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18 publications mentioning hsa-mir-466

Open access articles that are associated with the species Homo sapiens and mention the gene name mir-466. Click the [+] symbols to view sentences that include the gene name, or the word cloud on the right for a summary.

1
[+] score: 47
RT-qPCR was performed on 5 differentially expressed miRNAs (3 upregulated: miR-466, miR-574-3p, miR-3613-3p; and 2 downregulated: miR-1, miR-26a-5p) to confirm the microarray data. [score:9]
The miRNAs hsa-miR-1 and hsa-miR-26a-5p were predicted by 5 target prediction databases; hsa-miR-574-3p was predicted from 4 target prediction databases, and hsa-miR-466 and hsa-miR-3613-3P were predicted from 2 target prediction databases (Table 3). [score:7]
Finally, we selected 5 miRNAs for further analysis: 3 were upregulated in the AF group relative to the NSR (hsa-miR-466, hsa-miR-574-3p, and hsa-miR-3613-3p), and 2 were downregulated (hsa-miR-1 and hsa-miR-26a-5p). [score:7]
According to the RT-qPCR data, hsa-miR-466, hsa-miR-574-3p, and hsa-miR-3613-3p were upregulated in the LAAs of the AF group relative to the NSR, while hsa-miR-1 and hsa-miR-26a-5p were downregulated. [score:7]
To determine the probable biological function of the differentially expressed miRNAs, we predicted the putative targets and pathways of 5 validated miRNAs (hsa-miR-1, hsa-miR-26a-5p, hsa-miR-466, hsa-miR-574-3p, and hsa-miR-3613-3p) using the miRFocus database. [score:5]
Spearman’s correlation analysis showed a positive correlation between the level of expression of miR-466 and LA size, and a negative correlation between the level of expression of miR-1 and miR-26a-5p with LA size. [score:5]
Our study found that the expression levels of three validated miRNAs (miR-1, miR-26a-5p, miR-466) correlated with LA size, while those of two others (miR-574-3p, miR-3613-3p) did not. [score:3]
Spearman’s correlation analysis showed a positive correlation between the level of expression of miR-466 in LAA and LA size (r = 0.73; P = 0.007). [score:3]
Previously, the miR-466, miR-574, and miR-3613 have not been described as participating in cardiovascular pathology. [score:1]
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2
[+] score: 29
miR-466 in turn impacts lymph-angiogenesis by targeting Prox1 3′UTR sequence and suppressing the expression of the gene and therefore reducing lymphangiogenesis [95]. [score:7]
miR-466 and miR-1187, in particular, emerge as significant and regulators, sharing common target genes with Nr2e3, Rora, Ezh2 that are also differentially expressed in AMD. [score:6]
Seo M Choi J-S Rho CR Joo C-K Lee SK MicroRNA miR-466 inhibits Lymphangiogenesis by targeting prospero-related homeobox 1 in the alkali burn corneal injury mo delJ. [score:5]
In addition, the miRNAs mir466 and mir1186 have 5 potential target genes that are differentially expressed in AMD patients compared to unaffected individuals: lymphocyte cytosolic protein1 (Lcp1), NADPH oxidase 4 (Nox 4) regulator of G-protein signaling (Rgs5), Dystonin (Dst), and Cpm. [score:5]
miR-466 was discovered in a recent study to identify miRNAs that target the Prospero homeobox 1 (Prox1) gene, a known regulator of retinal neurogenesis. [score:4]
This filtering strategy allowed us to identify 2 genes (Ell2 and Entpd1) as well as 3 miRNAs (mir466, miR1187 and miR710) that are regulated by epigenetic factors and nuclear hormone receptors and are associated with AMD pathogenesis. [score:2]
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3
[+] score: 24
Other miRNAs from this paper: mmu-mir-466a, mmu-mir-467a-1, hsa-mir-548a-1, hsa-mir-548b, hsa-mir-548a-2, hsa-mir-548a-3, hsa-mir-548c, hsa-mir-548d-1, hsa-mir-548d-2, mmu-mir-669a-1, mmu-mir-669b, mmu-mir-669a-2, mmu-mir-669a-3, mmu-mir-467b, mmu-mir-669c, 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-467c, mmu-mir-467d, mmu-mir-466d, mmu-mir-467e, mmu-mir-466l, mmu-mir-669k, mmu-mir-669g, mmu-mir-669d, mmu-mir-466i, mmu-mir-669j, mmu-mir-669f, mmu-mir-669i, mmu-mir-669h, mmu-mir-466f-4, mmu-mir-466k, mmu-mir-467f, mmu-mir-466j, mmu-mir-669e, mmu-mir-467g, mmu-mir-467h, hsa-mir-548e, hsa-mir-548j, hsa-mir-548k, hsa-mir-548l, hsa-mir-548f-1, hsa-mir-548f-2, hsa-mir-548f-3, hsa-mir-548f-4, hsa-mir-548f-5, hsa-mir-548g, hsa-mir-548n, hsa-mir-548m, hsa-mir-548o, hsa-mir-548h-1, hsa-mir-548h-2, hsa-mir-548h-3, hsa-mir-548h-4, hsa-mir-548p, hsa-mir-548i-1, hsa-mir-548i-2, hsa-mir-548i-3, hsa-mir-548i-4, mmu-mir-669l, mmu-mir-669m-1, mmu-mir-669m-2, mmu-mir-669o, mmu-mir-669n, hsa-mir-548q, mmu-mir-466m, mmu-mir-669d-2, mmu-mir-466o, mmu-mir-467a-2, mmu-mir-669a-4, mmu-mir-669a-5, mmu-mir-467a-3, mmu-mir-466c-2, mmu-mir-669a-6, mmu-mir-467a-4, mmu-mir-466b-4, mmu-mir-669a-7, mmu-mir-467a-5, mmu-mir-466b-5, mmu-mir-669p-1, mmu-mir-467a-6, mmu-mir-669a-8, mmu-mir-466b-6, mmu-mir-669a-9, mmu-mir-467a-7, mmu-mir-466b-7, mmu-mir-669p-2, mmu-mir-467a-8, mmu-mir-669a-10, mmu-mir-467a-9, mmu-mir-669a-11, mmu-mir-467a-10, mmu-mir-669a-12, mmu-mir-466p, mmu-mir-466n, mmu-mir-466b-8, hsa-mir-548s, hsa-mir-548t, hsa-mir-548u, hsa-mir-548v, hsa-mir-548w, hsa-mir-548x, hsa-mir-548y, hsa-mir-548z, hsa-mir-548aa-1, hsa-mir-548aa-2, hsa-mir-548o-2, hsa-mir-548h-5, hsa-mir-548ab, hsa-mir-548ac, hsa-mir-548ad, hsa-mir-548ae-1, hsa-mir-548ae-2, hsa-mir-548ag-1, hsa-mir-548ag-2, hsa-mir-548ah, hsa-mir-548ai, hsa-mir-548aj-1, hsa-mir-548aj-2, hsa-mir-548x-2, hsa-mir-548ak, hsa-mir-548al, hsa-mir-548am, hsa-mir-548an, hsa-mir-548ao, hsa-mir-548ap, mmu-mir-466q, hsa-mir-548aq, hsa-mir-548ar, hsa-mir-548as, hsa-mir-548at, hsa-mir-548au, hsa-mir-548av, hsa-mir-548aw, hsa-mir-548ax, hsa-mir-548ay, hsa-mir-548az, hsa-mir-548ba, hsa-mir-548bb, mmu-mir-466c-3, hsa-mir-548bc
The expressions of mmu-miR-466 and mmu-miR-467 markedly waved during the hair follicle cycling in mouse [50] and were downregulated in melanoma of mouse by curcumin diet [51]. [score:6]
hsa-miR-548, mmu-miR-466, and mmu-miR-467 have an enormous number of targets on IGs, which both have the role of inhibition of host immunity response. [score:5]
The mmu-miR-466 family and mmu-miR-467 family have predicted 1,704 target sites and 956 target sites, respectively, distributed on 375 and 310 IGs of the mouse. [score:5]
We found that the hsa-miR-548 family has the highest amount of target sites among the identified miRNAs in human and the mmu-miR-466 and mmu-miR-467 families are top two in the miRNAs list predicted in the mouse. [score:3]
Both of hsa-miRNA-548 and mmu-miR-466 and mmu-miR-467 can inhibit the host immunity response [54]. [score:3]
In this study, mmu-miR-466, mmu-miR-467, and mmu-miR-669 clusters have one core promoter region and transcriptional start site shared with the Sfmbt2 gene. [score:1]
And histone deacetylation and metabolic oxidative stress can induce the activity of mmu-miR-466 [52]. [score:1]
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4
[+] score: 12
Recently, miR-466 was shown to suppress PROX1 expression and tube formation in human dermal LECs, and both miR-466 and miR-181a induced inhibition of corneal lymphangiogenesis in rats (52). [score:7]
microRNA miR-466 inhibits lymphangiogenesis by targeting prospero-related homeobox 1 in the alkali burn corneal injury mo del. [score:5]
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5
[+] score: 11
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-26b, hsa-mir-29a, hsa-mir-30a, hsa-mir-29b-1, hsa-mir-29b-2, hsa-mir-106a, mmu-let-7g, mmu-let-7i, mmu-mir-15b, mmu-mir-29b-1, mmu-mir-30a, mmu-mir-30b, mmu-mir-125a, mmu-mir-125b-2, mmu-mir-130a, mmu-mir-138-2, mmu-mir-181a-2, mmu-mir-182, hsa-mir-30c-2, hsa-mir-30d, mmu-mir-30e, hsa-mir-10a, hsa-mir-34a, hsa-mir-181a-2, hsa-mir-181b-1, hsa-mir-181c, hsa-mir-182, hsa-mir-181a-1, mmu-mir-297a-1, mmu-mir-297a-2, mmu-mir-301a, mmu-mir-34c, mmu-mir-34b, mmu-let-7d, mmu-mir-106a, mmu-mir-106b, hsa-let-7g, hsa-let-7i, hsa-mir-15b, hsa-mir-30b, hsa-mir-125b-1, hsa-mir-130a, hsa-mir-138-2, hsa-mir-125a, hsa-mir-125b-2, hsa-mir-138-1, 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-26b, mmu-mir-29a, mmu-mir-29c, mmu-mir-34a, rno-mir-301a, rno-let-7d, rno-mir-344a-1, mmu-mir-344-1, rno-mir-346, mmu-mir-346, rno-mir-352, hsa-mir-181b-2, mmu-mir-10a, mmu-mir-181a-1, mmu-mir-29b-2, mmu-mir-138-1, mmu-mir-181b-1, mmu-mir-181c, mmu-mir-125b-1, hsa-mir-106b, hsa-mir-29c, hsa-mir-30c-1, hsa-mir-34b, hsa-mir-34c, hsa-mir-301a, hsa-mir-30e, hsa-mir-362, mmu-mir-362, hsa-mir-369, hsa-mir-374a, mmu-mir-181b-2, hsa-mir-346, rno-let-7a-1, rno-let-7a-2, rno-let-7b, rno-let-7c-1, rno-let-7c-2, rno-let-7e, rno-let-7f-1, rno-let-7f-2, rno-let-7i, rno-mir-10a, rno-mir-15b, rno-mir-26b, rno-mir-29b-2, rno-mir-29a, rno-mir-29b-1, rno-mir-29c-1, rno-mir-30c-1, rno-mir-30e, rno-mir-30b, rno-mir-30d, rno-mir-30a, rno-mir-30c-2, rno-mir-34b, rno-mir-34c, rno-mir-34a, rno-mir-106b, rno-mir-125a, rno-mir-125b-1, rno-mir-125b-2, rno-mir-130a, rno-mir-138-2, rno-mir-138-1, rno-mir-181c, rno-mir-181a-2, rno-mir-181b-1, rno-mir-181b-2, rno-mir-181a-1, hsa-mir-449a, mmu-mir-449a, rno-mir-449a, mmu-mir-463, mmu-mir-466a, hsa-mir-483, hsa-mir-493, hsa-mir-181d, hsa-mir-499a, hsa-mir-504, mmu-mir-483, rno-mir-483, mmu-mir-369, rno-mir-493, rno-mir-369, rno-mir-374, hsa-mir-579, hsa-mir-582, hsa-mir-615, hsa-mir-652, hsa-mir-449b, rno-mir-499, hsa-mir-767, hsa-mir-449c, hsa-mir-762, mmu-mir-301b, mmu-mir-374b, mmu-mir-762, mmu-mir-344d-3, mmu-mir-344d-1, mmu-mir-673, mmu-mir-344d-2, mmu-mir-449c, mmu-mir-692-1, mmu-mir-692-2, mmu-mir-669b, mmu-mir-499, mmu-mir-652, mmu-mir-615, mmu-mir-804, mmu-mir-181d, mmu-mir-879, mmu-mir-297a-3, mmu-mir-297a-4, mmu-mir-344-2, 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-493, mmu-mir-504, mmu-mir-466d, mmu-mir-449b, hsa-mir-374b, hsa-mir-301b, rno-mir-466b-1, rno-mir-466b-2, rno-mir-466c, rno-mir-879, mmu-mir-582, rno-mir-181d, rno-mir-182, rno-mir-301b, rno-mir-463, rno-mir-673, rno-mir-652, mmu-mir-466l, mmu-mir-669k, mmu-mir-466i, mmu-mir-669i, mmu-mir-669h, mmu-mir-466f-4, mmu-mir-466k, mmu-mir-466j, mmu-mir-1193, mmu-mir-767, rno-mir-362, rno-mir-504, rno-mir-582, rno-mir-615, mmu-mir-3080, 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-344e, mmu-mir-344b, mmu-mir-344c, mmu-mir-344g, mmu-mir-344f, mmu-mir-374c, mmu-mir-466b-8, hsa-mir-1193, rno-mir-449c, rno-mir-344b-2, rno-mir-466d, rno-mir-344a-2, rno-mir-1193, rno-mir-344b-1, hsa-mir-374c, hsa-mir-499b, mmu-mir-466q, mmu-mir-344h-1, mmu-mir-344h-2, mmu-mir-344i, rno-mir-344i, rno-mir-344g, mmu-let-7j, mmu-mir-30f, mmu-let-7k, mmu-mir-692-3, rno-let-7g, rno-mir-15a, rno-mir-762, mmu-mir-466c-3, rno-mir-29c-2, rno-mir-29b-3, rno-mir-344b-3, rno-mir-466b-3, rno-mir-466b-4
Of these miRNAs, 12 were upregulated (miR-34b, miR-138, miR-297a, miR-301, miR-449, miR-466, miR-493, miR-579, miR-582, miR. [score:4]
MiR-466 was the only miRNA that was upregulated both in lung and blood of mice bearing >10 microadenomas. [score:4]
The identity, fold-change variation, direction of alteration, and biological function of these miRNAs are reported in Table 2. In mice bearing adenomas, 5 miRNAs (miR-34b, miR-106a, miR-499, miR-466, and miR-493) were altered in the blood serum but not in lung. [score:2]
One miRNA only (miR-466) was altered in both body compartments of mice bearing >10 microadenomas in the lung fragment. [score:1]
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6
[+] score: 9
For example, miR-34 can interact with β-actin 3′UTR and positively regulating its expression [43], while miR-466 l up-regulates IL-10 mRNA expression in TLR-triggered macrophages by antagonizing RNA -binding protein tristetraprolin -mediated IL-10 mRNA degradation [44]. [score:9]
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7
[+] score: 8
In this study, we also predicted targets of miRNAs, and found the targets of miR-10a miR-10b miR-414 and miR-466 in the HOX clusters (Additional file 9). [score:5]
Regarding targets of miRNAs in the tammar HOX clusters, valid miRNA hits to miR-10a, miR-10b, miR-414 and miR-466 were confirmed (details referred to Additional file 9). [score:3]
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8
[+] score: 6
Dashwood et al. demonstrated that a single intake of cruciferous vegetables inhibits HDAC activity in mononuclear cells of peripheral blood promoting H3 and H4 acetylation [141], while other studies demonstrated that exposure to cigarette smoke causes a down-regulation of mir-34b, mir-421, mir450-b, mir-466, and mir-469 [142]. [score:6]
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9
[+] score: 5
MicroRNA miR-466 inhibits lymphangiogenesis by targeting prospero-related homeobox 1 in the alkali burn corneal injury mo del. [score:5]
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10
[+] score: 3
This cluster is composed of 28 miRNAs located in intron 10 of the mouse Sfmbt2 gene on chromosome 2. The sole human orthologues are hsa-miR-466 located in an intergenic region on chromosome 3 and hsa-miR-297, a highly cytotoxic microRNA in glioblastoma associated with reduced in vitro invasiveness and in vivo tumor formation, located on chromosome 4 [55]. [score:1]
Interestingly, the human orthologues of miR-297-5p and miR-466-5p also show similarities in the seed sequence, indicating a potentially cross-species pro-apoptotic function especially for the 5p strands of this miRNA cluster. [score:1]
Surprisingly, many members of the mouse specific miR-297-669 cluster were also able to induce apoptosis in the human cancer cell lines S KOV3, T98G and HCT 116 with significantly higher specific apoptosis rates observed for the 5p strands of the miR-466 and miR-669 members (Figure 2B). [score:1]
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11
[+] score: 2
Other miRNAs from this paper: hsa-let-7b, hsa-mir-21, hsa-mir-27a, hsa-mir-148a, hsa-mir-10a, hsa-mir-10b, hsa-mir-34a, hsa-mir-203a, hsa-mir-1-2, hsa-mir-23b, hsa-mir-122, hsa-mir-141, hsa-mir-126, hsa-mir-146a, hsa-mir-1-1, hsa-mir-155, hsa-mir-34b, hsa-mir-34c, hsa-mir-296, hsa-mir-370, hsa-mir-373, hsa-mir-342, hsa-mir-526a-1, hsa-mir-526a-2, hsa-mir-548a-1, hsa-mir-548b, hsa-mir-548a-2, hsa-mir-548a-3, hsa-mir-548c, hsa-mir-548d-1, hsa-mir-548d-2, hsa-mir-542, hsa-mir-548e, hsa-mir-548j, hsa-mir-548k, hsa-mir-548l, hsa-mir-548f-1, hsa-mir-548f-2, hsa-mir-548f-3, hsa-mir-548f-4, hsa-mir-548f-5, hsa-mir-1246, hsa-mir-548g, hsa-mir-548n, hsa-mir-548m, hsa-mir-548o, hsa-mir-548h-1, hsa-mir-548h-2, hsa-mir-548h-3, hsa-mir-548h-4, hsa-mir-548p, hsa-mir-548i-1, hsa-mir-548i-2, hsa-mir-548i-3, hsa-mir-548i-4, hsa-mir-548q, hsa-mir-548s, hsa-mir-548t, hsa-mir-548u, hsa-mir-548v, hsa-mir-548w, hsa-mir-548x, hsa-mir-548y, hsa-mir-548z, hsa-mir-548aa-1, hsa-mir-548aa-2, hsa-mir-548o-2, hsa-mir-548h-5, hsa-mir-548ab, hsa-mir-548ac, hsa-mir-548ad, hsa-mir-548ae-1, hsa-mir-548ae-2, hsa-mir-548ag-1, hsa-mir-548ag-2, hsa-mir-548ah, hsa-mir-548ai, hsa-mir-548aj-1, hsa-mir-548aj-2, hsa-mir-548x-2, hsa-mir-548ak, hsa-mir-548al, hsa-mir-548am, hsa-mir-548an, hsa-mir-203b, hsa-mir-548ao, hsa-mir-548ap, hsa-mir-548aq, hsa-mir-548ar, hsa-mir-548as, hsa-mir-548at, hsa-mir-548au, hsa-mir-548av, hsa-mir-548aw, hsa-mir-548ax, hsa-mir-548ay, hsa-mir-548az, hsa-mir-548ba, hsa-mir-548bb, hsa-mir-548bc
Lam W. Y. Cheung A. C. Tung C. K. Yeung A. C. Ngai K. L. Lui V. W. Chan P. K. Tsui S. K. miR-466 is putative negative regulator of Coxsackie virus and Adenovirus Receptor FEBS Lett. [score:2]
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12
[+] score: 2
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-93, mmu-let-7g, mmu-let-7i, mmu-mir-126a, mmu-mir-302a, mmu-let-7d, hsa-let-7g, hsa-let-7i, hsa-mir-126, 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-93, hsa-mir-302a, mmu-mir-466a, hsa-mir-551b, hsa-mir-548a-1, hsa-mir-548b, hsa-mir-548a-2, hsa-mir-548a-3, hsa-mir-548c, hsa-mir-626, hsa-mir-548d-1, hsa-mir-548d-2, mmu-mir-551b, mmu-mir-763, mmu-mir-680-2, mmu-mir-692-1, mmu-mir-327, 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-466d, mmu-mir-466l, mmu-mir-466i, mmu-mir-466f-4, mmu-mir-466k, mmu-mir-466j, mmu-mir-467g, hsa-mir-1233-1, hsa-mir-1234, hsa-mir-548e, hsa-mir-548j, hsa-mir-548k, hsa-mir-1299, hsa-mir-548l, hsa-mir-548f-1, hsa-mir-548f-2, hsa-mir-548f-3, hsa-mir-548f-4, hsa-mir-548f-5, hsa-mir-1255a, hsa-mir-548g, hsa-mir-548n, hsa-mir-548m, hsa-mir-548o, hsa-mir-1268a, hsa-mir-548h-1, hsa-mir-548h-2, hsa-mir-548h-3, hsa-mir-548h-4, hsa-mir-548p, hsa-mir-548i-1, hsa-mir-548i-2, hsa-mir-548i-3, hsa-mir-548i-4, hsa-mir-103b-2, hsa-mir-320d-2, hsa-mir-548q, 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, hsa-mir-548s, hsa-mir-548t, hsa-mir-548u, hsa-mir-548v, hsa-mir-3176, hsa-mir-548w, hsa-mir-548x, mmu-mir-3471-1, hsa-mir-4281, hsa-mir-1302-11, hsa-mir-548y, hsa-mir-548z, hsa-mir-548aa-1, hsa-mir-548aa-2, hsa-mir-548o-2, hsa-mir-1268b, hsa-mir-548h-5, hsa-mir-548ab, hsa-mir-548ac, hsa-mir-548ad, hsa-mir-548ae-1, hsa-mir-548ae-2, hsa-mir-548ag-1, hsa-mir-548ag-2, hsa-mir-548ah, hsa-mir-548ai, hsa-mir-548aj-1, hsa-mir-548aj-2, hsa-mir-3689c, hsa-mir-548x-2, hsa-mir-548ak, hsa-mir-548al, hsa-mir-548am, hsa-mir-548an, hsa-mir-548ao, hsa-mir-548ap, mmu-mir-466q, hsa-mir-548aq, hsa-mir-548ar, hsa-mir-548as, hsa-mir-548at, hsa-mir-548au, hsa-mir-548av, hsa-mir-548aw, hsa-mir-548ax, mmu-let-7j, hsa-mir-548ay, hsa-mir-548az, mmu-let-7k, mmu-mir-126b, hsa-mir-548ba, hsa-mir-548bb, mmu-mir-466c-3, hsa-mir-548bc
We observed five categories: • The primary sequences of pre-miRNAs HSA-MIR-466, HSA-MIR-1233-1, HSA-MIR-3669, MMU-MIR-297A-6 and MMU-MIR-467g are similar to microsatellites (microsatellites are similar to tandem repeats of short sequence motifs (less than 10 nt)) [39]): HSA-MIR-466 contains microsatellites GU [n ]and AC [n]; HSA-MIR-1233-1 contains microsatellites AGGGC [n]; and MMU-MIR-467g is composed by microsatellite AU [n]. [score:1]
We observed five categories: • The primary sequences of pre-miRNAs HSA-MIR-466, HSA-MIR-1233-1, HSA-MIR-3669, MMU-MIR-297A-6 and MMU-MIR-467g are similar to microsatellites (microsatellites are similar to tandem repeats of short sequence motifs (less than 10 nt)) [39]): HSA-MIR-466 contains microsatellites GU [n ]and AC [n]; HSA-MIR-1233-1 contains microsatellites AGGGC [n]; and MMU-MIR-467g is composed by microsatellite AU [n]. [score:1]
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Lam W. Y. Cheung A. C. Y. Tung C. K. C. Yeung A. C. M. Ngai K. L. K. Lui V. W. Y. Chan P. K. S. Tsui S. K. W. miR-466 is putative negative regulator of Coxsackie virus and Adenovirus Receptor FEBS Lett. [score:2]
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Other miRNAs from this paper: hsa-mir-25, hsa-mir-28, hsa-mir-95, mmu-mir-151, mmu-mir-290a, mmu-mir-297a-1, mmu-mir-297a-2, mmu-mir-130b, mmu-mir-340, mmu-mir-25, mmu-mir-28a, hsa-mir-130b, hsa-mir-367, hsa-mir-372, hsa-mir-378a, mmu-mir-378a, hsa-mir-340, hsa-mir-151a, mmu-mir-466a, mmu-mir-467a-1, hsa-mir-505, hsa-mir-506, mmu-mir-367, hsa-mir-92b, hsa-mir-548a-1, hsa-mir-548b, hsa-mir-548a-2, hsa-mir-548a-3, hsa-mir-548c, hsa-mir-648, hsa-mir-548d-1, hsa-mir-548d-2, hsa-mir-659, hsa-mir-421, hsa-mir-151b, hsa-mir-1271, hsa-mir-378d-2, mmu-mir-467b, mmu-mir-297b, mmu-mir-505, mmu-mir-297a-3, mmu-mir-297a-4, mmu-mir-297c, mmu-mir-421, 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-467c, mmu-mir-467d, mmu-mir-92b, mmu-mir-466d, hsa-mir-297, mmu-mir-467e, mmu-mir-466l, mmu-mir-669g, mmu-mir-466i, mmu-mir-466f-4, mmu-mir-466k, mmu-mir-467f, mmu-mir-466j, mmu-mir-467g, mmu-mir-467h, mmu-mir-1195, hsa-mir-548e, hsa-mir-548j, hsa-mir-1285-1, hsa-mir-1285-2, hsa-mir-1289-1, hsa-mir-1289-2, hsa-mir-548k, hsa-mir-1299, hsa-mir-548l, hsa-mir-1302-1, hsa-mir-1302-2, hsa-mir-1302-3, hsa-mir-1302-4, hsa-mir-1302-5, hsa-mir-1302-6, hsa-mir-1302-7, hsa-mir-1302-8, hsa-mir-548f-1, hsa-mir-548f-2, hsa-mir-548f-3, hsa-mir-548f-4, hsa-mir-548f-5, hsa-mir-1255a, hsa-mir-548g, hsa-mir-548n, hsa-mir-548m, hsa-mir-548o, hsa-mir-1268a, hsa-mir-548h-1, hsa-mir-548h-2, hsa-mir-548h-3, hsa-mir-548h-4, hsa-mir-548p, hsa-mir-548i-1, hsa-mir-548i-2, hsa-mir-548i-3, hsa-mir-548i-4, hsa-mir-1255b-1, hsa-mir-1255b-2, mmu-mir-1906-1, hsa-mir-1972-1, hsa-mir-548q, mmu-mir-466m, mmu-mir-466o, mmu-mir-467a-2, mmu-mir-467a-3, mmu-mir-466c-2, mmu-mir-467a-4, mmu-mir-466b-4, mmu-mir-467a-5, mmu-mir-466b-5, mmu-mir-467a-6, mmu-mir-466b-6, mmu-mir-467a-7, mmu-mir-466b-7, mmu-mir-467a-8, mmu-mir-467a-9, mmu-mir-467a-10, mmu-mir-466p, mmu-mir-466n, mmu-mir-466b-8, hsa-mir-3116-1, hsa-mir-3116-2, hsa-mir-3118-1, hsa-mir-3118-2, hsa-mir-3118-3, hsa-mir-548s, hsa-mir-378b, hsa-mir-548t, hsa-mir-548u, hsa-mir-548v, hsa-mir-3156-1, hsa-mir-3118-4, hsa-mir-3174, hsa-mir-3179-1, hsa-mir-3179-2, hsa-mir-3179-3, hsa-mir-548w, hsa-mir-3156-2, hsa-mir-3156-3, hsa-mir-548x, mmu-mir-3470a, mmu-mir-3470b, mmu-mir-3471-1, mmu-mir-3471-2, hsa-mir-378c, hsa-mir-1972-2, hsa-mir-1302-9, hsa-mir-1302-10, hsa-mir-1302-11, mmu-mir-1906-2, hsa-mir-3683, hsa-mir-3690-1, hsa-mir-548y, hsa-mir-548z, hsa-mir-548aa-1, hsa-mir-548aa-2, hsa-mir-548o-2, hsa-mir-1268b, hsa-mir-378d-1, hsa-mir-378e, hsa-mir-548h-5, hsa-mir-548ab, hsa-mir-378f, hsa-mir-378g, hsa-mir-548ac, hsa-mir-548ad, hsa-mir-548ae-1, hsa-mir-548ae-2, hsa-mir-548ag-1, hsa-mir-548ag-2, hsa-mir-548ah, hsa-mir-378h, hsa-mir-548ai, hsa-mir-548aj-1, hsa-mir-548aj-2, hsa-mir-548x-2, hsa-mir-548ak, hsa-mir-548al, hsa-mir-378i, hsa-mir-548am, hsa-mir-548an, mmu-mir-28c, mmu-mir-378b, mmu-mir-28b, hsa-mir-548ao, hsa-mir-548ap, mmu-mir-466q, hsa-mir-548aq, hsa-mir-548ar, hsa-mir-548as, hsa-mir-548at, hsa-mir-548au, hsa-mir-548av, hsa-mir-548aw, hsa-mir-548ax, hsa-mir-378j, mmu-mir-378c, mmu-mir-378d, hsa-mir-548ay, hsa-mir-548az, hsa-mir-3690-2, mmu-mir-290b, hsa-mir-548ba, hsa-mir-548bb, hsa-mir-3179-4, mmu-mir-466c-3, hsa-mir-548bc, mmu-mir-1271
Examples of this are the mir-297, mir-466, mir-467, mir-548 [16], mir-1302 [20], mir-1972, mir-3118 and mir-3179 families (which are all RrmiR families listed here) (Table S5). [score:1]
Three miRNA families that are the results of lineage-specific expansion were found in the mouse genome: the mir-466 and mir-467 families derived from simple repeats and the mir-297 family derived from SINE and LTR repetitive elements (Table S1 and Table S2). [score:1]
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An exception might be the sequence containing has-mir-466 with (TATG)n and (CA)n microsatellites (Additional File 2 Table S4A). [score:1]
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Unlike miR-466, no seed sites for miR-664 can be found in any of the human IFN genes. [score:1]
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miR-466 and miR-184 are reported to be closely related with corneal lymphangiogenesis. [score:1]
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Other miRNAs from this paper: hsa-let-7a-1, hsa-let-7a-2, hsa-let-7a-3, hsa-mir-15a, hsa-mir-18a, hsa-mir-33a, hsa-mir-103a-2, hsa-mir-103a-1, hsa-mir-107, mmu-mir-27b, mmu-mir-126a, mmu-mir-128-1, mmu-mir-140, mmu-mir-146a, mmu-mir-152, mmu-mir-155, mmu-mir-191, hsa-mir-10a, hsa-mir-211, hsa-mir-218-1, hsa-mir-218-2, mmu-mir-297a-1, mmu-mir-297a-2, hsa-mir-27b, hsa-mir-128-1, hsa-mir-140, hsa-mir-152, hsa-mir-191, hsa-mir-126, hsa-mir-146a, mmu-let-7a-1, mmu-let-7a-2, mmu-mir-15a, mmu-mir-18a, mmu-mir-103-1, mmu-mir-103-2, mmu-mir-342, hsa-mir-155, mmu-mir-107, mmu-mir-10a, mmu-mir-218-1, mmu-mir-218-2, mmu-mir-33, mmu-mir-211, hsa-mir-374a, hsa-mir-342, gga-mir-33-1, gga-let-7a-3, gga-mir-155, gga-mir-18a, gga-mir-15a, gga-mir-218-1, gga-mir-103-2, gga-mir-107, gga-mir-128-1, gga-mir-140, gga-let-7a-1, gga-mir-146a, gga-mir-103-1, gga-mir-218-2, gga-mir-126, gga-let-7a-2, gga-mir-27b, mmu-mir-466a, mmu-mir-467a-1, hsa-mir-499a, hsa-mir-545, hsa-mir-593, hsa-mir-600, hsa-mir-33b, gga-mir-499, gga-mir-211, gga-mir-466, mmu-mir-675, mmu-mir-677, mmu-mir-467b, mmu-mir-297b, mmu-mir-499, mmu-mir-717, hsa-mir-675, mmu-mir-297a-3, mmu-mir-297a-4, mmu-mir-297c, 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-467c, mmu-mir-467d, mmu-mir-466d, hsa-mir-297, mmu-mir-467e, mmu-mir-466l, mmu-mir-466i, mmu-mir-466f-4, mmu-mir-466k, mmu-mir-467f, mmu-mir-466j, mmu-mir-467g, mmu-mir-467h, hsa-mir-664a, hsa-mir-1306, hsa-mir-1307, gga-mir-1306, hsa-mir-103b-1, hsa-mir-103b-2, gga-mir-10a, mmu-mir-1306, mmu-mir-3064, mmu-mir-466m, mmu-mir-466o, mmu-mir-467a-2, mmu-mir-467a-3, mmu-mir-466c-2, mmu-mir-467a-4, mmu-mir-466b-4, mmu-mir-467a-5, mmu-mir-466b-5, mmu-mir-467a-6, mmu-mir-466b-6, mmu-mir-467a-7, mmu-mir-466b-7, mmu-mir-467a-8, mmu-mir-467a-9, mmu-mir-467a-10, mmu-mir-466p, mmu-mir-466n, mmu-mir-466b-8, hsa-mir-3173, hsa-mir-3618, hsa-mir-3064, hsa-mir-499b, mmu-mir-466q, hsa-mir-664b, gga-mir-3064, mmu-mir-126b, gga-mir-33-2, mmu-mir-3618, mmu-mir-466c-3, gga-mir-191
The mouse host gene Sfmbt2 (Scm-like with four mbt domains 2), located on MMU2, was found to comprise the largest number of resident miRNA genes (n = 70) belonging to the mir-297, mir-466, and mir-467 gene families. [score:1]
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