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5 publications mentioning mes-MIR167d

Open access articles that are associated with the species Manihot esculenta and mention the gene name MIR167d. Click the [+] symbols to view sentences that include the gene name, or the word cloud on the right for a summary.

1
[+] score: 40
Other miRNAs from this paper: rco-MIR156a, rco-MIR156b, rco-MIR156c, rco-MIR156d, rco-MIR156e, rco-MIR156f, rco-MIR156g, rco-MIR156h, rco-MIR159, rco-MIR160a, rco-MIR160b, rco-MIR162, rco-MIR164a, rco-MIR164b, rco-MIR164c, rco-MIR164d, rco-MIR166a, rco-MIR166b, rco-MIR166c, rco-MIR166d, rco-MIR166e, rco-MIR167a, rco-MIR167b, rco-MIR167c, rco-MIR168, rco-MIR169a, rco-MIR169b, rco-MIR169c, rco-MIR171a, rco-MIR171b, rco-MIR171c, rco-MIR171d, rco-MIR171e, rco-MIR171f, rco-MIR171g, rco-MIR172, rco-MIR319a, rco-MIR319b, rco-MIR319c, rco-MIR319d, rco-MIR390a, rco-MIR390b, rco-MIR393, rco-MIR395a, rco-MIR395b, rco-MIR395c, rco-MIR395d, rco-MIR395e, rco-MIR396, rco-MIR398a, rco-MIR398b, rco-MIR399a, rco-MIR399b, rco-MIR399c, rco-MIR399d, rco-MIR399e, rco-MIR399f, rco-MIR408, rco-MIR160c, mes-MIR159a, mes-MIR167a, mes-MIR168a, mes-MIR171a, mes-MIR172a, mes-MIR399a, mes-MIR408, mes-MIR156a, mes-MIR156b, mes-MIR156c, mes-MIR156d, mes-MIR156e, mes-MIR156f, mes-MIR156g, mes-MIR156h, mes-MIR156i, mes-MIR156j, mes-MIR156k, mes-MIR159b, mes-MIR159c, mes-MIR159d, mes-MIR160a, mes-MIR160b, mes-MIR160c, mes-MIR160d, mes-MIR160e, mes-MIR160f, mes-MIR160g, mes-MIR160h, mes-MIR162, mes-MIR164a, mes-MIR164b, mes-MIR164c, mes-MIR164d, mes-MIR166a, mes-MIR166b, mes-MIR166c, mes-MIR166d, mes-MIR166e, mes-MIR166f, mes-MIR166g, mes-MIR166h, mes-MIR166i, mes-MIR166j, mes-MIR167b, mes-MIR167c, mes-MIR167e, mes-MIR167f, mes-MIR167g, mes-MIR167h, mes-MIR169a, mes-MIR169b, mes-MIR169c, mes-MIR169d, mes-MIR169e, mes-MIR169f, mes-MIR169g, mes-MIR169h, mes-MIR169i, mes-MIR169j, mes-MIR169k, mes-MIR169l, mes-MIR169m, mes-MIR169n, mes-MIR169o, mes-MIR169p, mes-MIR169q, mes-MIR169r, mes-MIR169s, mes-MIR169t, mes-MIR169u, mes-MIR169v, mes-MIR169w, mes-MIR169x, mes-MIR169y, mes-MIR169z, mes-MIR169aa, mes-MIR169ab, mes-MIR169ac, mes-MIR171b, mes-MIR171c, mes-MIR171d, mes-MIR171e, mes-MIR171f, mes-MIR171g, mes-MIR171h, mes-MIR171i, mes-MIR171j, mes-MIR171k, mes-MIR172b, mes-MIR172c, mes-MIR172d, mes-MIR172e, mes-MIR172f, mes-MIR319a, mes-MIR319b, mes-MIR319c, mes-MIR319d, mes-MIR319e, mes-MIR319f, mes-MIR319g, mes-MIR319h, mes-MIR390, mes-MIR393a, mes-MIR393b, mes-MIR393c, mes-MIR393d, mes-MIR395a, mes-MIR395b, mes-MIR395c, mes-MIR395d, mes-MIR395e, mes-MIR396a, mes-MIR396b, mes-MIR396c, mes-MIR396d, mes-MIR396e, mes-MIR396f, mes-MIR399b, mes-MIR399c, mes-MIR399d, mes-MIR399e, mes-MIR399f, mes-MIR399g, mes-MIR477h, mes-MIR477i, mes-MIR477a, mes-MIR477b, mes-MIR477c, mes-MIR477d, mes-MIR477e, mes-MIR477f, mes-MIR477g, mes-MIR482, mes-MIR828a, mes-MIR828b, mes-MIR171l, mes-MIR398, mes-MIR399h, mes-MIR477j, mes-MIR477k, mes-MIR2118, mes-MIR3627, mes-MIR169ad
Not only did miRNAs target Auxin response factors, e. g., miR167 targeted ARF8, but secondary tasi-ARFs originating from the three TAS3 genes targeted auxin response factors as well, e. g., tasiARF1 and tasiARF3 targeted ARF3 (002399 m) (Figure  4). [score:9]
miR167, miR390 and miR393 were also differentially expressed under chilling stress; miR167 was up-regulated under CA while miR393 was up-regulated under CCA in reference to the normal condition. [score:9]
As expected, the three TAS3 loci and the targeting miRNA (i. e., miR390), 3 auxin response factors, and auxin signaling F-box genes were targeted by miR167 and miR393 and two GRAS family transcription factors were targets of miR171. [score:7]
More importantly, miR167 has been reported to target auxin response factors, important transcription factors that regulate auxin response genes. [score:4]
CS 11(2), 1(6), 0(1) miR390-TAS3c binding site #2 CA + CCA 5(1) CS 5(1) miR167-ARF8 CA + CCA 9(1), 7(1) 001923 m ARF8 auxin response factor 8 miR393-ABF3 NC 10(1), 17(1) 004520 m AFB3 auxin signaling F-box 3 CA + CCA 11(8) CS 11(7) tasiAFR3-ARF3 CA + CCA 11(1) 002399 m ETT/ARF3 Transcriptional factor B3 family protein/auxin-responsive factor AUX/IAA-related CS 11(6) tasiARF1-ARF3 CS 11(1) 002399 m ETT/ARF3 tasiARF1-ARF4 CA + CCA 10(1) 001979 m ARF4 auxin response factor 4 CS 10(1) tasiARF2-NAC2 CS 11(2) 027253 m NAC2 NAC domain containing protein 2 siReport31-CUL4 CA + CCA 18(1) 001768 m CUL4 cullin4 Each target site was detected by ten clones. [score:3]
The miRNAs that we tested could indeed cleave their targets, as shown by the cleavage sites of miR167 on ARF8 and that of miR393 on ABF3 (Table  4). [score:3]
For example, miR167 and miR393 were reported to be dysregulated in Cassava of the current study and A. thaliana and wheat [40, 42, 43]. [score:2]
Among them, a newly reported candidate, reported-31 [31], counted for 138,426 of the total reads and ranked the 4-th most abundant among all miRNA families that were detected; it was only less abundant than miR156i/j/k, miR166 (all eight members), and miR167d/e/f (Additional file 2: Table S4). [score:1]
Another 10 annotated miRNA families – miR159, miR162, miR164, miR167, miR168, miR169, miR172, miR393, miR396, and miR398 – were also conserved in at least eight species (Table  2). [score:1]
For example, two miRNA families (miR159 and miR167), which had more than 7 K reads, can also be detected in qRT-PCR validation (Figure  1B, Additional file 2: Tables S4 and S6). [score:1]
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2
[+] score: 20
10 conserved miRNA families had highly increased expression (log [2]fold > 2) in response to Xam infection (Figure 2a), including miR160 and miR167 families which are both known to target auxin response factors (ARFs) [13] and miR393 and miR390 families which are also known to regulate auxin signaling [13]. [score:6]
Predicted targets for miR160 in cassava were ARF-like genes whereas predicted targets for miR167 included phosphatases and peptidases. [score:5]
Four families (miR167, miR397, miR894 and Cass_miRJ) had among their possible targets genes involved in starch biosynthesis or metabolism, as identified by similarity with genes in the KEGG pathway (map00500), which could be important focus points for biotechnological strategies aiming at bioethanol production. [score:3]
The repertoire of known bacterial-responsive miRNAs has increased and includes several families known to regulate hormone signaling, such as miR160, miR167 and miR390 involved in auxin signaling, miR159 involved in ABA signaling and miR319 involved in jasmonic acid signaling [13- 15]. [score:2]
miRNAs induction was found to be involved in regulating auxin signaling: miR160, miR167, miR390 and miR393 [11, 13]. [score:2]
It has been found that ARF binding sites are over-represented in auxin-related miRNA families like miR160 and miR167, thus forming a regulatory loop [40]. [score:2]
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3
[+] score: 13
Other miRNAs from this paper: mes-MIR159a, mes-MIR167a, mes-MIR168a, mes-MIR171a, mes-MIR172a, mes-MIR394a, mes-MIR399a, mes-MIR156a, mes-MIR156b, mes-MIR156c, mes-MIR156d, mes-MIR156e, mes-MIR156f, mes-MIR156g, mes-MIR156h, mes-MIR156i, mes-MIR156j, mes-MIR156k, mes-MIR159b, mes-MIR159c, mes-MIR159d, mes-MIR160a, mes-MIR160b, mes-MIR160c, mes-MIR160d, mes-MIR160e, mes-MIR160f, mes-MIR160g, mes-MIR160h, mes-MIR162, mes-MIR164a, mes-MIR164b, mes-MIR164c, mes-MIR164d, mes-MIR166a, mes-MIR166b, mes-MIR166c, mes-MIR166d, mes-MIR166e, mes-MIR166f, mes-MIR166g, mes-MIR166h, mes-MIR166i, mes-MIR166j, mes-MIR167b, mes-MIR167c, mes-MIR167e, mes-MIR167f, mes-MIR167g, mes-MIR167h, mes-MIR169a, mes-MIR169b, mes-MIR169c, mes-MIR169d, mes-MIR169e, mes-MIR169f, mes-MIR169g, mes-MIR169h, mes-MIR169i, mes-MIR169j, mes-MIR169k, mes-MIR169l, mes-MIR169m, mes-MIR169n, mes-MIR169o, mes-MIR169p, mes-MIR169q, mes-MIR169r, mes-MIR169s, mes-MIR169t, mes-MIR169u, mes-MIR169v, mes-MIR169w, mes-MIR169x, mes-MIR169y, mes-MIR169z, mes-MIR169aa, mes-MIR169ab, mes-MIR169ac, mes-MIR171b, mes-MIR171c, mes-MIR171d, mes-MIR171e, mes-MIR171f, mes-MIR171g, mes-MIR171h, mes-MIR171i, mes-MIR171j, mes-MIR171k, mes-MIR172b, mes-MIR172c, mes-MIR172d, mes-MIR172e, mes-MIR172f, mes-MIR319a, mes-MIR319b, mes-MIR319c, mes-MIR319d, mes-MIR319e, mes-MIR319f, mes-MIR319g, mes-MIR319h, mes-MIR394b, mes-MIR394c, mes-MIR396a, mes-MIR396b, mes-MIR396c, mes-MIR396d, mes-MIR396e, mes-MIR396f, mes-MIR397, mes-MIR399b, mes-MIR399c, mes-MIR399d, mes-MIR399e, mes-MIR399f, mes-MIR399g, mes-MIR477h, mes-MIR477i, mes-MIR477a, mes-MIR477b, mes-MIR477c, mes-MIR477d, mes-MIR477e, mes-MIR477f, mes-MIR477g, mes-MIR535a, mes-MIR535b, mes-MIR2950, mes-MIR171l, mes-MIR398, mes-MIR399h, mes-MIR477j, mes-MIR477k, mes-MIR535c, mes-MIR535d, mes-MIR169ad
Other miRNA targets that are functional genes included genes that encode the AGPase large subunit 2 (miR394), an F-box protein (miR394), RD19 (miR167), a member of the zinc finger family (miR172), IRX12 (miR397) and two disease resistance proteins (NBS-LRR class; miR396 and −30). [score:5]
Many of these targets encode transcription factors; for example, they include the SPL (target of miR156 and miR535), MYB (miR159, miR319 and new-18), HAM3 (miR171), NAC (miR164), ARF (miR160, miR167 and miR169), TCP (miR319), GRF (miR396 and miR477) and SIGMA (new-11) genes. [score:5]
Several miRNAs are involved in starch accumulation in rice [6], and five of them (miR159, miR160, miR164, miR167 and miR319) also had the same targets in cassava. [score:3]
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4
[+] score: 3
Other miRNAs from this paper: mes-MIR159a, mes-MIR167a, mes-MIR171a, mes-MIR156a, mes-MIR156b, mes-MIR156c, mes-MIR156d, mes-MIR156e, mes-MIR156f, mes-MIR156g, mes-MIR156h, mes-MIR156i, mes-MIR156j, mes-MIR156k, mes-MIR160a, mes-MIR160b, mes-MIR160c, mes-MIR160d, mes-MIR160e, mes-MIR160f, mes-MIR160g, mes-MIR160h, mes-MIR166a, mes-MIR166b, mes-MIR166c, mes-MIR166d, mes-MIR166e, mes-MIR166f, mes-MIR166g, mes-MIR166h, mes-MIR166i, mes-MIR166j, mes-MIR167b, mes-MIR167c, mes-MIR167e, mes-MIR167f, mes-MIR167g, mes-MIR167h, mes-MIR169a, mes-MIR169b, mes-MIR169c, mes-MIR169d, mes-MIR169e, mes-MIR169f, mes-MIR169g, mes-MIR169h, mes-MIR169i, mes-MIR169j, mes-MIR169k, mes-MIR169l, mes-MIR169m, mes-MIR169n, mes-MIR169o, mes-MIR169p, mes-MIR169q, mes-MIR169r, mes-MIR169s, mes-MIR169t, mes-MIR169u, mes-MIR169v, mes-MIR169w, mes-MIR169x, mes-MIR169y, mes-MIR169z, mes-MIR169aa, mes-MIR169ab, mes-MIR169ac, mes-MIR171b, mes-MIR171c, mes-MIR171d, mes-MIR171e, mes-MIR171f, mes-MIR171g, mes-MIR171h, mes-MIR171i, mes-MIR171j, mes-MIR171k, mes-MIR319f, mes-MIR390, mes-MIR393a, mes-MIR393b, mes-MIR393c, mes-MIR393d, mes-MIR395a, mes-MIR395b, mes-MIR395c, mes-MIR395d, mes-MIR395e, mes-MIR477h, mes-MIR477i, mes-MIR477a, mes-MIR477b, mes-MIR477c, mes-MIR477d, mes-MIR477e, mes-MIR477f, mes-MIR477g, mes-MIR482, mes-MIR530b, mes-MIR535a, mes-MIR535b, mes-MIR828a, mes-MIR828b, mes-MIR171l, mes-MIR390b, mes-MIR397b, mes-MIR398, mes-MIR399h, mes-MIR477j, mes-MIR477k, mes-MIR2118, mes-MIR482b, mes-MIR482d, mes-MIR535c, mes-MIR535d, mes-MIR1446b, mes-MIR6445, mes-MIR9386, mes-MIR169ad, mes-MIR11891, mes-MIR11892
In addition to the miR393 family members, miR167 and miR160 families also targeted AUXIN RESPONSE FACTOR genes. [score:3]
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5
[+] score: 1
Other miRNAs from this paper: mes-MIR159a, mes-MIR167a, mes-MIR168a, mes-MIR171a, mes-MIR172a, mes-MIR399a, mes-MIR408, mes-MIR156a, mes-MIR156b, mes-MIR156c, mes-MIR156d, mes-MIR156e, mes-MIR156f, mes-MIR156g, mes-MIR156h, mes-MIR156i, mes-MIR156j, mes-MIR156k, mes-MIR159b, mes-MIR159c, mes-MIR159d, mes-MIR160a, mes-MIR160b, mes-MIR160c, mes-MIR160d, mes-MIR160e, mes-MIR160f, mes-MIR160g, mes-MIR160h, mes-MIR162, mes-MIR164a, mes-MIR164b, mes-MIR164c, mes-MIR164d, mes-MIR166a, mes-MIR166b, mes-MIR166c, mes-MIR166d, mes-MIR166e, mes-MIR166f, mes-MIR166g, mes-MIR166h, mes-MIR166i, mes-MIR166j, mes-MIR167b, mes-MIR167c, mes-MIR167e, mes-MIR167f, mes-MIR167g, mes-MIR167h, mes-MIR169a, mes-MIR169b, mes-MIR169c, mes-MIR169d, mes-MIR169e, mes-MIR169f, mes-MIR169g, mes-MIR169h, mes-MIR169i, mes-MIR169j, mes-MIR169k, mes-MIR169l, mes-MIR169m, mes-MIR169n, mes-MIR169o, mes-MIR169p, mes-MIR169q, mes-MIR169r, mes-MIR169s, mes-MIR169t, mes-MIR169u, mes-MIR169v, mes-MIR169w, mes-MIR169x, mes-MIR169y, mes-MIR169z, mes-MIR169aa, mes-MIR169ab, mes-MIR169ac, mes-MIR171b, mes-MIR171c, mes-MIR171d, mes-MIR171e, mes-MIR171f, mes-MIR171g, mes-MIR171h, mes-MIR171i, mes-MIR171j, mes-MIR171k, mes-MIR172b, mes-MIR172c, mes-MIR172d, mes-MIR172e, mes-MIR172f, mes-MIR319a, mes-MIR319b, mes-MIR319c, mes-MIR319d, mes-MIR319e, mes-MIR319f, mes-MIR319g, mes-MIR319h, mes-MIR390, mes-MIR393a, mes-MIR393b, mes-MIR393c, mes-MIR393d, mes-MIR395a, mes-MIR395b, mes-MIR395c, mes-MIR395d, mes-MIR395e, mes-MIR396a, mes-MIR396b, mes-MIR396c, mes-MIR396d, mes-MIR396e, mes-MIR396f, mes-MIR397, mes-MIR399b, mes-MIR399c, mes-MIR399d, mes-MIR399e, mes-MIR399f, mes-MIR399g, mes-MIR482, mes-MIR535a, mes-MIR535b, mes-MIR827, mes-MIR2275, mes-MIR171l, mes-MIR398, mes-MIR399h, mes-MIR2118, mes-MIR535c, mes-MIR535d, mes-MIR169ad
Ten families (miR162, miR164, miR167, miR168, miR169, miR172, miR393, miR399 and miR827) are present in all angiosperm lineages (Fig 8). [score:1]
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