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2 publications mentioning bta-mir-1296Open access articles that are associated with the species Bos taurus and mention the gene name mir-1296. Click the [+] symbols to view sentences that include the gene name, or the word cloud on the right for a summary. |
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Other miRNAs from this paper: bta-mir-151, bta-mir-181a-2, bta-mir-140, bta-mir-181b-2, bta-mir-193a, bta-mir-10b, bta-let-7a-1, bta-mir-150, bta-let-7i, bta-let-7a-2, bta-let-7a-3, bta-mir-1-2, bta-mir-1-1, bta-mir-106b, bta-mir-141, bta-mir-143, bta-mir-193b, bta-mir-224, bta-mir-33a, bta-mir-33b, bta-mir-362, bta-mir-454, bta-mir-874, bta-mir-181a-1, bta-mir-181b-1, bta-mir-2305, bta-mir-193a-2, bta-mir-2890
Regarding qRT-PCR used validate relative gene expression of the 8 selected miRNAs, we showed in Fig 5E that miR-let-7i, miR-2305 and miR-2890 were upregulated and the expression of miR-874, miR-1, miR-106b, miR-1296 and miR-362-5p decreased in steers.
[score:8]
Fig 8 shows that only 9 DE miRNAs (bta-let-7i, bta-miR-1296, bta-miR-141, bta-miR-150, bta-miR-151-3p, bta-miR-193a-3p, bta-miR-224, bta-miR-2890, and bta-miR-454) and 42 DE target genes were observed.
[score:3]
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Other miRNAs from this paper: bta-mir-101-2, bta-mir-103-1, bta-mir-148a, bta-mir-16b, bta-mir-20a, bta-mir-21, bta-mir-221, bta-mir-125a, bta-mir-125b-1, bta-mir-145, bta-mir-181a-2, bta-mir-199a-1, bta-mir-205, bta-mir-30b, bta-mir-15b, bta-mir-148b, bta-mir-192, bta-mir-199b, bta-mir-10b, bta-mir-122, bta-let-7b, bta-let-7c, bta-mir-103-2, bta-mir-125b-2, bta-mir-497, bta-mir-99b, bta-mir-1-2, bta-mir-1-1, bta-mir-101-1, bta-mir-106b, bta-mir-130a, bta-mir-130b, bta-mir-141, bta-mir-143, bta-mir-147, bta-mir-196a-2, bta-mir-196a-1, bta-mir-196b, bta-mir-197, bta-mir-199a-2, bta-mir-219-1, bta-mir-330, bta-mir-378-1, bta-mir-493, bta-mir-502a-1, bta-mir-502a-2, bta-mir-502b, bta-mir-874, bta-mir-96, bta-mir-181a-1, bta-mir-2299, bta-mir-2349, bta-mir-2387, bta-mir-2399, bta-mir-2419, bta-mir-2483, bta-mir-378-2, bta-mir-149, bta-mir-2285f-1, bta-mir-2285f-2, bta-mir-2285l, bta-mir-6119, bta-mir-6123, bta-mir-378b, bta-mir-154b, bta-mir-378c, bta-mir-6524, bta-mir-2285r, bta-mir-2285t, bta-mir-219-2, bta-mir-378d, bta-mir-219b
When cows were fed AL diet, expression of three ruminal miRNAs including miR-125-5p, -130a, -2376, three duodenal miRNAs including miR-2483-5p, -2286l, -2336, two hepatic miRNAs including miR-199a-3p, -2399-5p and fourteen mammary gland miRNAs such as miR-196a, -205 was positively correlated with feed (R ranged from 0.81 ~ 0.99, P < 0.05) and N efficiency (R ranged from 0.81 ~ 0.98, P < 0.05), whereas the expression ruminal miR-1296, duodenal miR-6123, two jejunal miRNAs including miR-30b-3p, -652, five hepatic miRNAs including miR-1, -2285e, -421, -455-3p, -671, and mammary gland miR-99b was negatively correlated with feed (R ranged from −0.82 ~ −0.94, P < 0.05) and N efficiency (R ranged from −0.84 ~ −0.92, P < 0.05) (Table S6).
[score:5]
Our study revealed that systematic phosphorylation (duodenal miR-1296, jejunal miR-30b-3p, hepatic miR-199a-3p and mammary miR-196 (data not shown)) and transport of AAs (ruminal miR-130a, duodenal miR-1296, jejunal miR-30b-3p and mammary miR-196 (data not shown)) may be conducted by mediated-miRNAs, suggesting that miRNA -mediated mechanisms regulated N efficiency by regulating AAs transport and phosphorylation throughout all these five tissues.
[score:3]
When cows were fed AL diet, transport (FDR = 1.53E-04, n = 13, such as miR-130a) and metabolism (FDR = 5.15E-03, n = 13, miR-130a) of AAs predicted to be targeted by rumen positively associated miRNAs and release of L-AAs (FDR = 4.51E-04, n = 13, such as miR-1296) were predicted to be controlled by rumen negatively associated miRNAs.
[score:3]
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