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20 publications mentioning zma-MIR393b

Open access articles that are associated with the species Zea mays and mention the gene name MIR393b. Click the [+] symbols to view sentences that include the gene name, or the word cloud on the right for a summary.

1
[+] score: 36
miR164 regulates root or shoot development by repressing NAC/NAM proteins whereas miR393 is negative regulator of TIR1-like (F-box) and the cleavage of F-box gene down-regulate auxin signals. [score:7]
The regulatory pathway consisting of miR393 that targets TIR1, a negative regulator in auxin signaling [88], may participate in lateral root development in Arabidopsis [79]. [score:6]
Up-regulation of miR393 only in Hz32 may inhibit lateral root production signal at the early stage of hypoxia. [score:6]
These 13 targets are targeted by 8 miRNA families (miR159, miR164, miR167, miR172, miR319, miR393, miR528, miRn7) (Table S9), which are active participants in the signal transduction at the early stage of hypoxia conditions. [score:5]
In our study, miR393 targeted TIR1-like (F-box) gene (GRMZM2G135978) (Figure 6 and 8), which was co-expressed with miR393 (Figure 5). [score:5]
miR164, miR167 and miR393 have been shown to be involved in root cap formation, lateral root development, or adventitious rooting through the auxin signal which is further transduced by their downstream NAC/NAM, ARF and F-box targets respectively [79]. [score:4]
miR159, miR164, miR167,miR393, miR408 and miR528, which are involved in root cap formation, lateral root development, root/shoot elongation and plant cell detoxification by scavenging the reactive oxygen species and thus protecting damage to cellular structure were induced under short waterlogging conditions in waterlogging tolerant line Hz32 and repressed in waterlogging sensitive line Mo17. [score:2]
In B73, the mid-tolerant line, miR159, miR408 and miR528 (similar to Hz32) are induced while miR164, miR167 and miR393 (similar to Mo17) are reduced, suggested the repression of ABA and cupredoxin signals and the induction of auxin signals at the initial stages of waterlogging. [score:1]
[1 to 20 of 8 sentences]
2
[+] score: 33
miR393 might reduce the expression of its target, thereby promoting the elongation and development in the corresponding internodes under the ears of different inbred lines in maize. [score:6]
The expression levels of the miR393 target were higher in the 8 [th] and the 9 [th] internodes of ‘Xun928’ than in the corresponding internodes of ‘Xun9058’. [score:5]
However, the expression level of the targets of zma-miR164f, h, zma-miR167, zma-miR169 and zma-miR393 were not negatively correlated with the miRNA levels in the 7 [th] to 9 [th] internodes of the two inbred lines. [score:5]
The miR393 target was negatively regulated by miR393 in these two internodes. [score:4]
The miR393 has been implicated in down -regulating the expression of TIR1/ AFB genes in Arabidopsis [22, 23]. [score:4]
In this study, AFB2 was predicted to be the target of miR393. [score:3]
The targets of the miR160 and miR393 families belonged to the TF genes of the ARFs and auxin signaling F-BOX 2 (AFB2) families, respectively. [score:3]
However, the miRNAs zma-miR164, zma-miR167, zma-miR169 and zma-miR393 had multiple members and targeted multiple genes. [score:3]
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3
[+] score: 32
Other miRNAs from this paper: zma-MIR156d, zma-MIR156f, zma-MIR156g, zma-MIR156b, zma-MIR156c, zma-MIR156e, zma-MIR156a, zma-MIR156h, zma-MIR156i, zma-MIR160a, zma-MIR160c, zma-MIR160d, zma-MIR160b, zma-MIR164a, zma-MIR164d, zma-MIR164b, zma-MIR164c, zma-MIR169a, zma-MIR169b, zma-MIR160e, zma-MIR166a, zma-MIR166h, zma-MIR166e, zma-MIR166i, zma-MIR166f, zma-MIR166g, zma-MIR166b, zma-MIR166c, zma-MIR166d, zma-MIR171a, zma-MIR171b, zma-MIR172a, zma-MIR172d, zma-MIR172b, zma-MIR172c, zma-MIR171d, zma-MIR171f, zma-MIR395b, zma-MIR395c, zma-MIR395a, zma-MIR396b, zma-MIR396a, zma-MIR399a, zma-MIR399c, zma-MIR399b, zma-MIR399d, zma-MIR399e, zma-MIR399f, zma-MIR156j, zma-MIR159a, zma-MIR159b, zma-MIR159c, zma-MIR159d, zma-MIR166k, zma-MIR166j, zma-MIR168a, zma-MIR168b, zma-MIR169c, zma-MIR169f, zma-MIR169g, zma-MIR169h, zma-MIR169i, zma-MIR169k, zma-MIR169j, zma-MIR169d, zma-MIR169e, zma-MIR171c, zma-MIR171j, zma-MIR171e, zma-MIR171i, zma-MIR171g, zma-MIR172e, zma-MIR166l, zma-MIR166m, zma-MIR171k, zma-MIR171h, zma-MIR393a, zma-MIR156k, zma-MIR160f, zma-MIR396c, zma-MIR396d, zma-MIR2118a, zma-MIR2118b, zma-MIR2118c, zma-MIR2118d, zma-MIR2118e, zma-MIR2118f, zma-MIR2118g, zma-MIR2275a, zma-MIR2275b, zma-MIR2275c, zma-MIR2275d, zma-MIR156l, zma-MIR159e, zma-MIR159f, zma-MIR159g, zma-MIR159h, zma-MIR159i, zma-MIR159j, zma-MIR159k, zma-MIR160g, zma-MIR164e, zma-MIR164f, zma-MIR164g, zma-MIR164h, zma-MIR166n, zma-MIR169l, zma-MIR169m, zma-MIR169n, zma-MIR169o, zma-MIR169p, zma-MIR169q, zma-MIR169r, zma-MIR171l, zma-MIR171m, zma-MIR171n, zma-MIR390a, zma-MIR393c, zma-MIR395d, zma-MIR395e, zma-MIR395f, zma-MIR395g, zma-MIR395h, zma-MIR395i, zma-MIR395j, zma-MIR395k, zma-MIR395l, zma-MIR395m, zma-MIR395n, zma-MIR395o, zma-MIR395p, zma-MIR396e, zma-MIR396f, zma-MIR396g, zma-MIR396h, zma-MIR399g, zma-MIR399h, zma-MIR399i, zma-MIR399j, zma-MIR529, zma-MIR390b
The target distributions of miRNA families themselves were investigated, which showed that zma-miR166, zma-miR396, zma-miR529, zma-miR164, and zma-miR169 had the most targets, with 6, 6, 5, and 5 target mRNAs, respectively, while zma-miR160, zma-miR390, zma-miR393, and zma-miR2275 had the fewest target mRNAs, with a single target each (Figure 3). [score:9]
The miR393 family that targets the TIR1 (transport inhibitor response 1) enzyme was up-regulated in V-372. [score:8]
Conversely, in V-372, members of 7 families—zma-miR164, zma-miR169, zma-miR393, zma-miR396, zma-miR399, zma-miR529, and zma-miR2275—were significantly up-regulated; and zma-miR156, zma-miR159, zma-miR166 and zma-miR395 families were significantly down-regulated. [score:7]
Among the 13 drought-related miRNA families, some families had common targets, i. e., zma-miR160, zma-miR390, and zma-miR393 were mostly related to the ARF (auxin response factor) transcription factor, which plays an active role in ABA and auxin mediated signaling under drought conditions (Ding et al., 2013). [score:3]
m Protein transport inhibitor response 1-like zma-miR393-a,c gnl|GNOMON|5722063. [score:3]
m Activator of 90 kda heat shock protein atpase miR393 zma-miR393-a,c gnl|GNOMON|39086093. [score:1]
m Atpsulfurylase zma-miR393-a,c gnl|GNOMON|92168013. [score:1]
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4
[+] score: 29
Other miRNAs from this paper: zma-MIR156d, zma-MIR156f, zma-MIR156g, zma-MIR156b, zma-MIR156c, zma-MIR156e, zma-MIR156a, zma-MIR156h, zma-MIR156i, zma-MIR160a, zma-MIR160c, zma-MIR160d, zma-MIR160b, zma-MIR164a, zma-MIR164d, zma-MIR164b, zma-MIR164c, zma-MIR169a, zma-MIR169b, zma-MIR167a, zma-MIR167b, zma-MIR167d, zma-MIR167c, zma-MIR160e, zma-MIR166a, zma-MIR162, zma-MIR166h, zma-MIR166e, zma-MIR166i, zma-MIR166f, zma-MIR166g, zma-MIR166b, zma-MIR166c, zma-MIR166d, zma-MIR172a, zma-MIR172d, zma-MIR172b, zma-MIR172c, zma-MIR394a, zma-MIR394b, zma-MIR395b, zma-MIR395c, zma-MIR395a, zma-MIR399a, zma-MIR399c, zma-MIR399b, zma-MIR399d, zma-MIR399e, zma-MIR399f, zma-MIR156j, zma-MIR159a, zma-MIR159b, zma-MIR159c, zma-MIR159d, zma-MIR319a, zma-MIR319c, zma-MIR319b, zma-MIR319d, zma-MIR166k, zma-MIR166j, zma-MIR167e, zma-MIR167f, zma-MIR167g, zma-MIR167h, zma-MIR167i, zma-MIR168a, zma-MIR168b, zma-MIR169c, zma-MIR169f, zma-MIR169g, zma-MIR169h, zma-MIR169i, zma-MIR169k, zma-MIR169j, zma-MIR169d, zma-MIR169e, zma-MIR172e, zma-MIR166l, zma-MIR166m, zma-MIR393a, zma-MIR408a, zma-MIR156k, zma-MIR160f, zma-MIR2118a, zma-MIR2118b, zma-MIR2118c, zma-MIR2118d, zma-MIR2118e, zma-MIR2118f, zma-MIR2118g, zma-MIR2275a, zma-MIR2275b, zma-MIR2275c, zma-MIR2275d, zma-MIR156l, zma-MIR159e, zma-MIR159f, zma-MIR159g, zma-MIR159h, zma-MIR159i, zma-MIR159j, zma-MIR159k, zma-MIR160g, zma-MIR164e, zma-MIR164f, zma-MIR164g, zma-MIR164h, zma-MIR166n, zma-MIR167j, zma-MIR169l, zma-MIR169m, zma-MIR169n, zma-MIR169o, zma-MIR169p, zma-MIR169q, zma-MIR169r, zma-MIR393c, zma-MIR395d, zma-MIR395e, zma-MIR395f, zma-MIR395g, zma-MIR395h, zma-MIR395i, zma-MIR395j, zma-MIR395k, zma-MIR395l, zma-MIR395m, zma-MIR395n, zma-MIR395o, zma-MIR395p, zma-MIR397a, zma-MIR397b, zma-MIR398a, zma-MIR398b, zma-MIR399g, zma-MIR399h, zma-MIR399i, zma-MIR399j, zma-MIR408b, zma-MIR482, zma-MIR528a, zma-MIR528b, zma-MIR529, zma-MIR827, zma-MIR1432, zma-MIR444a, zma-MIR444b
We proposed that the down-regulation of miR393, miR167 and miR164 in imbibed seed might play important roles in dry-to-germinating seed transition by regulating auxin perception, transduction and function. [score:5]
A-K represented the expression profiles of some predicted target genes of miR156, miR164, miR166, miR167, miR168, miR169, miR319, miR393, miR408, miR528 and zma-miRn6 in dry and imbibed seeds, respectively. [score:5]
These 17 targets were targets of 11 miRNA families (miR156, miR164, miR166, miR167, miR168, miR169, miR319, miR393, miR408, miR528 and zma-miRn6). [score:5]
The 12 down-regulated miRNA families were miR156, miR159, miR164, miR166, miR167, miR168, miR169, miR172, miR319, miR393, miR394 and miR397. [score:4]
Whereas miR156 and miR166, although they both were down-regulated in imbibed seed only by 1.5 folds, their basal frequencies in dry seeds were 525,736 and 432,679, respectively, much higher than those of miR159, miR393 and miR394. [score:4]
For example, miR159, miR393 and miR394 were down-regulated by 7.7, 5.3 and 5.5 folds, respectively, in imbibed seeds compared to those in dry seeds. [score:3]
In Arabidopsis, miR393 has been shown function via the auxin pathway by post-transcriptional regulation of auxin receptorsTIR1, AFB2 and AFB3 [50]. [score:2]
MiR164, miR167 and miR393 were also significantly decreased in maize imbibed seed. [score:1]
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5
[+] score: 19
Other miRNAs from this paper: zma-MIR156d, zma-MIR156f, zma-MIR156g, zma-MIR156b, zma-MIR156c, zma-MIR156e, zma-MIR156a, zma-MIR156h, zma-MIR156i, zma-MIR160a, zma-MIR160c, zma-MIR160d, zma-MIR160b, zma-MIR164a, zma-MIR164d, zma-MIR164b, zma-MIR164c, zma-MIR169a, zma-MIR169b, zma-MIR167a, zma-MIR167b, zma-MIR167d, zma-MIR167c, zma-MIR160e, zma-MIR166a, zma-MIR166h, zma-MIR166e, zma-MIR166i, zma-MIR166f, zma-MIR166g, zma-MIR166b, zma-MIR166c, zma-MIR166d, zma-MIR171a, zma-MIR171b, zma-MIR171d, zma-MIR171f, zma-MIR395b, zma-MIR395c, zma-MIR395a, zma-MIR396b, zma-MIR396a, zma-MIR156j, zma-MIR159a, zma-MIR159b, zma-MIR159c, zma-MIR159d, zma-MIR166k, zma-MIR166j, zma-MIR167e, zma-MIR167f, zma-MIR167g, zma-MIR167h, zma-MIR167i, zma-MIR168a, zma-MIR168b, zma-MIR169c, zma-MIR169f, zma-MIR169g, zma-MIR169h, zma-MIR169i, zma-MIR169k, zma-MIR169j, zma-MIR169d, zma-MIR169e, zma-MIR171c, zma-MIR171j, zma-MIR171e, zma-MIR171i, zma-MIR171g, zma-MIR166l, zma-MIR166m, zma-MIR171k, zma-MIR171h, zma-MIR393a, zma-MIR156k, zma-MIR160f, zma-MIR396c, zma-MIR396d, zma-MIR156l, zma-MIR159e, zma-MIR159f, zma-MIR159g, zma-MIR159h, zma-MIR159i, zma-MIR159j, zma-MIR159k, zma-MIR160g, zma-MIR164e, zma-MIR164f, zma-MIR164g, zma-MIR164h, zma-MIR166n, zma-MIR167j, zma-MIR169l, zma-MIR169m, zma-MIR169n, zma-MIR169o, zma-MIR169p, zma-MIR169q, zma-MIR169r, zma-MIR171l, zma-MIR171m, zma-MIR171n, zma-MIR390a, zma-MIR393c, zma-MIR395d, zma-MIR395e, zma-MIR395f, zma-MIR395g, zma-MIR395h, zma-MIR395i, zma-MIR395j, zma-MIR395k, zma-MIR395l, zma-MIR395m, zma-MIR395n, zma-MIR395o, zma-MIR395p, zma-MIR396e, zma-MIR396f, zma-MIR396g, zma-MIR396h, zma-MIR528a, zma-MIR528b, zma-MIR827
Recent studies in mo del species have provided evidence that miR160 targets ARF10, ARF16, and ARF17, and that miR393b targets TIR1/AFB2, the gene encoding an auxin receptor [64], [65]. [score:5]
Additionally, three targets (GRMZM2G135978, GRMZM2G137451, and GRMZM5G848945) encoding auxin receptors exhibited opposite expression patterns to zma-miR393 (Figure 5; Table S3). [score:5]
Observed down-regulation of zma-miR160 and zma-miR393 therefore implies increased accumulation of ARF10, ARF16, ARF17, and TIR1/AFB2 during pollen-silk interactions, indicating activation of auxin signal transduction. [score:4]
miR393 is suggested to function as an integrator of complex environmental cues through regulation of auxin receptors [66]. [score:2]
Reduced fertility observed in the mutant miR393b-1 supports the notion that zma-miR393 plays an important role in pollen-silk interactions [66]. [score:1]
Five of them—miR169, miR171, miR393, miR395, and miR528—are responsive to drought and/or salt stress [47]– [53]. [score:1]
We propose that during pollination processes, zma-miR393 responds to signals released from pollen grains and tubes by activating auxin signal transduction, which enables silk cells to achieve suitable states for acceptance and guidance of elongating pollen tubes. [score:1]
[1 to 20 of 7 sentences]
6
[+] score: 17
Other miRNAs from this paper: zma-MIR156d, zma-MIR156f, zma-MIR156g, zma-MIR156b, zma-MIR156c, zma-MIR156e, zma-MIR156a, zma-MIR156h, zma-MIR156i, zma-MIR164a, zma-MIR164d, zma-MIR164b, zma-MIR164c, zma-MIR169a, zma-MIR169b, zma-MIR167a, zma-MIR167b, zma-MIR167d, zma-MIR167c, zma-MIR166a, zma-MIR166h, zma-MIR166e, zma-MIR166i, zma-MIR166f, zma-MIR166g, zma-MIR166b, zma-MIR166c, zma-MIR166d, zma-MIR171a, zma-MIR171b, zma-MIR172a, zma-MIR172d, zma-MIR172b, zma-MIR172c, zma-MIR171d, zma-MIR171f, zma-MIR395b, zma-MIR395c, zma-MIR395a, zma-MIR399a, zma-MIR399c, zma-MIR399b, zma-MIR399d, zma-MIR399e, zma-MIR399f, zma-MIR156j, zma-MIR159a, zma-MIR159b, zma-MIR159c, zma-MIR159d, zma-MIR166k, zma-MIR166j, zma-MIR167e, zma-MIR167f, zma-MIR167g, zma-MIR167h, zma-MIR167i, zma-MIR169c, zma-MIR169f, zma-MIR169g, zma-MIR169h, zma-MIR169i, zma-MIR169k, zma-MIR169j, zma-MIR169d, zma-MIR169e, zma-MIR171c, zma-MIR171j, zma-MIR171e, zma-MIR171i, zma-MIR171g, zma-MIR172e, zma-MIR166l, zma-MIR166m, zma-MIR171k, zma-MIR171h, zma-MIR393a, zma-MIR156k, zma-MIR156l, zma-MIR159e, zma-MIR159f, zma-MIR159g, zma-MIR159h, zma-MIR159i, zma-MIR159j, zma-MIR159k, zma-MIR164e, zma-MIR164f, zma-MIR164g, zma-MIR164h, zma-MIR166n, zma-MIR167j, zma-MIR169l, zma-MIR169m, zma-MIR169n, zma-MIR169o, zma-MIR169p, zma-MIR169q, zma-MIR169r, zma-MIR171l, zma-MIR171m, zma-MIR171n, zma-MIR390a, zma-MIR393c, zma-MIR395d, zma-MIR395e, zma-MIR395f, zma-MIR395g, zma-MIR395h, zma-MIR395i, zma-MIR395j, zma-MIR395k, zma-MIR395l, zma-MIR395m, zma-MIR395n, zma-MIR395o, zma-MIR395p, zma-MIR398a, zma-MIR398b, zma-MIR399g, zma-MIR399h, zma-MIR399i, zma-MIR399j, zma-MIR528a, zma-MIR528b, zma-MIR529, zma-MIR827, zma-MIR390b
With the exception of miR166, whose expression did not vary across the four stages, and miR169, miR172, miR393, and miR395, which all had relatively more expression at the 6 [th] DAP, the others were consistent with the sequencing data (Fig 3). [score:5]
Target genes of miR169, miR171 and miR172 families are transcription factors; and target genes of miR393, miR395 and miR827 families encode transporter related proteins (S2 Table), which are involved in signal transductions. [score:5]
Conserved miRNA families with higher expression at the transitional stage such as miR169, miR171, and miR393 might play roles in transcription regulation and signal transduction. [score:4]
We found that miR159, miR164, miR166, miR171, miR390, miR393, and miR529 families all accumulated to high levels during the very early stage of development (4–6 DAP), especially miR166. [score:2]
This group includes 11 conserved and 7 novel miRNA families, such as the miR169, miR171, miR172, miR393, miR395 and miR827 families. [score:1]
[1 to 20 of 5 sentences]
7
[+] score: 17
That is, they all (miR159 and its target with IAA; miR166, miR169, miR393, miR396, and their targets with ZR + iPA; miR159, miR396 and their targets with GA; miR396 and their targets with BR; miR159, miR396 and their targets with JA; miR160, miR164, miR166, miR169, miR172, and miR396 and their targets with ABA) showed a significant positive and/or negative correlation with the phytohormone levels. [score:13]
Eight known miRNAs (miR159, miR160, miR164, miR166, miR169, miR172, miR393, and miR396), four newly identified miRNAs, and 12 target genes were selected for qRT-PCR validation. [score:3]
43 −0.49−0.88 [**] T-miR166j (HB) AC187157.4_FGT005 −0.18−0.76 [*]−0.61 [*] −0.48 −0.53−0.89 [**] T-miR169p (NF-YA) GRMZM2G040349_T01,T02 0.06−0.66 [*]−0.71 [*] −0.52−0.64 [*]−0.70 [*] T-miR172e (AP2) GRMZM2G076602_T01 −0.48 −0.46 −0.24 −0.14 −0.20−0.87 [**] T-miR393b (AFB) GRMZM2G137451_T01, T02 0.22−0.80 [**]−0.83 [**] −0.61−0.64 [*] −0.46 T-miR396a (GRF) GRMZM2G033612_T02 0.18−0.84 [**]−0.85 [**]−0.74 [*]−0. [score:1]
[1 to 20 of 3 sentences]
8
[+] score: 14
Other miRNAs from this paper: zma-MIR156d, zma-MIR156f, zma-MIR156g, zma-MIR156b, zma-MIR156c, zma-MIR156e, zma-MIR156a, zma-MIR156h, zma-MIR156i, zma-MIR160a, zma-MIR160c, zma-MIR160d, zma-MIR160b, zma-MIR164a, zma-MIR164d, zma-MIR164b, zma-MIR164c, zma-MIR169a, zma-MIR169b, zma-MIR167a, zma-MIR167b, zma-MIR167d, zma-MIR167c, zma-MIR160e, zma-MIR166a, zma-MIR166h, zma-MIR166e, zma-MIR166i, zma-MIR166f, zma-MIR166g, zma-MIR166b, zma-MIR166c, zma-MIR166d, zma-MIR171a, zma-MIR171b, zma-MIR172a, zma-MIR172d, zma-MIR172b, zma-MIR172c, zma-MIR171d, zma-MIR171f, zma-MIR394a, zma-MIR394b, zma-MIR396b, zma-MIR396a, zma-MIR399a, zma-MIR399c, zma-MIR399b, zma-MIR399d, zma-MIR399e, zma-MIR399f, zma-MIR156j, zma-MIR159a, zma-MIR159b, zma-MIR159c, zma-MIR159d, zma-MIR319a, zma-MIR319c, zma-MIR319b, zma-MIR319d, zma-MIR166k, zma-MIR166j, zma-MIR167e, zma-MIR167f, zma-MIR167g, zma-MIR167h, zma-MIR167i, zma-MIR168a, zma-MIR168b, zma-MIR169c, zma-MIR169f, zma-MIR169g, zma-MIR169h, zma-MIR169i, zma-MIR169k, zma-MIR169j, zma-MIR169d, zma-MIR169e, zma-MIR171c, zma-MIR171j, zma-MIR171e, zma-MIR171i, zma-MIR171g, zma-MIR172e, zma-MIR166l, zma-MIR166m, zma-MIR171k, zma-MIR171h, zma-MIR393a, zma-MIR408a, zma-MIR156k, zma-MIR160f, zma-MIR396c, zma-MIR396d, zma-MIR2118a, zma-MIR2118b, zma-MIR2118c, zma-MIR2118d, zma-MIR2118e, zma-MIR2118f, zma-MIR2118g, zma-MIR156l, zma-MIR159e, zma-MIR159f, zma-MIR159g, zma-MIR159h, zma-MIR159i, zma-MIR159j, zma-MIR159k, zma-MIR160g, zma-MIR164e, zma-MIR164f, zma-MIR164g, zma-MIR164h, zma-MIR166n, zma-MIR167j, zma-MIR169l, zma-MIR169m, zma-MIR169n, zma-MIR169o, zma-MIR169p, zma-MIR169q, zma-MIR169r, zma-MIR171l, zma-MIR171m, zma-MIR171n, zma-MIR390a, zma-MIR393c, zma-MIR396e, zma-MIR396f, zma-MIR396g, zma-MIR396h, zma-MIR397a, zma-MIR397b, zma-MIR398a, zma-MIR398b, zma-MIR399g, zma-MIR399h, zma-MIR399i, zma-MIR399j, zma-MIR408b, zma-MIR528a, zma-MIR528b, zma-MIR827, zma-MIR390b, zma-MIR444a, zma-MIR444b
MiR393 -targeted transport inhibitor response protein 1 (TIR1) and auxin signaling F-box protein (AFBs) affect seed development in barley and nitrogen-promoted tillering in rice through the regulation of auxin signaling [47, 60]. [score:6]
MiR168, miR393, miR396 and miR398 were highly expressed in the endosperm at 15 DAP and 20 DAP, indicating their regulation function during middle and late development of the endosperm (Figure 3e). [score:5]
Li X. Xia K. Liang Z. Chen K. Gao C. Zhang M. MicroRNA393 is involved in nitrogen-promoted rice tillering through regulation of auxin signal transduction in axillary budsSci. [score:1]
Another conserved miRNA family, miR393, was found to accumulate more in the endosperm than in the embryo through three stages. [score:1]
Among them, miR166 was the most abundant family (17,602) followed by miR171 (11,988), miR827 (7686), miR167, miR396, miR528, miR156, miR408, miR160, miR390, miR159, miR444, miR319, miR398, miR168, miR394, miR164, miR393 and miR169 (Figure 3a). [score:1]
[1 to 20 of 5 sentences]
9
[+] score: 10
Other miRNAs from this paper: ath-MIR156a, ath-MIR156b, ath-MIR156c, ath-MIR156d, ath-MIR156e, ath-MIR156f, ath-MIR159a, ath-MIR160a, ath-MIR160b, ath-MIR160c, ath-MIR162a, ath-MIR162b, ath-MIR164a, ath-MIR164b, ath-MIR166a, ath-MIR166b, ath-MIR166c, ath-MIR166d, ath-MIR166e, ath-MIR166f, ath-MIR166g, ath-MIR167a, ath-MIR167b, ath-MIR169a, ath-MIR171a, ath-MIR172a, ath-MIR172b, ath-MIR159b, osa-MIR156a, osa-MIR156b, osa-MIR156c, osa-MIR156d, osa-MIR156e, osa-MIR156f, osa-MIR156g, osa-MIR156h, osa-MIR156i, osa-MIR156j, osa-MIR160a, osa-MIR160b, osa-MIR160c, osa-MIR160d, osa-MIR162a, osa-MIR164a, osa-MIR164b, osa-MIR166a, osa-MIR166b, osa-MIR166c, osa-MIR166d, osa-MIR166e, osa-MIR166f, osa-MIR167a, osa-MIR167b, osa-MIR167c, osa-MIR169a, osa-MIR171a, ath-MIR167d, ath-MIR169b, ath-MIR169c, ath-MIR169d, ath-MIR169e, ath-MIR169f, ath-MIR169g, ath-MIR169h, ath-MIR169i, ath-MIR169j, ath-MIR169k, ath-MIR169l, ath-MIR169m, ath-MIR169n, ath-MIR171b, ath-MIR171c, ath-MIR172c, ath-MIR172d, ath-MIR393a, ath-MIR393b, ath-MIR394a, ath-MIR394b, ath-MIR395a, ath-MIR395b, ath-MIR395c, ath-MIR395d, ath-MIR395e, ath-MIR395f, osa-MIR393a, osa-MIR394, osa-MIR395b, osa-MIR395d, osa-MIR395e, osa-MIR395g, osa-MIR395h, osa-MIR395i, osa-MIR395j, osa-MIR395k, osa-MIR395l, osa-MIR395s, osa-MIR395t, osa-MIR395c, osa-MIR395a, osa-MIR395f, osa-MIR395u, ath-MIR156g, ath-MIR156h, ath-MIR159c, ath-MIR164c, ath-MIR167c, ath-MIR172e, osa-MIR156k, osa-MIR156l, osa-MIR159a, osa-MIR159b, osa-MIR159c, osa-MIR159d, osa-MIR159e, osa-MIR159f, osa-MIR160e, osa-MIR160f, osa-MIR162b, osa-MIR164c, osa-MIR164d, osa-MIR164e, osa-MIR166k, osa-MIR166l, osa-MIR167d, osa-MIR167e, osa-MIR167f, osa-MIR167g, osa-MIR167h, osa-MIR167i, osa-MIR169b, osa-MIR169c, osa-MIR169d, osa-MIR169e, osa-MIR169f, osa-MIR169g, osa-MIR169h, osa-MIR169i, osa-MIR169j, osa-MIR169k, osa-MIR169l, osa-MIR169m, osa-MIR169n, osa-MIR169o, osa-MIR169p, osa-MIR169q, osa-MIR171b, osa-MIR171c, osa-MIR171d, osa-MIR171e, osa-MIR171f, osa-MIR171g, osa-MIR172a, osa-MIR172b, osa-MIR172c, osa-MIR166g, osa-MIR166h, osa-MIR166i, osa-MIR171h, osa-MIR393b, osa-MIR172d, osa-MIR171i, osa-MIR167j, osa-MIR166m, osa-MIR166j, osa-MIR164f, zma-MIR156d, zma-MIR156f, zma-MIR156g, zma-MIR156b, zma-MIR156c, zma-MIR156e, zma-MIR156a, zma-MIR156h, zma-MIR156i, zma-MIR160a, zma-MIR160c, zma-MIR160d, zma-MIR160b, zma-MIR164a, zma-MIR164d, zma-MIR164b, zma-MIR164c, zma-MIR169a, zma-MIR169b, zma-MIR167a, zma-MIR167b, zma-MIR167d, zma-MIR167c, zma-MIR160e, zma-MIR166a, zma-MIR162, zma-MIR166h, zma-MIR166e, zma-MIR166i, zma-MIR166f, zma-MIR166g, zma-MIR166b, zma-MIR166c, zma-MIR166d, zma-MIR171a, zma-MIR171b, zma-MIR172a, zma-MIR172d, zma-MIR172b, zma-MIR172c, zma-MIR171d, zma-MIR171f, zma-MIR394a, zma-MIR394b, zma-MIR395b, zma-MIR395c, zma-MIR395a, zma-MIR156j, zma-MIR159a, zma-MIR159b, zma-MIR159c, zma-MIR159d, zma-MIR166k, zma-MIR166j, zma-MIR167e, zma-MIR167f, zma-MIR167g, zma-MIR167h, zma-MIR167i, zma-MIR169c, zma-MIR169f, zma-MIR169g, zma-MIR169h, zma-MIR169i, zma-MIR169k, zma-MIR169j, zma-MIR169d, zma-MIR169e, zma-MIR171c, zma-MIR171j, zma-MIR171e, zma-MIR171i, zma-MIR171g, zma-MIR172e, zma-MIR166l, zma-MIR166m, zma-MIR171k, zma-MIR171h, zma-MIR393a, zma-MIR156k, zma-MIR160f, osa-MIR528, osa-MIR529a, osa-MIR395m, osa-MIR395n, osa-MIR395o, osa-MIR395p, osa-MIR395q, osa-MIR395v, osa-MIR395w, osa-MIR395r, ath-MIR827, osa-MIR529b, osa-MIR1432, osa-MIR169r, osa-MIR827, osa-MIR2118a, osa-MIR2118b, osa-MIR2118c, osa-MIR2118d, osa-MIR2118e, osa-MIR2118f, osa-MIR2118g, osa-MIR2118h, osa-MIR2118i, osa-MIR2118j, osa-MIR2118k, osa-MIR2118l, osa-MIR2118m, osa-MIR2118n, osa-MIR2118o, osa-MIR2118p, osa-MIR2118q, osa-MIR2118r, osa-MIR2275a, osa-MIR2275b, zma-MIR2118a, zma-MIR2118b, zma-MIR2118c, zma-MIR2118d, zma-MIR2118e, zma-MIR2118f, zma-MIR2118g, zma-MIR2275a, zma-MIR2275b, zma-MIR2275c, zma-MIR2275d, zma-MIR156l, zma-MIR159e, zma-MIR159f, zma-MIR159g, zma-MIR159h, zma-MIR159i, zma-MIR159j, zma-MIR159k, zma-MIR160g, zma-MIR164e, zma-MIR164f, zma-MIR164g, zma-MIR164h, zma-MIR166n, zma-MIR167j, zma-MIR169l, zma-MIR169m, zma-MIR169n, zma-MIR169o, zma-MIR169p, zma-MIR169q, zma-MIR169r, zma-MIR171l, zma-MIR171m, zma-MIR171n, zma-MIR393c, zma-MIR395d, zma-MIR395e, zma-MIR395f, zma-MIR395g, zma-MIR395h, zma-MIR395i, zma-MIR395j, zma-MIR395k, zma-MIR395l, zma-MIR395m, zma-MIR395n, zma-MIR395o, zma-MIR395p, zma-MIR482, zma-MIR528a, zma-MIR528b, zma-MIR529, zma-MIR827, zma-MIR1432, osa-MIR395x, osa-MIR395y, osa-MIR2275c, osa-MIR2275d, ath-MIR156i, ath-MIR156j
Other conserved miRNA targets includes F-box protein (miRNA393, miRNA394), ATP sulfurylase (miRNA395), CCHC type zinc finger protein (miRNA482), NAD(P) -binding protein (miRNA827), and Poly(ADP-ribose) polymerase (miRNA1432), all of them are known to play roles in the expression control of genes involved in regulation of metabolic processes. [score:6]
MiR393 targets auxin receptor genes, such as TIR1, AFB2 and AFB3, which lower auxin signals and inhibit the pathogen P. syringae [20]. [score:4]
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10
[+] score: 9
Other miRNAs from this paper: zma-MIR156d, zma-MIR156f, zma-MIR156g, zma-MIR156b, zma-MIR156c, zma-MIR156e, zma-MIR156a, zma-MIR156h, zma-MIR156i, zma-MIR160a, zma-MIR160c, zma-MIR160d, zma-MIR160b, zma-MIR164a, zma-MIR164d, zma-MIR164b, zma-MIR164c, zma-MIR169a, zma-MIR169b, zma-MIR167a, zma-MIR167b, zma-MIR167d, zma-MIR167c, zma-MIR160e, zma-MIR166a, zma-MIR162, zma-MIR166h, zma-MIR166e, zma-MIR166i, zma-MIR166f, zma-MIR166g, zma-MIR166b, zma-MIR166c, zma-MIR166d, zma-MIR171a, zma-MIR171b, zma-MIR172a, zma-MIR172d, zma-MIR172b, zma-MIR172c, zma-MIR171d, zma-MIR171f, zma-MIR394a, zma-MIR394b, zma-MIR395b, zma-MIR395c, zma-MIR395a, zma-MIR396b, zma-MIR396a, zma-MIR399a, zma-MIR399c, zma-MIR399b, zma-MIR399d, zma-MIR399e, zma-MIR399f, zma-MIR156j, zma-MIR159a, zma-MIR159b, zma-MIR159c, zma-MIR159d, zma-MIR319a, zma-MIR319c, zma-MIR319b, zma-MIR319d, zma-MIR166k, zma-MIR166j, zma-MIR167e, zma-MIR167f, zma-MIR167g, zma-MIR167h, zma-MIR167i, zma-MIR168a, zma-MIR168b, zma-MIR169c, zma-MIR169f, zma-MIR169g, zma-MIR169h, zma-MIR169i, zma-MIR169k, zma-MIR169j, zma-MIR169d, zma-MIR169e, zma-MIR171c, zma-MIR171j, zma-MIR171e, zma-MIR171i, zma-MIR171g, zma-MIR172e, zma-MIR166l, zma-MIR166m, zma-MIR171k, zma-MIR171h, zma-MIR393a, zma-MIR408a, zma-MIR156k, zma-MIR160f, zma-MIR396c, zma-MIR396d, zma-MIR156l, zma-MIR159e, zma-MIR159f, zma-MIR159g, zma-MIR159h, zma-MIR159i, zma-MIR159j, zma-MIR159k, zma-MIR160g, zma-MIR164e, zma-MIR164f, zma-MIR164g, zma-MIR164h, zma-MIR166n, zma-MIR167j, zma-MIR169l, zma-MIR169m, zma-MIR169n, zma-MIR169o, zma-MIR169p, zma-MIR169q, zma-MIR169r, zma-MIR171l, zma-MIR171m, zma-MIR171n, zma-MIR393c, zma-MIR395d, zma-MIR395e, zma-MIR395f, zma-MIR395g, zma-MIR395h, zma-MIR395i, zma-MIR395j, zma-MIR395k, zma-MIR395l, zma-MIR395m, zma-MIR395n, zma-MIR395o, zma-MIR395p, zma-MIR396e, zma-MIR396f, zma-MIR396g, zma-MIR396h, zma-MIR397a, zma-MIR397b, zma-MIR398a, zma-MIR398b, zma-MIR399g, zma-MIR399h, zma-MIR399i, zma-MIR399j, zma-MIR408b, zma-MIR482, zma-MIR528a, zma-MIR528b, zma-MIR529, zma-MIR827, zma-MIR1432, zma-MIR444a, zma-MIR444b
MiRNA families miR393 and miR394 target F-box protein and are known to play a role in the expression control of genes involved in regulation of metabolic processes [88]. [score:6]
The miR156, miR164, miR168, miR393, miR395, miR396, miR398, and miR399 families had higher signatures in juvenile root and seedling tissues while miR172 demonstrated a higher expression level in reproductive tissues (tassel and ear). [score:3]
[1 to 20 of 2 sentences]
11
[+] score: 9
Similarly, zma-miR393, which targets the F-box auxin receptor transport inhibitor response 1 (TIR1) [47], was also down-regulated at 22 DAP. [score:8]
0125800.g002 Fig 2 Six novel maize miRNAs (miRt4, miRt13, miRt15, miRt17 and miRt21, miRt28) and six conserved miRNAs (miR156, miR162, miR172, miR393, miR396 and miR408) were chosen to verify the sequencing results via the qRT-PCR analysis. [score:1]
[1 to 20 of 2 sentences]
12
[+] score: 7
In contrast, the miR393 expression profile in response to diazotrophic bacterial inoculation was different from that observed in a pathogenic infection. [score:3]
MiR393 was the first miRNA described to be involved in the regulation of plant immunity [58]. [score:2]
On the other hand, in maize inoculated with diazotrophic bacteria, a repression of miR393 was observed, suggesting that in the presence of H. seropedicae, the defense response through the miR393 -based regulation pathway was not activated. [score:2]
[1 to 20 of 3 sentences]
13
[+] score: 5
Regarding the control exerted by miRNAs on phytohormones, it has been shown in Arabidopsis that auxin metabolism is controlled by at least four conserved miRNA families (miR160, miR167, miR390, and miR393), which mainly exert control by regulating ARF proteins (i. e., ARF6, ARF8, ARF10, ARF16, and 17) (Rhoades et al., 2002; Mallory et al., 2005; Marin et al., 2010; Win dels and Vazquez, 2011; Kinoshita et al., 2012). [score:2]
Specifically, the regulation of TIR1 and potentially three ARFs by the miR393 and miR167 families resulted conserved. [score:2]
miR393: integrator of environmental cues in auxin signaling? [score:1]
[1 to 20 of 3 sentences]
14
[+] score: 3
Vidal E. A. Araus V. Lu C. Parry G. Green P. J. Coruzzi G. M. Gutiérrez R. A. Nitrate-responsive miR393/AFB3 regulatory module controls root system architecture in Arabidopsis thalianaProc. [score:2]
miR393/AFB3 has been defined as a unique N-responsive module that controls root system architecture in response to external and internal N availability in Arabidopsis [17]. [score:1]
[1 to 20 of 2 sentences]
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[+] score: 2
Other miRNAs from this paper: osa-MIR156a, osa-MIR156b, osa-MIR156c, osa-MIR156d, osa-MIR156e, osa-MIR156f, osa-MIR156g, osa-MIR156h, osa-MIR156i, osa-MIR156j, osa-MIR164a, osa-MIR164b, osa-MIR166a, osa-MIR166b, osa-MIR166c, osa-MIR166d, osa-MIR166e, osa-MIR166f, osa-MIR169a, osa-MIR393a, osa-MIR395b, osa-MIR395d, osa-MIR395e, osa-MIR395g, osa-MIR395h, osa-MIR395i, osa-MIR395j, osa-MIR395k, osa-MIR395l, osa-MIR395s, osa-MIR395t, osa-MIR395c, osa-MIR395a, osa-MIR395f, osa-MIR395u, osa-MIR156k, osa-MIR156l, osa-MIR159a, osa-MIR159b, osa-MIR159c, osa-MIR159d, osa-MIR159e, osa-MIR159f, osa-MIR164c, osa-MIR164d, osa-MIR164e, osa-MIR166k, osa-MIR166l, osa-MIR168a, osa-MIR168b, osa-MIR169b, osa-MIR169c, osa-MIR169d, osa-MIR169e, osa-MIR169f, osa-MIR169g, osa-MIR169h, osa-MIR169i, osa-MIR169j, osa-MIR169k, osa-MIR169l, osa-MIR169m, osa-MIR169n, osa-MIR169o, osa-MIR169p, osa-MIR169q, osa-MIR166g, osa-MIR166h, osa-MIR166i, osa-MIR393b, osa-MIR166m, osa-MIR166j, osa-MIR164f, zma-MIR156d, zma-MIR156f, zma-MIR156g, zma-MIR156b, zma-MIR156c, zma-MIR156e, zma-MIR156a, zma-MIR156h, zma-MIR156i, zma-MIR164a, zma-MIR164d, zma-MIR164b, zma-MIR164c, zma-MIR169a, zma-MIR169b, zma-MIR166a, zma-MIR166h, zma-MIR166e, zma-MIR166i, zma-MIR166f, zma-MIR166g, zma-MIR166b, zma-MIR166c, zma-MIR166d, osa-MIR444a, zma-MIR395b, zma-MIR395c, zma-MIR395a, zma-MIR156j, zma-MIR159a, zma-MIR159b, zma-MIR159c, zma-MIR159d, zma-MIR166k, zma-MIR166j, zma-MIR168a, zma-MIR168b, zma-MIR169c, zma-MIR169f, zma-MIR169g, zma-MIR169h, zma-MIR169i, zma-MIR169k, zma-MIR169j, zma-MIR169d, zma-MIR169e, zma-MIR166l, zma-MIR166m, zma-MIR393a, zma-MIR156k, osa-MIR395m, osa-MIR395n, osa-MIR395o, osa-MIR395p, osa-MIR395q, osa-MIR395v, osa-MIR395w, osa-MIR395r, osa-MIR820a, osa-MIR820b, osa-MIR820c, osa-MIR1425, osa-MIR1428a, osa-MIR169r, osa-MIR444b, osa-MIR444c, osa-MIR444d, osa-MIR444e, osa-MIR444f, osa-MIR1428b, osa-MIR1428c, osa-MIR1428d, osa-MIR1428e, osa-MIR1874, osa-MIR2055, osa-MIR827, osa-MIR1428f, osa-MIR1428g, zma-MIR396d, osa-MIR396d, zma-MIR156l, zma-MIR159e, zma-MIR159f, zma-MIR159g, zma-MIR159h, zma-MIR159i, zma-MIR159j, zma-MIR159k, zma-MIR164e, zma-MIR164f, zma-MIR164g, zma-MIR164h, zma-MIR166n, zma-MIR169l, zma-MIR169m, zma-MIR169n, zma-MIR169o, zma-MIR169p, zma-MIR169q, zma-MIR169r, zma-MIR393c, zma-MIR395d, zma-MIR395e, zma-MIR395f, zma-MIR395g, zma-MIR395h, zma-MIR395i, zma-MIR395j, zma-MIR395k, zma-MIR395l, zma-MIR395m, zma-MIR395n, zma-MIR395o, zma-MIR395p, zma-MIR827, osa-MIR395x, osa-MIR395y, zma-MIR444a, zma-MIR444b
The second corresponds to a novel RNA that has a 10 nucleotide overlap with osa-miR393 (not shown), highly similar to the situation reported for the osa-miR444 family [10, 11]. [score:1]
The first category corresponds to osa-miR156h*, osa-miR393b* and osa-miR396d*. [score:1]
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16
[+] score: 2
Other miRNAs from this paper: osa-MIR156a, osa-MIR156b, osa-MIR156c, osa-MIR156d, osa-MIR156e, osa-MIR156f, osa-MIR156g, osa-MIR156h, osa-MIR156i, osa-MIR156j, osa-MIR166a, osa-MIR166b, osa-MIR166c, osa-MIR166d, osa-MIR166e, osa-MIR166f, osa-MIR171a, osa-MIR393a, osa-MIR397a, osa-MIR397b, osa-MIR156k, osa-MIR156l, osa-MIR159a, osa-MIR159b, osa-MIR159c, osa-MIR159d, osa-MIR159e, osa-MIR159f, osa-MIR319b, osa-MIR166k, osa-MIR166l, osa-MIR168a, osa-MIR168b, osa-MIR169f, osa-MIR171b, osa-MIR171c, osa-MIR171d, osa-MIR171e, osa-MIR171f, osa-MIR171g, osa-MIR172a, osa-MIR172b, osa-MIR172c, osa-MIR166g, osa-MIR166h, osa-MIR166i, osa-MIR171h, osa-MIR393b, osa-MIR172d, osa-MIR171i, osa-MIR166m, osa-MIR166j, zma-MIR156d, zma-MIR156f, zma-MIR156g, zma-MIR156b, zma-MIR156c, zma-MIR156e, zma-MIR156a, zma-MIR156h, zma-MIR156i, zma-MIR166a, zma-MIR166h, zma-MIR166e, zma-MIR166i, zma-MIR166f, zma-MIR166g, zma-MIR166b, zma-MIR166c, zma-MIR166d, zma-MIR171a, zma-MIR171b, zma-MIR172a, zma-MIR172d, zma-MIR172b, zma-MIR172c, zma-MIR171d, zma-MIR171f, zma-MIR156j, zma-MIR159a, zma-MIR159b, zma-MIR159c, zma-MIR159d, zma-MIR319b, zma-MIR166k, zma-MIR166j, zma-MIR168a, zma-MIR168b, zma-MIR169f, zma-MIR171c, zma-MIR171j, zma-MIR171e, zma-MIR171i, zma-MIR171g, zma-MIR172e, zma-MIR166l, zma-MIR166m, zma-MIR171k, zma-MIR171h, zma-MIR393a, zma-MIR156k, osa-MIR529a, tae-MIR159a, tae-MIR159b, tae-MIR171a, tae-MIR1120a, osa-MIR1430, zma-MIR156l, zma-MIR159e, zma-MIR159f, zma-MIR159g, zma-MIR159h, zma-MIR159i, zma-MIR159j, zma-MIR159k, zma-MIR166n, zma-MIR171l, zma-MIR171m, zma-MIR171n, zma-MIR393c, zma-MIR397a, zma-MIR397b, hvu-MIR156a, tae-MIR156, hvu-MIR159b, hvu-MIR159a, hvu-MIR166a, hvu-MIR168, hvu-MIR171, hvu-MIR397a, tae-MIR171b, hvu-MIR1120, hvu-MIR166b, osa-MIR3981, hvu-MIR166c, tae-MIR1120b, tae-MIR397, tae-MIR1120c, hvu-MIR397b, hvu-MIR156b
Nevertheless, it has been demonstrated for the miR393/miR393* pair that they both regulate plant immune responses through different cellular pathways [33]. [score:2]
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17
[+] score: 2
Other miRNAs from this paper: zma-MIR393a, zma-MIR393c
Nitrate-responsive miR393/AFB3 regulatory module controls root system architecture in Arabidopsis thaliana. [score:2]
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18
[+] score: 1
Other miRNAs from this paper: osa-MIR156a, osa-MIR156b, osa-MIR156c, osa-MIR156d, osa-MIR156e, osa-MIR156f, osa-MIR156g, osa-MIR156h, osa-MIR156i, osa-MIR156j, osa-MIR166a, osa-MIR166b, osa-MIR166c, osa-MIR166d, osa-MIR166e, osa-MIR166f, osa-MIR171a, osa-MIR393a, osa-MIR395b, osa-MIR395d, osa-MIR395e, osa-MIR395g, osa-MIR395h, osa-MIR395i, osa-MIR395j, osa-MIR395k, osa-MIR395l, osa-MIR395s, osa-MIR395t, osa-MIR395c, osa-MIR395a, osa-MIR395f, osa-MIR395u, osa-MIR396a, osa-MIR396b, osa-MIR156k, osa-MIR156l, osa-MIR166k, osa-MIR166l, osa-MIR168a, osa-MIR172a, osa-MIR172b, osa-MIR172c, osa-MIR166g, osa-MIR166h, osa-MIR166i, osa-MIR393b, osa-MIR408, osa-MIR172d, osa-MIR166m, osa-MIR166j, zma-MIR156d, zma-MIR156f, zma-MIR156g, zma-MIR156b, zma-MIR156c, zma-MIR156e, zma-MIR156a, zma-MIR156h, zma-MIR156i, zma-MIR166a, zma-MIR166h, zma-MIR166e, zma-MIR166i, zma-MIR166f, zma-MIR166g, zma-MIR166b, zma-MIR166c, zma-MIR166d, zma-MIR171a, zma-MIR172a, zma-MIR172d, zma-MIR172b, zma-MIR172c, zma-MIR395b, zma-MIR395c, zma-MIR395a, zma-MIR396b, zma-MIR396a, zma-MIR156j, zma-MIR166k, zma-MIR166j, zma-MIR168a, zma-MIR172e, zma-MIR166l, zma-MIR166m, zma-MIR393a, zma-MIR408a, zma-MIR156k, osa-MIR395m, osa-MIR395n, osa-MIR395o, osa-MIR395p, osa-MIR395q, osa-MIR395v, osa-MIR395w, osa-MIR395r, osa-MIR1432, zma-MIR156l, zma-MIR166n, zma-MIR393c, zma-MIR395d, zma-MIR395e, zma-MIR395f, zma-MIR395g, zma-MIR395h, zma-MIR395i, zma-MIR395j, zma-MIR395k, zma-MIR395l, zma-MIR395m, zma-MIR395n, zma-MIR395o, zma-MIR395p, zma-MIR408b, zma-MIR482, zma-MIR1432, osa-MIR395x, osa-MIR395y
Except for zma-miR393, zma-miR1432, zma-miR408, zma-miR482 and zma-miR395, 23 of 28 known maize miRNA families had members detected in at least one of the four sequenced libraries. [score:1]
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19
[+] score: 1
Other miRNAs from this paper: ath-MIR393a, ath-MIR393b, zma-MIR393a, zma-MIR393c
According to Vidal et al. [21], the microRNA miR393, which is inducibled by nitrate, affects only LR growth. [score:1]
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20
[+] score: 1
In Arabidopsis, small RNA deep sequencing associated with nitrate response had been analyzed and the miR393/AFB3 has been defined as a unique N responsive module that controls root system architecture in response to external and internal N availability [1]. [score:1]
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