSP: 5′-GGCAACGGAATCCCAAAAG-3′ R: 5′-GTGCGTGTCGTGGAGTCG-3′ rno-miR-200c-3pGSP: 5′-GGGGTAATACTGCCGGGTAA-3′ R: 5′-GTGCGTGTCGTGGAGTCG-3′ rno-miR-328a-3pGSP: 5′-AACTCGCCCTCTCTGCCC-3′ R: 5′-GTGCGTGTCGTGGAGTCG-3′ nutrients-07-01333-t002_Table 2 Table 2 Primers of mRNA targets. [score:1]
Name Primers U6F: 5′-GCTTCGGCAGCACATATACTAAAAT-3′ R: 5′-CGCTTCACGAATTTGCGTGTCAT-3′ rno-miR-500-3pGSP: 5′-GGAAGGCACCTGGGCAAG-3′ R: 5′-GTGCGTGTCGTGGAGTCG-3′ rno-miR-499-3pGSP: 5′-GGGGAACATCACAGCAAGTC-3′ R: 5′-GTGCGTGTCGTGGAGTCG-3′ rno-miR-214-3pGSP: 5′-GGGGACAGCAGGCACAGAC-3′ R: 5′-GTGCGTGTCGTGGAGTCG-3′ rno-miR-20b-5pGSP: 5′-GGGGCAAAGTGCTCATAGTG-3′ R: 5′-GTGCGTGTCGTGGAGTCG-3′ rno-miR-877GSP: 5′-GGGGAAGTAGAGGAGATGGC-3′ R: 5′-GTGCGTGTCGTGGAGTCG-3′ rno-miR-451-5pGSP: 5′-GGGGGAAACCGTTACCATTAC-3′ R: 5′-GTGCGTGTCGTGGAGTCG-3′ rno-miR-3577GSP: 5′-GGGTTCTGTCCCTCTTGGC-3′ R: 5′-GTGCGTGTCGTGGAGTCG-3′ rno-miR-370-3pGSP: 5′-AGCCTGCTGGGGTGGAA-3′ R: 5′-GTGCGTGTCGTGGAGTCG-3′ rno-miR-181d-5pGSP: 5′-GGGGCATTCATTGTTGTCG-3′ R: 5′-GTGCGTGTCGTGGAGTCG-3′ rno-miR-23b-3pGSP: 5′-GGGATCACATTGCCAGGG-3′ R: 5′-GTGCGTGTCGTGGAGTCG-3′ rno-miR-191a-5pGSP: 5′-GGCAACGGAATCCCAAAAG-3′ R: 5′-GTGCGTGTCGTGGAGTCG-3′ rno-miR-200c-3pGSP: 5′-GGGGTAATACTGCCGGGTAA-3′ R: 5′-GTGCGTGTCGTGGAGTCG-3′ rno-miR-328a-3pGSP: 5′-AACTCGCCCTCTCTGCCC-3′ R: 5′-GTGCGTGTCGTGGAGTCG-3′ nutrients-07-01333-t002_Table 2 Table 2 Primers of mRNA targets. [score:1]
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11
[+] score: 1
Recent research showed that hypothalamus let-7, miR-148a, miR-124, miR-107 and miR-370 were confirmed to be related to EA tolerance (Cui et al., 2017). [score:1]
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12
[+] score: 1
Bali et al. [11] explored the roles of several miRNAs such as miR-370-3p, -1a-3p and -544-3p in a mouse mo del of metastatic bone-cancer pain and found these miRNAs might be important modulators reflecting cancer -associated hypersensitivity. [score:1]
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13
[+] score: 1
Several studies have suggested the important roles of miRNAs in I/R injury, such as miR-122, miR-124, miR-146a, miR-223, miR-370 [11– 15]. [score:1]
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14
[+] score: 1
Other miRNAs from this paper: mmu-mir-1a-1, mmu-mir-127, mmu-mir-134, mmu-mir-136, mmu-mir-154, mmu-mir-181a-2, mmu-mir-143, mmu-mir-196a-1, mmu-mir-196a-2, mmu-mir-21a, rno-mir-329, mmu-mir-329, mmu-mir-1a-2, mmu-mir-181a-1, mmu-mir-181b-1, mmu-mir-181c, mmu-mir-375, mmu-mir-379, mmu-mir-181b-2, rno-mir-21, rno-mir-127, rno-mir-134, rno-mir-136, rno-mir-143, rno-mir-154, rno-mir-181c, rno-mir-181a-2, rno-mir-181b-1, rno-mir-181b-2, rno-mir-196a, rno-mir-181a-1, mmu-mir-196b, rno-mir-196b-1, mmu-mir-412, mmu-mir-370, oar-mir-431, oar-mir-127, oar-mir-432, oar-mir-136, mmu-mir-431, mmu-mir-433, rno-mir-431, rno-mir-433, ssc-mir-181b-2, ssc-mir-181c, ssc-mir-136, ssc-mir-196a-2, ssc-mir-21, rno-mir-412, rno-mir-1, mmu-mir-485, mmu-mir-541, rno-mir-541, rno-mir-493, rno-mir-379, rno-mir-485, mmu-mir-668, bta-mir-21, bta-mir-181a-2, bta-mir-127, bta-mir-181b-2, bta-mir-181c, mmu-mir-181d, mmu-mir-493, rno-mir-181d, rno-mir-196c, rno-mir-375, mmu-mir-1b, bta-mir-1-2, bta-mir-1-1, bta-mir-134, bta-mir-136, bta-mir-143, bta-mir-154a, bta-mir-181d, bta-mir-196a-2, bta-mir-196a-1, bta-mir-196b, bta-mir-329a, bta-mir-329b, bta-mir-370, bta-mir-375, bta-mir-379, bta-mir-412, bta-mir-431, bta-mir-432, bta-mir-433, bta-mir-485, bta-mir-493, bta-mir-541, bta-mir-181a-1, bta-mir-181b-1, ssc-mir-1, ssc-mir-181a-1, mmu-mir-432, rno-mir-668, ssc-mir-143, ssc-mir-181a-2, ssc-mir-181b-1, ssc-mir-181d, ssc-mir-196b-1, ssc-mir-127, ssc-mir-432, oar-mir-21, oar-mir-181a-1, oar-mir-493, oar-mir-433, oar-mir-370, oar-mir-379, oar-mir-329b, oar-mir-329a, oar-mir-134, oar-mir-668, oar-mir-485, oar-mir-154a, oar-mir-154b, oar-mir-541, oar-mir-412, mmu-mir-21b, mmu-mir-21c, ssc-mir-196a-1, ssc-mir-196b-2, ssc-mir-370, ssc-mir-493, bta-mir-154c, bta-mir-154b, oar-mir-143, oar-mir-181a-2, chi-mir-1, chi-mir-127, chi-mir-134, chi-mir-136, chi-mir-143, chi-mir-154a, chi-mir-154b, chi-mir-181b, chi-mir-181c, chi-mir-181d, chi-mir-196a, chi-mir-196b, chi-mir-21, chi-mir-329a, chi-mir-329b, chi-mir-379, chi-mir-412, chi-mir-432, chi-mir-433, chi-mir-485, chi-mir-493, rno-mir-196b-2, bta-mir-668, ssc-mir-375
Other families that had a high abundance of reads were miR-134, miR-136, miR-154, miR-370, miR-412, miR-431, miR-432, miR-433, miR-485, miR-493, miR-541; a total of 11 miRNA families. [score:1]
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