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6 publications mentioning mes-MIR156k

Open access articles that are associated with the species Manihot esculenta and mention the gene name MIR156k. Click the [+] symbols to view sentences that include the gene name, or the word cloud on the right for a summary.

1
[+] score: 27
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-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-MIR167d, 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
Seven transcription factor families of genes were predicted to be targeted by seven different miRNA families, encoding the following types of proteins: GRAS (targeted by mes-miR171a), basic-leucine zipper (bZIP) (mes-miR166j), MYB1 (mes-miR319f), squamosa promoter -binding protein-like (mes-miR156k), transcription-repair coupling factor (mes-miR169a), sequence-specific DNA binding transcription factor (miR477), and TEOSINTE BRANCHED 1 CYCLOIDEA and PCF transcription factor (mes-miR319f) (Additional file 4: Table S2). [score:5]
A search of cassava mRNA showed that mes-miR156k targets the gene encoding CONSTITUTIVE PHOTOMORPHOGENIC 1 (COP1), an E3 ubiquitin ligase, which represses light signaling by targeting photoreceptors and down-stream transcription factors for ubiquitylation and degradation [89]. [score:5]
Differential levels of mes-miR156k in vegetative and reproductive tissues is consistent with evidence that juvenile to adult transition is regulated by the miR156 family [30, 86], which is highly expressed in the juvenile phase but decreases dramatically during vegetative phase change [14]. [score:4]
Furthermore, the similar tissue distribution patterns exhibited by mes-miR156k and mes-miR390b, aligns with observations made in the moss species, Physcomitrella patens, in which both miRNAs cooperatively regulate tasiRNA accumulation and developmental timing. [score:3]
Other families of genes targeted included kinases (mes-miR166j, mes-miR156k, mes-miR390b, mes-miR169ac, mes-miR535d, mes-miR482b, and mes-miR1446b), pentatricopeptide repeat proteins (mes-miR477k, mes-miR319f, mes-miR2118), auxin response factor proteins (mes-miR160f, mes-miR156k, mes-miR393a, mes-miR167b), zinc finger proteins (mes-miR530b, mes-miR6445, and mes-miR393a), and laccases (mes-miR397b) (Additional file 4: Table S2). [score:3]
The miR156 family has been reported to regulate the vegetative phase change in Arabidopsis [29] and accumulates to high levels in flowering plant early embryos [30, 31]. [score:2]
The most abundant were mes-miR166j, mes-miR159a, mes-miR156k, and mes-miR393a; their abundances were generally high across all tissues, except for mes-miR393a, which was less abundant in callus and leaf tissues. [score:1]
Confirmation of this interaction would expand the functions of miR156 family. [score:1]
Thus, it is clear that comparatively low levels of mes-miR156k in vegetative tissues is likely due to selective degradation than preferential accumulation in reproductive tissues. [score:1]
Vegetative phase change is mediated by a leaf-derived signal that represses the transcription of miR156. [score:1]
In this study, both mes-miR156k and mes-miR390b appeared to show a similar pattern of abundance across tissues, except for callus, where mes-miR156k—levels were remarkably low whereas mes-miR390b levels were comparatively high. [score:1]
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2
[+] score: 26
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-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-MIR167d, 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
Among conserved miRNAs, miR162 had one target, whereas six miRNA families (miR156, 164, 172, 319, 396 and 397) had more than 10 targets; among new miRNAs, five miRNA families (new-9, −10, −20, −22 and −26) had one target and four miRNA families (new-1, −7, −18 and −19) had more than five. [score:7]
Eight genes were targeted by at least two miRNAs; for example, MYB33 and MYB81 were targeted by miR159 and miR319, and SPL2 and SPL13b were targeted by miR156 and miR535. [score:7]
Surprisingly, some of the miRNAs slicing their targets were confirmed, but being positively correlated with the targets; these miRNA:target pairs included miR156: SPL13b, miR169: NF-YA3 and miR394: APL2/F-box. [score:7]
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]
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3
[+] score: 19
Target genes of conserved miRNAs with the largest drop in expression included several proteins involved in redox balance such as an NAD(P)-linked oxidoreductase targeted by mir156, a laccase/diphenol oxidase targeted by miR397 and a potential respiratory burst oxidase targeted by miR399. [score:11]
For example, miR156 targeted genes in the squamosa promoter -binding family, miR159 targeted a MYB-like regulatory protein [17], and mir160 targeted several auxin response factors (ARF10, ARF16, and ARF17). [score:8]
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4
[+] score: 11
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-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-MIR167d, 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
The miR156 family had the most targets (41) followed by the miR166 family with 29 targets and miR396 with 20 targets (Fig 9). [score:7]
Twenty-one miRNA families (miR156, miR159, miR160, miR162, miR164, miR166-169, miR171, miR172, miR319, miR390, miR393-399, and miR408) seem to be universally expressed among diverse plant species (Fig 8). [score:3]
Eight miRNA families (miR156, miR159/319, miR160, miR166, miR171, miR408, miR390/391, and miR395) have been identified in the common ancestor of all embryophytes. [score:1]
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5
[+] score: 9
In the current study, plant miRNAs from conserved and highly expressed families (e. g miR156, miR160, miR164, miR166, miR169 and miR171) were shown to have potential targets in the genomes of two begomoviruses. [score:5]
Interestingly, in this study the miR156, miR159, miR160, miR164, miR169, miR170, miR171, miR395 and miR395 were predicted and their expression was detected, which also were found in Jatropha, cassava, Ricinus communis and Hevea brasiliensis in response to abiotic stress, development, transcription factors and metabolism [82]– [87]. [score:4]
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6
[+] score: 2
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-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-MIR167d, 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
The miR156, miR171, miR166, and miR169 families constitute the largest miRNA families in Cassava (Table  2), with 11, 11, 11, and 29 members, respectively. [score:1]
Eight known miRNA families – miR156, miR160, miR166, miR171, miR319, miR390, miR395, and miR408 – were evolutionally conserved across the 9 species (Table  2). [score:1]
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