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11 publications mentioning ssc-mir-210

Open access articles that are associated with the species Sus scrofa and mention the gene name mir-210. Click the [+] symbols to view sentences that include the gene name, or the word cloud on the right for a summary.

1
[+] score: 32
Of these, 10 miRNAs (ssc-miR-210, ssc-miR-1343, 12_3058, ssc-miR-676-5p, GL894044.2_23796, 1_4279, 13_5125, ssc-miR-194b-5p, ssc-miR-142-5p, and ssc-miR-421-5p) were up-regulated and 10 (ssc-miR-101, 1_1126, 4_13655, GL892805.1_27591, ssc-miR-320, ssc-miR-7136-5p, ssc-miR-214, ssc-miR-10b, 7_17790, and ssc-miR-206) were downregulated in the TP relative to the YP. [score:7]
Four DE miRNAs (ssc-miR-210, ssc-miR-1343, ssc-miR-142-5p, and ssc-miR-421-5p) that are involved in the renal cell carcinoma pathway were upregulated in TPs, and the corresponding target genes were EPAS1, EGLN3, EGLN1, and VEGFC. [score:6]
miR-210 is located on an intron of a noncoding RNA, transcribed from AK123483 on the human chromosome 11p15.5, and its expression correlates with VEGF regulation and angiogenesis in breast cancer patients [44]. [score:4]
Using bioinformatics analyses, miR-210-regulated factors have been found to be implicated in DNA repair pathways [11], and has been found to play roles in modulating the expression of proteins involved in the homology -dependent repair and nucleotide-excision repair pathways, and reverses cellular DNA damage during hypoxia. [score:4]
The most notably up-regulated miRNA in the TP (FC = 230), ssc-miR-210, is induced by HIF1α under hypoxic conditions in mice [11, 12]. [score:4]
Moreover, several hypoxia-regulated miRNAs play roles in cell survival in hypoxic environments and have been implicated in the regulation of both upstream and downstream HIF signaling pathways, e. g., miR-20b and miR-17-92 clusters, while miR-199a regulates HIF-1α under hypoxic conditions [8– 10], and miR-107, miR-210, miR-373, miR-23, miR-24, and miR-26 are induced by HIFs [7, 11, 12]. [score:4]
Our results demonstrate that miR-210 is expressed more in the TP than in the YP, which suggests that miR-210 could modulate key factors that are related to cellular or organic hypoxia adaptation pathways in the TP. [score:3]
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2
[+] score: 30
It is noteworthy that miR-25 targeting BMPR2 and IRS1, miR-363 targeting USP24, miR-28 targeting HECW2 and miR-210 targeting ATP5I, ME3, MTCH1 and CPT2 were highly associated with slow-twitch oxidative fibers, fast-twitch oxidative fibers, ADP and ATP concentration suggesting an essential role of the miRNA-mRNA regulatory networking in modulating the mitochondrial energy expenditure in the porcine muscle. [score:10]
MiR-210 and miR-338 regulate the expression of oxidative phosphorylation (OXPHOS) machinery including complex IV subunits COX10, COXIV and ATP synthase subunits ATP5G1 correspondingly [13, 14]. [score:4]
MiR-210 and miR-338 could regulate the gene expression of oxidative phosphorylation (OXPHOS) machinery including complex IV subunits COX10, COXIV and ATP synthase subunits ATP5G1 [13, 14]. [score:4]
On the other side, miR-210 and miR-885 targeted genes of ATP synthase mitochondrial F0 complex subunit E (ATP5I), Pyruvate dehydrogenase alpha 1 (PDHA1) and Ubiquinol-cytochrome c reductase complex chaperone (UQCC) [95] could affect cellular ATP generation, followed by influencing the ATP -dependent UPS system [96]. [score:3]
Altogether suggests that miR-210 and its target genes ATP5I, ME3, MTCH1 and CPT2 are likely to be involved in ATP production, apoptosis and beta-oxidation of long fatty acids in mitochondria. [score:3]
MiR-210 modulates mitochondrial function, decreases COX10 expression and activates the generation of reactive oxygen species (ROS) [14]. [score:2]
MiR-210 and its predicted targets ATP5I, ME3, MTCH1 and CPT2 were highly correlated to ADP and ATP concentration in present study. [score:2]
MiR-210, miR-15 and miR-338 were highly correlated to the concentration of ADP and ATP in muscle cells. [score:1]
569 AMP miR-10, miR-126, let-7, miR-27, miR-450 9.860E-05–5.804E-04 0.789–0.730 ADP miR-15, miR-885, miR-322, miR-450, miR-338 1.316E-04–4.540E-03 0.781–0.636 ATP miR-15, miR-450, miR-210, miR-885, miR-451 4.811E-04–9.562E-03 0.737–0.593 Correlations between gene expression derived from post quality-filtered 17,820 mRNA probes and each phenotypic- trait were calculated for both Duroc and PiNN pigs. [score:1]
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3
[+] score: 24
As examples, the liver-specific miR-122 promotes the replication of hepatitis C virus (HCV) [17], [18], while miR-196, miR-199, miR-296, miR-351, miR-431 and miR-448 inhibit HCV genome propagation [19], [20]; miR-32 effectively restricts the accumulation of primate foamy virus type 1 (PFV-1) in human cells [21]; miR-323, miR-491 and miR-654 inhibit the replication of the H1N1 influenza A virus by binding to the viral PB1 gene [22]; miR-28, miR-125b, miR-150, miR-223 and miR-382 target the 3′ end of human immunodeficiency virus (HIV) mRNA, thereby restricting HIV production [23]; miR-199a-3p and miR-210 limit the hepatitis B virus (HBV) surface antigen and polymerase production by degrading and/or inhibiting translation of viral mRNAs encoding these proteins [24]; overexpression of miR-24 and miR-93 suppresses vesicular stomatitis virus (VSV) replication through targeting the viral genes encoding RNA -dependent RNA polymerase (L protein) and phosphoprotein (P protein), respectively [25]; in macrophages, upregulation of miR-155 suppresses VSV replication, while inhibition of miR-155 had the opposite effect. [score:24]
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4
[+] score: 12
No validated miRNA targeting Mx1 has been reported; thus, our miRNA target prediction result indicated that Mx1 can be negatively regulated by miR-342-3p and miR-210, which were both down expressed in H1N1 critically ill patients. [score:8]
We found that EGFR was regulated by miR-342, miR-155, miR-30b, miR-210, miR-192, let-7g, and miR-146b-5p, which were all down expressed in H1N1 critically ill patients. [score:4]
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5
[+] score: 11
A study on the expression profile of novel miRNAs in 11 pig tissues, including brain, liver, heart, muscle, colon, kidney, lung, spleen, stomach, cervix and fibroblasts, indicated that ssc-miR-15b, ssc-miR-23a, ssc-miR-23b, ssc-miR-24, ssc-miR-29a, ssc-miR-30b, ssc-miR-145, and ssc-miR-152 are expressed in all tissues; ssc-miR-210 is mainly expressed in the liver, spleen, and stomach; ssc-miR-34a and ssc-miR-130a are mainly expressed in the lungs; and ssc-miR-140 is highly expressed in the cervix. [score:11]
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6
[+] score: 5
The results of this analysis were presented in Figure 3. When using the DEG list of FDR <5%, only miR-210 had a significant reciprocal expression with its targets. [score:5]
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7
[+] score: 4
Other miRNAs from this paper: hsa-let-7a-1, hsa-let-7a-2, hsa-let-7a-3, hsa-let-7b, hsa-let-7c, hsa-let-7d, hsa-let-7e, hsa-let-7f-1, hsa-let-7f-2, hsa-mir-15a, hsa-mir-17, hsa-mir-21, hsa-mir-24-1, hsa-mir-24-2, hsa-mir-27a, hsa-mir-30a, hsa-mir-103a-2, hsa-mir-103a-1, hsa-mir-107, mmu-let-7g, mmu-let-7i, mmu-mir-27b, mmu-mir-30a, mmu-mir-30b, mmu-mir-125b-2, mmu-mir-9-2, mmu-mir-150, mmu-mir-24-1, mmu-mir-204, hsa-mir-30c-2, hsa-mir-30d, mmu-mir-30e, hsa-mir-204, hsa-mir-210, hsa-mir-221, hsa-mir-222, mmu-let-7d, hsa-let-7g, hsa-let-7i, hsa-mir-27b, hsa-mir-30b, hsa-mir-125b-1, hsa-mir-9-1, hsa-mir-9-2, hsa-mir-9-3, hsa-mir-125b-2, hsa-mir-150, mmu-mir-30c-1, mmu-mir-30c-2, mmu-mir-30d, mmu-let-7a-1, mmu-let-7a-2, mmu-let-7b, mmu-let-7c-1, mmu-let-7c-2, mmu-let-7e, mmu-let-7f-1, mmu-let-7f-2, mmu-mir-15a, mmu-mir-21a, mmu-mir-24-2, mmu-mir-27a, mmu-mir-103-1, mmu-mir-103-2, mmu-mir-326, mmu-mir-107, mmu-mir-17, mmu-mir-210, mmu-mir-221, mmu-mir-222, mmu-mir-9-1, mmu-mir-9-3, mmu-mir-125b-1, hsa-mir-30c-1, hsa-mir-30e, hsa-mir-378a, mmu-mir-378a, hsa-mir-326, ssc-mir-125b-2, ssc-mir-24-1, ssc-mir-326, ssc-mir-27a, ssc-let-7c, ssc-let-7f-1, ssc-let-7i, ssc-mir-103-1, ssc-mir-107, ssc-mir-204, ssc-mir-21, ssc-mir-30c-2, ssc-mir-9-1, ssc-mir-9-2, hsa-mir-378d-2, hsa-mir-103b-1, hsa-mir-103b-2, ssc-mir-15a, ssc-mir-17, ssc-mir-30b, ssc-mir-221, ssc-mir-30a, ssc-let-7a-1, ssc-let-7e, ssc-let-7g, ssc-mir-378-1, ssc-mir-30d, ssc-mir-30e, ssc-mir-103-2, ssc-mir-27b, ssc-mir-24-2, ssc-mir-222, ssc-mir-125b-1, hsa-mir-378b, hsa-mir-378c, ssc-mir-30c-1, ssc-mir-378-2, hsa-mir-378d-1, hsa-mir-378e, hsa-mir-378f, hsa-mir-378g, hsa-mir-378h, hsa-mir-378i, mmu-mir-378b, ssc-let-7a-2, hsa-mir-378j, mmu-mir-21b, mmu-let-7j, mmu-mir-378c, mmu-mir-21c, mmu-mir-378d, mmu-mir-30f, ssc-let-7d, ssc-let-7f-2, ssc-mir-9-3, ssc-mir-150-1, ssc-mir-150-2, mmu-let-7k, ssc-mir-378b, mmu-mir-9b-2, mmu-mir-9b-1, mmu-mir-9b-3
We found 13 adipogenesis-promoting miRNAs (let-7、miR-9、miR-15a、miR-17、miR-21、miR-24、miR-30、miR-103、miR-107、miR-125b、miR-204、miR-210、and miR-378) target 860 lncRNA loci. [score:3]
We analyzed the relationship between the 343 identified lncRNAs with the 13 promoting adipogenesis miRNAs (let-7、miR-9、miR-15a、miR-17、miR-21、miR-24、miR-30、miR-103、miR-107、miR-125b、miR-204、miR-210、and miR-378) and five depressing adipogenesis miRNAs (miR-27, miR-150, miR-221, miR-222, and miR-326). [score:1]
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8
[+] score: 4
Other miRNAs from this paper: hsa-let-7a-1, hsa-let-7a-2, hsa-let-7a-3, hsa-let-7b, hsa-let-7c, hsa-let-7d, hsa-let-7e, hsa-let-7f-1, hsa-let-7f-2, hsa-mir-17, hsa-mir-18a, hsa-mir-19b-1, hsa-mir-19b-2, hsa-mir-21, hsa-mir-23a, hsa-mir-31, hsa-mir-92a-1, hsa-mir-92a-2, hsa-mir-96, hsa-mir-98, hsa-mir-99a, hsa-mir-106a, mmu-let-7g, mmu-let-7i, mmu-mir-23b, mmu-mir-99a, mmu-mir-127, mmu-mir-128-1, mmu-mir-136, mmu-mir-142a, mmu-mir-145a, mmu-mir-10b, mmu-mir-182, mmu-mir-183, mmu-mir-187, mmu-mir-193a, mmu-mir-195a, mmu-mir-200b, mmu-mir-206, mmu-mir-143, hsa-mir-139, hsa-mir-10b, hsa-mir-182, hsa-mir-183, hsa-mir-187, hsa-mir-210, hsa-mir-216a, hsa-mir-217, hsa-mir-219a-1, hsa-mir-221, hsa-mir-222, hsa-mir-224, hsa-mir-200b, mmu-mir-302a, mmu-let-7d, mmu-mir-106a, hsa-let-7g, hsa-let-7i, hsa-mir-23b, hsa-mir-128-1, hsa-mir-142, hsa-mir-143, hsa-mir-145, hsa-mir-127, hsa-mir-136, hsa-mir-193a, hsa-mir-195, hsa-mir-206, mmu-mir-19b-2, mmu-mir-200a, mmu-let-7a-1, mmu-let-7a-2, mmu-let-7b, mmu-let-7c-1, mmu-let-7c-2, mmu-let-7e, mmu-let-7f-1, mmu-let-7f-2, mmu-mir-18a, mmu-mir-21a, mmu-mir-23a, mmu-mir-31, mmu-mir-92a-2, mmu-mir-96, mmu-mir-98, hsa-mir-200c, mmu-mir-17, mmu-mir-139, mmu-mir-200c, mmu-mir-210, mmu-mir-216a, mmu-mir-219a-1, mmu-mir-221, mmu-mir-222, mmu-mir-224, mmu-mir-19b-1, mmu-mir-92a-1, mmu-mir-128-2, hsa-mir-128-2, mmu-mir-217, hsa-mir-200a, hsa-mir-302a, hsa-mir-219a-2, mmu-mir-219a-2, hsa-mir-363, mmu-mir-363, hsa-mir-302b, hsa-mir-302c, hsa-mir-302d, hsa-mir-371a, hsa-mir-18b, hsa-mir-20b, hsa-mir-452, mmu-mir-452, ssc-mir-106a, ssc-mir-145, ssc-mir-216-1, ssc-mir-217-1, ssc-mir-224, ssc-mir-23a, ssc-mir-183, ssc-let-7c, ssc-let-7f-1, ssc-let-7i, ssc-mir-128-1, ssc-mir-136, ssc-mir-139, ssc-mir-18a, ssc-mir-21, hsa-mir-146b, hsa-mir-493, hsa-mir-495, hsa-mir-497, hsa-mir-505, mmu-mir-20b, hsa-mir-92b, mmu-mir-302b, mmu-mir-302c, mmu-mir-302d, hsa-mir-671, mmu-mir-216b, mmu-mir-671, mmu-mir-497a, mmu-mir-495, mmu-mir-146b, mmu-mir-708, mmu-mir-505, mmu-mir-18b, mmu-mir-493, mmu-mir-92b, hsa-mir-708, hsa-mir-216b, hsa-mir-935, hsa-mir-302e, hsa-mir-302f, ssc-mir-17, ssc-mir-221, mmu-mir-1839, ssc-mir-146b, ssc-mir-206, ssc-let-7a-1, ssc-let-7e, ssc-let-7g, ssc-mir-128-2, ssc-mir-143, ssc-mir-10b, ssc-mir-23b, ssc-mir-193a, ssc-mir-99a, ssc-mir-98, ssc-mir-92a-2, ssc-mir-92a-1, ssc-mir-92b, ssc-mir-142, ssc-mir-497, ssc-mir-195, ssc-mir-127, ssc-mir-222, ssc-mir-708, ssc-mir-935, ssc-mir-19b-2, ssc-mir-19b-1, ssc-mir-1839, ssc-mir-505, ssc-mir-363-1, hsa-mir-219b, hsa-mir-371b, ssc-let-7a-2, ssc-mir-18b, ssc-mir-187, ssc-mir-218b, ssc-mir-219a, mmu-mir-195b, mmu-mir-145b, mmu-mir-21b, mmu-let-7j, mmu-mir-21c, ssc-let-7d, ssc-let-7f-2, ssc-mir-20b-1, ssc-mir-20b-2, ssc-mir-31, ssc-mir-182, ssc-mir-216-2, ssc-mir-217-2, ssc-mir-363-2, ssc-mir-452, ssc-mir-493, ssc-mir-671, mmu-let-7k, ssc-mir-7138, mmu-mir-219b, mmu-mir-216c, mmu-mir-142b, mmu-mir-497b, mmu-mir-935, ssc-mir-9843, ssc-mir-371, ssc-mir-219b, ssc-mir-96, ssc-mir-200b
Ssc-miR-182, ssc-miR-187, ssc-miR-136, ssc-miR-210, ssc-miR-217 and ssc-miR-10b participate in regulation Neurotrophin signaling pathway by targeting corresponding genes, including BNDF, SHC4, KRAS and FOXO3. [score:4]
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9
[+] score: 3
2009; 183(3): 2150– 8. 44 Zhang GL, Li YX, Zheng SQ, Liu M, Li X, Tang H. Suppression of hepatitis B virus replication by microRNA-199a-3p and microRNA-210. [score:3]
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10
[+] score: 3
These miRNAs were either not included in the available commercial microarray chips (underlined in the Table 3), or had a low expression as determined by their low sequencing frequency (lower than 125) except miR-139 (378) and miR-210 (346). [score:3]
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11
[+] score: 2
Other miRNAs from this paper: ssc-mir-122, ssc-mir-135-1, ssc-mir-135-2, ssc-mir-148a, ssc-mir-19a, ssc-mir-20a, ssc-mir-224, ssc-mir-24-1, ssc-mir-323, ssc-mir-140, ssc-mir-183, ssc-mir-214, ssc-mir-27a, ssc-mir-325, ssc-let-7c, ssc-let-7f-1, ssc-let-7i, ssc-mir-103-1, ssc-mir-107, ssc-mir-136, ssc-mir-153, ssc-mir-18a, ssc-mir-186, ssc-mir-196a-2, ssc-mir-204, ssc-mir-21, bta-mir-18b, bta-let-7f-2, bta-mir-101-2, bta-mir-103-1, bta-mir-148a, bta-mir-18a, bta-mir-20a, bta-mir-21, bta-mir-221, bta-mir-27a, bta-mir-27b, bta-mir-107, bta-mir-140, bta-mir-20b, bta-mir-215, bta-let-7d, bta-mir-17, bta-mir-186, bta-mir-199b, bta-mir-210, bta-mir-214, bta-mir-450a-2, bta-let-7g, bta-mir-24-2, bta-let-7a-1, bta-let-7f-1, bta-mir-122, bta-let-7i, bta-let-7a-2, bta-let-7a-3, bta-let-7b, bta-let-7c, bta-let-7e, bta-mir-103-2, bta-mir-15a, bta-mir-19a, bta-mir-204, ssc-mir-15a, ssc-mir-17, ssc-mir-199b, ssc-mir-221, bta-mir-101-1, bta-mir-133a-2, bta-mir-133a-1, bta-mir-135a-2, bta-mir-135a-1, bta-mir-135b, bta-mir-136, bta-mir-146b, bta-mir-153-1, bta-mir-153-2, bta-mir-183, bta-mir-24-1, bta-mir-196a-2, bta-mir-196a-1, bta-mir-196b, bta-mir-224, bta-mir-323, ssc-mir-101-1, ssc-mir-101-2, ssc-mir-133a-1, ssc-mir-450a, ssc-mir-146b, ssc-mir-215, bta-mir-1343, bta-mir-2320, bta-mir-2326, bta-mir-2366, bta-mir-2411, bta-mir-2483, bta-mir-450a-1, ssc-let-7a-1, ssc-let-7e, ssc-let-7g, ssc-mir-103-2, ssc-mir-27b, ssc-mir-24-2, ssc-mir-196b-1, ssc-mir-450b, ssc-mir-450c, ssc-mir-133a-2, ssc-let-7a-2, ssc-mir-18b, ssc-mir-1343, ssc-mir-2320, bta-mir-450b, ssc-let-7d, ssc-let-7f-2, ssc-mir-20b-1, ssc-mir-20b-2, ssc-mir-196a-1, ssc-mir-196b-2, ssc-mir-2366-1, ssc-mir-2366-2, ssc-mir-2411, ssc-mir-2483
For example, ssc-miR-153, miR-325, miR-135-1*, miR-135-2*, miR-146b*, miR-15a*, miR-215* and miR-323* were only identified in Large White, contrary to the patterns displayed by ssc-miR-101a-1*, miR-103*, miR-183*, miR-1a* and miR-210*, indicating that these miRNAs may function in the physiology or development of the backfat tissue. [score:2]
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