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5 publications mentioning aae-mir-375Open access articles that are associated with the species Aedes aegypti and mention the gene name mir-375. 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: aae-mir-252, aae-mir-281, aae-mir-980, aae-mir-989, aae-mir-1, aae-mir-305, aae-mir-308, aae-mir-927, aae-mir-309a-1, aae-mir-309a-2, aae-mir-283, aae-mir-2940, aae-mir-2941-1, aae-mir-2941-2, aae-mir-263a, aae-mir-100, aae-mir-2943-1, aae-mir-2943-2, aae-mir-2944b, aae-mir-286b-1, aae-mir-286b-2, aae-mir-286a, aae-mir-2946
miR-309a, specifically was shown to control ovarian development by targeting the Homeobox gene SIX4 [36], and miR-375 was found highly induced in blood fed mosquitoes regulating a number of mosquito genes, including upregulating cactus and downregulating Rel1 [37].
[score:11]
Application of miR-375 mimic in Aag2 cells led to enhanced DENV replication.
[score:1]
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Other miRNAs from this paper: hsa-mir-22, hsa-mir-10a, hsa-mir-34a, hsa-mir-34b, hsa-mir-34c, hsa-mir-375, aae-mir-275, aae-mir-34, aae-mir-1890, aae-mir-1174, aae-mir-2940
It has been reported that, in A. aegypti mosquitoes, aae-miR-375 expression upregulates the transcript level of the Toll immune pathway component Cactus [7].
[score:6]
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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-31, hsa-mir-10a, hsa-mir-10b, hsa-mir-34a, hsa-mir-210, hsa-let-7g, hsa-let-7i, hsa-mir-1-2, hsa-mir-1-1, hsa-mir-34b, hsa-mir-34c, hsa-mir-375, aae-bantam, aae-mir-276-1, aae-mir-2a, aae-mir-306, aae-mir-281, aae-mir-980, aae-mir-989, aae-mir-11, aae-mir-1, aae-mir-34, aae-mir-305, aae-mir-12, aae-mir-999, aae-mir-1175, aae-mir-932, aae-mir-927, aae-mir-285, aae-mir-31, aae-mir-10, aae-mir-988, aae-mir-210, aae-mir-1000-1, aae-mir-1000-2, aae-let-7, aae-mir-2b, aae-mir-2c, aae-mir-276-2, aae-mir-2945
Baran-Gale et al. (2013) showed that just three potential target genes were shared among all predicted targets of three isomiRs for human miR-375 50.
[score:5]
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Other miRNAs from this paper: aga-let-7, aga-mir-1, aga-mir-263a, aga-mir-278, aga-mir-282, aga-mir-9a, aga-mir-92b, aga-mir-9b, aga-mir-1175, aga-mir-34, aga-mir-12, aga-mir-11, aga-mir-1889, aga-mir-375, aga-mir-1890, aga-mir-1891, aae-mir-252, aae-mir-1889, aae-mir-278, aae-mir-11, aae-mir-1, aae-mir-34, aae-mir-1890, aae-mir-12, aae-mir-1891-1, aae-mir-1891-2, aae-mir-1175, aae-mir-285, aae-mir-31, aae-mir-2940, aae-mir-33, aae-mir-263a, aae-let-7, aae-mir-2944b, aae-mir-282-1, aae-mir-282-2, aae-mir-2945, aae-mir-92b, aae-mir-9a-1, aae-mir-9a-2, aae-mir-9b, cqu-mir-1, cqu-let-7, cqu-mir-252-1, cqu-mir-278, cqu-mir-1175, cqu-mir-12, cqu-mir-11, cqu-mir-285, cqu-mir-1891, cqu-mir-31, cqu-mir-1890, cqu-mir-33, cqu-mir-1889, cqu-mir-375-1, cqu-mir-252-2, cqu-mir-375-2, aga-mir-2944b, aga-mir-2945, aga-mir-285, aga-mir-33, aga-mir-31
recognition sites Mean MFE (Kcal/Mol) Recognition site start position on lincRNA_1317 miR-278-5p 5 -22.40 307, 749, 1112, 1260, 1491 miR-252-3p 4 -21.15 162, 629, 1560, 3946 miR-11-5p 3 -21.67 2248, 2286, 3328 miR-1890 3 -21.17 1489, 2712, 3602 miR-263a-3p 3 -21.47 2208, 2545, 3336 miR-33 3 -24.90 1545, 1810, 2669 miR-34-5p 3 -25.03 1020, 1232, 1379 miR-9b 3 -24.03 2034, 2891, 3603 let-7 2 -22.20 2747, 2817 miR-1 2 -22.80 1165, 2528 miR-1175-3p 2 -20.65 1489, 3274 miR-12-5p 2 -25.60 632, 1575 miR-1889-3p 2 -20.80 1268, 3988 miR-1891 2 -21.10 162, 2349 miR-282-5p 2 -25.70 1232, 1297 miR-2944b-3p 2 -22.05 1255, 3797 miR-2945-5p 2 -23.00 770, 1209 miR-31 2 -25.70 819, 871 miR-375 2 -22.25 66, 3293 miR-92b-5p 2 -23.05 1042, 3788 miR-9a 2 -20.65 170, 3500 We also used LncTar algorithm to predict any direct interaction between lincRNA_1317 and DENV-2 genome.
[score:2]
recognition sites Mean MFE (Kcal/Mol) Recognition site start position on lincRNA_1317 miR-278-5p 5 -22.40 307, 749, 1112, 1260, 1491 miR-252-3p 4 -21.15 162, 629, 1560, 3946 miR-11-5p 3 -21.67 2248, 2286, 3328 miR-1890 3 -21.17 1489, 2712, 3602 miR-263a-3p 3 -21.47 2208, 2545, 3336 miR-33 3 -24.90 1545, 1810, 2669 miR-34-5p 3 -25.03 1020, 1232, 1379 miR-9b 3 -24.03 2034, 2891, 3603 let-7 2 -22.20 2747, 2817 miR-1 2 -22.80 1165, 2528 miR-1175-3p 2 -20.65 1489, 3274 miR-12-5p 2 -25.60 632, 1575 miR-1889-3p 2 -20.80 1268, 3988 miR-1891 2 -21.10 162, 2349 miR-282-5p 2 -25.70 1232, 1297 miR-2944b-3p 2 -22.05 1255, 3797 miR-2945-5p 2 -23.00 770, 1209 miR-31 2 -25.70 819, 871 miR-375 2 -22.25 66, 3293 miR-92b-5p 2 -23.05 1042, 3788 miR-9a 2 -20.65 170, 3500We also used LncTar algorithm to predict any direct interaction between lincRNA_1317 and DENV-2 genome.
[score:2]
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Other miRNAs from this paper: dme-mir-2a-1, dme-mir-2a-2, dme-mir-2b-1, dme-mir-2b-2, dme-mir-8, dme-mir-9a, dme-mir-12, dme-mir-14, dme-mir-277, dme-mir-281-1, dme-mir-283, dme-mir-281-2, dme-mir-34, dme-mir-79, dme-mir-210, dme-mir-304, dme-mir-306, dme-mir-9b, dme-let-7, dme-mir-2c, aga-let-7, aga-mir-14, aga-mir-210, aga-mir-277, aga-mir-281, aga-mir-283, aga-mir-2-1, aga-mir-2-2, aga-mir-79, aga-mir-8, aga-mir-9a, aga-mir-9b, dme-mir-375, dme-mir-981, dme-mir-989, dme-mir-996, aga-mir-34, aga-mir-12, aga-mir-996, aga-mir-989, aga-mir-306, aga-mir-981, aga-mir-375, aae-mir-277, aae-mir-8, aae-mir-2a, aae-mir-306, aae-mir-281, aae-mir-989, aae-mir-14, aae-mir-34, aae-mir-996, aae-mir-12, aae-mir-981, aae-mir-283, aae-mir-210, aae-mir-79, aae-let-7, aae-mir-2b, aae-mir-2c, aae-mir-9a-1, aae-mir-9a-2, aae-mir-9b, aga-mir-2b, aga-mir-2c
Four of the six Anopheline miRNAs (miR-12, miR-375, miR-2a, and miR-76) have conserved sequences in Ae.
[score:1]
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