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22 publications mentioning zma-MIR160a

Open access articles that are associated with the species Zea mays and mention the gene name MIR160a. Click the [+] symbols to view sentences that include the gene name, or the word cloud on the right for a summary.

1
[+] score: 51
In this study, ARF6 and ARF8 were predicted to be the targets of miR167a-d, whereas ARF16 was the target of miR160a-e, g. In the 7 [th] and the 9 [th] internodes of ‘Xun9058’, the expression level of the miR167 target was much higher than it in the corresponding internodes of ‘Xun928’, and miR167 negatively regulated its target. [score:12]
miR160a-e, g and miR164e were both up-regulated in the 7 [th] internode of ‘Xun9058’, whereas they were down-regulated in the 8 [th] internode of ‘Xun9058’ by comparing with them in the corresponding internodes of ‘Xun928’. [score:7]
For instance, the miR156 family had different targets, including SQUAMOSA promoter -binding protein-like and histidine-containing phosphotransfer factor 5. The genes encoding ARFs were identified as the targets of miR160 and miR167. [score:5]
Furthermore, the expression level of the miR160 target showed a similar variation trend from the 7 [th] to the 9 [th] internode between ‘Xun928’ and ‘Xun9058’. [score:5]
The expression level of the target of zma-miR160 was negatively correlated with the miRNA levels in the7 [th] to 9 [th] internodes of the two inbred lines. [score:5]
Most of the targets were found to be transcription factors (TFs), such as auxin response factors (miR160 and miR167), growth -regulating factor (miR396), N-acetylcysteine domain containing protein (miR164), SQUAMOSA promoter -binding protein-like (miR156) and nuclear TF Y (miR169). [score:4]
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]
According to the degradome sequencing data, only one target was detected for the different members of zma-miR160. [score:3]
The ARFs might promote the elongation and development of the corresponding internodes under the maize ear between two inbred lines or different internodes under the maize ear from the same inbred line by activating the auxin-response genes, and they were regulated by miRNA167 and miRNA160, respectively. [score:3]
The expression changes of the miRNAs established using qRT-PCR were consistent with the data analysis results on the three internodes of each inbred line or in the corresponding internodes of the two inbred lines, except zma-miR164h and zma-miR393a, c in the three internodes of each inbred line, and zma-miR160a-e, g in the corresponding internodes of the two inbred lines. [score:3]
The least abundant miRNA families were miR160, miR394, miR529 and miR1432. [score:1]
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2
[+] score: 34
It has been reported that transgenic seeds of Arabidopsis expressing a miR160-resistant form of AtARF10 (mARF10) are hypersensitive to germination inhibition by exogenous ABA, whereas ectopic expression of miR160 results in a reduced sensitivity to ABA [46]. [score:7]
Regulation of AtARF6 and 8 by miR167 is important for development of anthers and ovules [39- 41, 58], regulation of AtARF17 by miR160 is important for Arabidopsis growth and development [40] and regulation of AtARF10 and 16 by miR160 plays a role in root cap formation [40, 56]. [score:6]
18 out of 31 ZmARF genes were predicted to be the potential targets of small RNA and the number of target genes for miR160, miR167, TAS3 ta-siRNA was 7, 6 and 5, respectively (Additional file 4). [score:5]
For example, AtARF6 and 8 are miR167 targets [39- 41] while AtARF 10, 16, and 17 are miR160 targets [40, 42, 43]. [score:5]
miR160, 167 and TAS3 target site prediction for ZmARF genes. [score:3]
Click here for file miR160, 167 and TAS3 target site prediction for ZmARF genes. [score:3]
In the present study, Zm ARF2, 5, 8, 15, 17 and 21 are predicted to be the targets for miR160, which falls in the same subfamily with AtARF10, 16 and 17. [score:3]
Genetic evidence supporting a role of ARF genes in germination has been obtained from the analysis of regulation of AtARF10 by miR160 [46]. [score:2]
[1 to 20 of 8 sentences]
3
[+] score: 34
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]
Gene expression of auxin response factor (ARF), a target gene of miR160, was also higher in IFC ovaries (Table 2; Figure 3), indicating a major role in auxin homeostasis and carpel fusion. [score:5]
Moreover, miR160, which is believed to target mRNA coding ARF DNA -binding protein, is thought to be involved in female and male flower development in poplar through regulation of auxin signaling (Song et al., 2013). [score:5]
Sixty percent of these target genes were members of different families of transcription factors; namely, TCP, MYB, ARF, NAC, NF-YA, AP2, GRF, GRAS, and HD-ZIP (Table 3), while one gene, ARF, was found to be targeted by miR160 as verified by RNA ligase -mediated 5′-RACE (Supplementary Figure S2). [score:5]
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]
For example, miR160 was significantly correlated with IAA, but its target gene was not. [score:3]
[1 to 20 of 6 sentences]
4
[+] score: 23
The first includes miR160, miR164, miR167, miR169, miR172, and miR319, which target transcription factors involved in further regulation of gene expression and signal transduction. [score:6]
Six miRNAs (miR160, miR168, miR169, miR319, miR395, and miR399) were identified to be differentially expressed in roots in response to the transient low N condition and all of them were up-regulated (Table S2). [score:6]
MiR160(a,b,c,d,e,g,h,i,m) was only up-regulated in roots during transient low nitrate treatment. [score:3]
With regards to tissue specificity(or tissue dependent), some miRNAs were only regulated in roots or leaves, such as miR160, miR167, miR168, miR319 and miR395 in roots, and miR164, miR172, miR397, miR398 and miR827 in leaves, while some others were regulated in both tissues, such as miR169, miR399, miR408 and miR528 (Fig. 4). [score:3]
The eight predicted maize miR160 target genes include seven genes homologous to the Arabidopopsis ARF10, ARF16 and ARF17 genes. [score:3]
Three miRNAs (miR160, miR168, miR319) were identified in roots from the transient response in addition to the chronic response (Table S2). [score:1]
Nine miRNA families (miR164, miR169, miR172, miR397, miR398, miR399, miR408, miR528, and miR827) were identified in leaves, and nine miRNA families (miR160, miR167, miR168, miR169, miR319, miR395, miR399, miR408, and miR528) identified in roots. [score:1]
[1 to 20 of 7 sentences]
5
[+] score: 21
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-MIR160a, osa-MIR160b, osa-MIR160c, osa-MIR160d, 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-MIR396a, osa-MIR396b, osa-MIR396c, osa-MIR397a, osa-MIR397b, osa-MIR398a, osa-MIR398b, osa-MIR156k, osa-MIR156l, osa-MIR159a, osa-MIR159b, osa-MIR159c, osa-MIR159d, osa-MIR159e, osa-MIR159f, osa-MIR160e, osa-MIR160f, osa-MIR164c, osa-MIR164d, osa-MIR164e, osa-MIR166k, osa-MIR166l, osa-MIR167d, osa-MIR167e, osa-MIR167f, osa-MIR167g, osa-MIR167h, osa-MIR167i, 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-MIR171b, osa-MIR172a, osa-MIR172b, osa-MIR172c, osa-MIR166g, osa-MIR166h, osa-MIR166i, osa-MIR172d, 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-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-MIR171b, zma-MIR172a, zma-MIR172d, zma-MIR172b, zma-MIR172c, osa-MIR396e, 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-MIR172e, zma-MIR166l, zma-MIR166m, zma-MIR156k, zma-MIR160f, tae-MIR159a, tae-MIR159b, tae-MIR160, tae-MIR164, tae-MIR167a, tae-MIR1127a, osa-MIR169r, osa-MIR396f, zma-MIR396c, zma-MIR396d, osa-MIR2275a, osa-MIR2275b, zma-MIR2275a, zma-MIR2275b, zma-MIR2275c, zma-MIR2275d, osa-MIR396g, osa-MIR396h, osa-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-MIR396e, zma-MIR396f, zma-MIR396g, zma-MIR396h, zma-MIR397a, zma-MIR397b, zma-MIR398a, zma-MIR398b, hvu-MIR156a, tae-MIR156, hvu-MIR159b, hvu-MIR159a, hvu-MIR166a, tae-MIR167b, hvu-MIR168, hvu-MIR169, tae-MIR169, hvu-MIR397a, tae-MIR398, tae-MIR171b, hvu-MIR166b, hvu-MIR166c, osa-MIR2275c, osa-MIR2275d, tae-MIR1122b, tae-MIR9653a, tae-MIR9654a, tae-MIR9656, tae-MIR9657a, tae-MIR9659, tae-MIR9660, tae-MIR1127b, tae-MIR9661, tae-MIR396, tae-MIR9665, tae-MIR2275, tae-MIR9667, tae-MIR167c, tae-MIR1120b, tae-MIR397, tae-MIR1130b, tae-MIR5384, tae-MIR9675, tae-MIR1120c, tae-MIR9679, tae-MIR9657b, hvu-MIR397b, hvu-MIR156b, tae-MIR9653b
miR160 and miR164 targeted Auxin response factor (ARF) and NAC transcription factor (NAC), respectively (Additional file 11), which control key steps in plant development. [score:4]
Of the 15 known miRNA families, 4 (miR169, miR166, miR164 and miR160) were preferentially expressed in the developing seeds (with the logarithm of the fold changes of 0.3 ~ 3.0 in the developing seeds, more than those in the flag leaves) (Figure  3a, Table  2). [score:3]
Four of the 15 known miRNA families, including miR169, miR166, miR164 and miR160 were preferentially expressed in the developing seeds with the logarithm of the fold changes of 0.3 ~ 3.0. [score:3]
Plants expressing the miR160-resistant auxin response factor 17 (ARF17) may cause abnormal embryo symmetry [18]. [score:3]
Plants expressing the miR160-resistant ARF17 may cause abnormal embryo symmetry [18]. [score:3]
From 5 days post-anthesis to 20 days post-anthesis, miR164 and miR160 increased in abundance in the developing seeds, whereas miR169 decreased, suggesting their coordinating functions in the different developmental stages of wheat seed. [score:2]
From 5 days post-anthesis to 20 days post-anthesis, miR164 and miR160 increased in abundance, whereas miR169 decreased, suggesting that these miRNAs have coordinating functions in the different developmental stages of wheat seed. [score:2]
From 5 DPA to 20 DPA, miR164 and miR160 increased in abundance, whereas miR169 decreased (Figure  3a, Table  2). [score:1]
[1 to 20 of 8 sentences]
6
[+] score: 21
Other miRNAs from this paper: zma-MIR156d, zma-MIR156f, zma-MIR156g, zma-MIR156b, zma-MIR156c, zma-MIR156e, zma-MIR156a, zma-MIR156h, zma-MIR156i, 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-MIR393b, 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
Our real-time RT-PCR results revealed that expression levels of GRMZM2G005284, GRMZM2G159399, GRMZM2G390641, and GRMZM5G808366, which encode ARF10, ARF16, ARF16, and ARF17, respectively, were elevated when zma-miR160a/b/c/d/e/g was down-regulated (Figure 5; Table S3). [score:6]
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]
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]
In addition, zma-miR160a/b/c/d/e/g and zma-miR393a/b/c were observed to be down-regulated in silks after pollination (Figure 4B; Table 3). [score:4]
In addition, miR159, miR160, and miR171 are involved in resistance to pathogen invasion [55]– [58]. [score:1]
miR160 responds to fungal invasion in poplar, and is associated with resistance to soybean mosaic virus in soybean [56], [57]. [score:1]
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7
[+] 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-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-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-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-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-MIR408b, zma-MIR1432
miR160 also regulates gene expression and activity cascades during the early stages of plant development (Nonogaki, 2010), pathological development of stem canker disease in Populus trichocarpa (Zhao et al., 2012), symbiotic nodule development and auxin sensitivity in soybean (Turner et al., 2013), and the response to Soybean mosaic virus (SMV) (Yin et al., 2013). [score:9]
In the second group of miRNAs, the expression of five miRNA families (miR156, miR158, miR160, miR395, and miR8677) was down-regulated in response to RBSDV infection in maize. [score:6]
The results of the present study showed that down-regulation of miR156, miR158, miR160, and miR395 upon RSBVD infection could be related to plant architecture in maize. [score:4]
[1 to 20 of 3 sentences]
8
[+] 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-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-MIR393b, 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]
In tolerant genotype HKI-1532, 16 miRNAs belonging to the zma-miR159, zma-miR160, zma-miR164, zma-miR166, zma-miR169, zma-miR390, zma-miR395, zma-miR396, and zma-miR399 families were significantly up-regulated. [score:4]
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]
miR160, representing a Type IV interaction in HKI-1532, plays a role in ABA-auxin interaction during drought (Liu et al., 2007). [score:1]
m Transcription factor miR160 zma-miR160-f gnl|GNOMON|46030063. [score:1]
On the other hand, some miRNA families, such as zma-miR160, zma-miR399, zma-miR529, and zma-miR2275, had only one member each (Figure 3). [score:1]
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9
[+] score: 13
MiR156 targeted SBP transcription factor [52, 53], which affected shoot maturation in Arabidopsis, miR159c/d and miR164 were predicted to target MYB domain transcription factors [24, 54], and miR160 targeted ARF transcription factors [55, 56]. [score:7]
Plants expressing miR160-resistant ARF17 (Auxin Response Factor 17) may cause abnormal embryo symmetry [19]. [score:3]
The more abundant miRNAs in leaves were miR399a/c/d/e, miR408, miR159c/d, miR156k/j, miR160a/b/c/d/e and miR164a/b/c/d, while the expression of miR399e was nearly 10-fold higher than that in seeds (Additional file 2). [score:3]
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[+] score: 9
The greatest number of potential targets of Zea mays miRNAs was for the P111 gene targetted by eighteen different miRNAs (miR156j-3p, miR160a-3p, miR164c-3p, miR164h-3p, miR164h-5p, miR166k-5p, miR166l-5p, miR168b-3p, miR171b-5p, miR171f-5p, miR319a-5p, miR319c-5p, miR399h-5p, miR408b-5p, miR444a, miR444b, miR528a-3p, and miR528b-3p), in combination, at a total of 13 loci of P111 gene. [score:5]
For P50 gene of MCMV, 11 targeting miRNAs were predicted (miR160a-3p, miR164c-3p, miR164h-3p, miR166l-5p, miR171b-5p, miR171f-5p, miR319a-5p, miR319c-5p, miR408b-5p, miR528a-3p, and miR528b-3p). [score:3]
and predicted binding of miR160a-3p at locus 528 while and predicted hybridization of miR408b-5p at locus 752. [score:1]
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[+] score: 7
Recently, 25 miRNA decoys from Arabidopsis and 94 miRNA decoys from rice were identified; overexpressing the decoys of miR160 and miRNA166 can alter plant development, indicating that ncRNAs, short ORF encoding genes and intergenic sequences acting as miRNA decoys are functional in plants [41]. [score:4]
In rice, it has been reported that two lincRNAs that act as decoys of miR160 and miR164 can regulate floral and/or seed development [40]. [score:3]
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12
[+] score: 7
Other miRNAs from this paper: zma-MIR156d, zma-MIR156f, zma-MIR156g, zma-MIR156b, zma-MIR156c, zma-MIR156e, zma-MIR156a, zma-MIR156h, zma-MIR156i, 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-MIR393b, 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
The mutant expressing miR160 de-regulated ARF10 (mARF10) exhibited altered hormone sensitivity during seed germination and seedling growth in addition to a serrated leaf phenotype [16]. [score:4]
Transcription factor ARF10 (AUXIN RESPONSE FACTOR10) is the target of miR160. [score:3]
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[+] score: 6
Interestingly, miR160 is implicated in the regulation of auxin metabolism (Rhoades et al., 2002; Mallory et al., 2005); the mutants expressing a miR160-resistant form of ARF10 are hypersensitive to ABA (Liu et al., 2007a), therefore suggesting a point of cross-talk between ABA and auxin in imbibed seeds. [score:4]
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]
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[+] score: 6
Other miRNAs from this paper: zma-MIR156d, zma-MIR156f, zma-MIR156g, zma-MIR156b, zma-MIR156c, zma-MIR156e, zma-MIR156a, zma-MIR156h, zma-MIR156i, 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-MIR393b, 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
MiR159, miR160, miR164, miR319, miR390 and miR444 were expressed mainly in the embryo at 9 DAP and 15 DAP, showing their regulatory function in early embryo development (Figure 3c). [score:5]
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]
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15
[+] score: 5
Other miRNAs from this paper: zma-MIR156d, zma-MIR156f, zma-MIR156g, zma-MIR156b, zma-MIR156c, zma-MIR156e, zma-MIR156a, zma-MIR156h, zma-MIR156i, 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-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-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-MIR171k, zma-MIR171h, 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-MIR167j, zma-MIR169l, zma-MIR169m, zma-MIR169n, zma-MIR169o, zma-MIR169p, zma-MIR169q, zma-MIR169r, zma-MIR171l, zma-MIR171m, zma-MIR171n, 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-MIR408b, zma-MIR529
Additionally, other miRNAs and their targets, for example, osa-miR159, osa-miR160/miR167, osa-miR164,and osa-miR172, targeting mRNAs coding for MYB/TCP, Auxin Response Factor, salicylic acid -induced protein 19, and AP2 proteins, respectively, were also found to be involved in leaf senescence through phytohormone signaling pathways in rice [23]. [score:5]
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16
[+] score: 5
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-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-MIR393b, 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
AUXIN RESPONSIVE FACTORs (ARFs) are a class of targets of miRNA160 families. [score:3]
The sensitivity of seeds to ABA that is vital to the termination of seed maturation program, an essential change to increase the competence of seeds for germination, is regulated by conserved miRNA160. [score:2]
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[+] score: 5
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-MIR168a, ath-MIR168b, ath-MIR169a, 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, 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-MIR172c, ath-MIR172d, ath-MIR395a, ath-MIR395b, ath-MIR395c, ath-MIR395d, ath-MIR395e, ath-MIR395f, ath-MIR396a, ath-MIR396b, ath-MIR399a, ath-MIR399b, ath-MIR399c, ath-MIR399d, ath-MIR399e, ath-MIR399f, 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-MIR396c, osa-MIR399a, osa-MIR399b, osa-MIR399c, osa-MIR399d, osa-MIR399e, osa-MIR399f, osa-MIR399g, osa-MIR399h, osa-MIR399i, osa-MIR399j, osa-MIR399k, ath-MIR408, 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-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-MIR172a, osa-MIR172b, osa-MIR172c, osa-MIR166g, osa-MIR166h, osa-MIR166i, osa-MIR171h, osa-MIR408, osa-MIR172d, 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-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, osa-MIR396e, 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-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-MIR171h, zma-MIR408a, zma-MIR156k, zma-MIR160f, osa-MIR529a, osa-MIR395m, osa-MIR395n, osa-MIR395o, osa-MIR395p, osa-MIR395q, osa-MIR395v, osa-MIR395w, osa-MIR395r, osa-MIR529b, osa-MIR169r, osa-MIR396f, zma-MIR396c, zma-MIR396d, 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, osa-MIR396g, osa-MIR396h, osa-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-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-MIR408b, zma-MIR529, osa-MIR395x, osa-MIR395y, osa-MIR2275c, osa-MIR2275d, ath-MIR156i, ath-MIR156j
For example, miR167 targets four AUXIN RESPONSE FACTOR (ARF) genes, and miR160 targets six ARF genes. [score:5]
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[+] score: 5
In our study, we did not found any ZmMYB as the target of miR828 or miR858, but we revealed that miR160 and miR159 may target 8 additional ZmMYBs (ZmMYB004, ZmMYB054, ZmMYB101, ZmMYB103, ZmMYB119, ZmMYB122, ZmMYB140, and ZmMYB155). [score:5]
[1 to 20 of 1 sentences]
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[+] score: 4
Other miRNAs from this paper: zma-MIR156d, zma-MIR156f, zma-MIR156g, zma-MIR156b, zma-MIR156c, zma-MIR156e, zma-MIR156a, zma-MIR156h, zma-MIR156i, 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-MIR393b, 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
Both miR160 and miR167 target Auxin Response Factor (ARF) transcription factors in Arabidopsis and maize [83], [84]; and are also captured by our predictions. [score:3]
These families are: miR156, miR160, miR164, miR166, miR167, miR172, miR396, and miR528. [score:1]
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[+] score: 3
Other miRNAs from this paper: zma-MIR160c, zma-MIR160d, zma-MIR160b, zma-MIR164a, zma-MIR164d, zma-MIR164b, zma-MIR164c, zma-MIR169a, zma-MIR169b, zma-MIR160e, zma-MIR172a, zma-MIR172d, zma-MIR172b, zma-MIR172c, sbi-MIR172b, sbi-MIR172c, sbi-MIR172a, sbi-MIR160d, sbi-MIR160a, sbi-MIR160c, sbi-MIR160b, sbi-MIR160e, sbi-MIR164a, sbi-MIR169b, sbi-MIR169a, sbi-MIR395b, sbi-MIR395a, sbi-MIR395d, sbi-MIR395e, sbi-MIR164b, sbi-MIR169c, sbi-MIR169d, sbi-MIR169f, sbi-MIR169g, sbi-MIR169i, sbi-MIR172e, sbi-MIR319a, zma-MIR395b, zma-MIR395c, zma-MIR395a, zma-MIR319a, zma-MIR319c, zma-MIR319b, zma-MIR319d, zma-MIR169c, zma-MIR169f, zma-MIR169g, zma-MIR169h, zma-MIR169i, zma-MIR169k, zma-MIR169j, zma-MIR169d, zma-MIR169e, zma-MIR172e, zma-MIR160f, sbi-MIR164c, sbi-MIR395f, sbi-MIR160f, sbi-MIR164d, sbi-MIR164e, sbi-MIR169e, sbi-MIR169h, sbi-MIR169j, sbi-MIR169k, sbi-MIR169l, sbi-MIR169m, sbi-MIR169n, sbi-MIR172d, sbi-MIR319b, sbi-MIR395c, sbi-MIR395g, sbi-MIR395h, sbi-MIR395i, sbi-MIR395j, sbi-MIR395k, sbi-MIR395l, sbi-MIR437g, zma-MIR160g, zma-MIR164e, zma-MIR164f, zma-MIR164g, zma-MIR164h, zma-MIR169l, zma-MIR169m, zma-MIR169n, zma-MIR169o, zma-MIR169p, zma-MIR169q, zma-MIR169r, 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, sbi-MIR169o, sbi-MIR169p, sbi-MIR169q, sbi-MIR172f, sbi-MIR5381, sbi-MIR5382, sbi-MIR5383, sbi-MIR5384, sbi-MIR5385, sbi-MIR5386, sbi-MIR5387a, sbi-MIR5388, sbi-MIR5389, sbi-MIR5387b
Although the expression difference of miR160, miR164 and miR319 between BTx623 and Rio was inherited in the F2, and thus of interest for further analysis, it was less than two fold; so we decided to focus on miR169, miR172 and miR395 instead. [score:3]
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21
[+] score: 3
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-MIR160a, osa-MIR160b, osa-MIR160c, osa-MIR160d, osa-MIR164a, osa-MIR164b, osa-MIR166a, osa-MIR166b, osa-MIR166c, osa-MIR166d, osa-MIR166e, osa-MIR166f, osa-MIR167a, osa-MIR167b, osa-MIR167c, osa-MIR171a, 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-MIR160e, osa-MIR160f, osa-MIR164c, osa-MIR164d, osa-MIR164e, osa-MIR166k, osa-MIR166l, osa-MIR167d, osa-MIR167e, osa-MIR167f, osa-MIR167g, osa-MIR167h, osa-MIR167i, osa-MIR168a, osa-MIR168b, 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-MIR408, 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-MIR160c, zma-MIR160d, zma-MIR160b, zma-MIR164a, zma-MIR164d, zma-MIR164b, zma-MIR164c, 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, osa-MIR390, osa-MIR444a, zma-MIR171d, zma-MIR171f, 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-MIR168a, zma-MIR168b, zma-MIR171c, zma-MIR171j, zma-MIR171e, zma-MIR171i, zma-MIR171g, zma-MIR172e, zma-MIR166l, zma-MIR166m, zma-MIR171k, zma-MIR171h, zma-MIR408a, zma-MIR156k, zma-MIR160f, osa-MIR528, osa-MIR395m, osa-MIR395n, osa-MIR395o, osa-MIR395p, osa-MIR395q, osa-MIR395v, osa-MIR395w, osa-MIR395r, osa-MIR1432, 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-MIR171l, zma-MIR171m, zma-MIR171n, zma-MIR390a, 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-MIR528a, zma-MIR528b, zma-MIR827, zma-MIR1432, zma-MIR390b, osa-MIR395x, osa-MIR395y, osa-MIR2275c, osa-MIR2275d, zma-MIR444a, osa-MIR6251
miR156, miR160, miR164, miR166, miR167, miR171, miR172, and miR390, had been earlier reported to play evolutionarily conserved roles in plant development [54]. [score:2]
Many of them, i. e., miR156, miR160, miR164, miR166, miR167, miR171, miR172 and miR390, were suggested to play highly evolutionary conserved roles across plant species [54]. [score:1]
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22
[+] score: 1
In the maize hybrid Yuyu22, miR167 was predominantly activated, whereas miR156, miR160, miR164 and miR166 were either dominantly or predominantly repressed. [score:1]
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