sort by

5 publications mentioning mdm-MIR398c

Open access articles that are associated with the species Malus domestica and mention the gene name MIR398c. Click the [+] symbols to view sentences that include the gene name, or the word cloud on the right for a summary.

1
[+] score: 40
Other miRNAs from this paper: mdm-MIR156a, mdm-MIR156b, mdm-MIR156c, mdm-MIR156d, mdm-MIR156e, mdm-MIR156f, mdm-MIR156g, mdm-MIR156h, mdm-MIR156i, mdm-MIR156j, mdm-MIR156k, mdm-MIR156l, mdm-MIR156m, mdm-MIR156n, mdm-MIR156o, mdm-MIR156p, mdm-MIR156q, mdm-MIR156r, mdm-MIR156s, mdm-MIR156t, mdm-MIR156u, mdm-MIR156v, mdm-MIR156w, mdm-MIR156x, mdm-MIR156y, mdm-MIR156z, mdm-MIR156aa, mdm-MIR156ab, mdm-MIR156ac, mdm-MIR156ad, mdm-MIR156ae, mdm-MIR159a, mdm-MIR159b, mdm-MIR160a, mdm-MIR160b, mdm-MIR160c, mdm-MIR160d, mdm-MIR160e, mdm-MIR162a, mdm-MIR162b, mdm-MIR164a, mdm-MIR164b, mdm-MIR164c, mdm-MIR164d, mdm-MIR164e, mdm-MIR164f, mdm-MIR166a, mdm-MIR166b, mdm-MIR166c, mdm-MIR166d, mdm-MIR166e, mdm-MIR166f, mdm-MIR166g, mdm-MIR166h, mdm-MIR166i, mdm-MIR167a, mdm-MIR167b, mdm-MIR167c, mdm-MIR167d, mdm-MIR167e, mdm-MIR167f, mdm-MIR167g, mdm-MIR167h, mdm-MIR167i, mdm-MIR167j, mdm-MIR168a, mdm-MIR168b, mdm-MIR169a, mdm-MIR169b, mdm-MIR169c, mdm-MIR169d, mdm-MIR171a, mdm-MIR171b, mdm-MIR171c, mdm-MIR171d, mdm-MIR171e, mdm-MIR171f, mdm-MIR171g, mdm-MIR171h, mdm-MIR171i, mdm-MIR171j, mdm-MIR171k, mdm-MIR171l, mdm-MIR171m, mdm-MIR171n, mdm-MIR172a, mdm-MIR172b, mdm-MIR172c, mdm-MIR172d, mdm-MIR172e, mdm-MIR172f, mdm-MIR172g, mdm-MIR172h, mdm-MIR172i, mdm-MIR172j, mdm-MIR172k, mdm-MIR172l, mdm-MIR172m, mdm-MIR172n, mdm-MIR172o, mdm-MIR390a, mdm-MIR390b, mdm-MIR390c, mdm-MIR390d, mdm-MIR390e, mdm-MIR390f, mdm-MIR393a, mdm-MIR393b, mdm-MIR393c, mdm-MIR394a, mdm-MIR394b, mdm-MIR396a, mdm-MIR396b, mdm-MIR396c, mdm-MIR396d, mdm-MIR396e, mdm-MIR396f, mdm-MIR396g, mdm-MIR397a, mdm-MIR397b, mdm-MIR398a, mdm-MIR398b, mdm-MIR399a, mdm-MIR399b, mdm-MIR399c, mdm-MIR399d, mdm-MIR399e, mdm-MIR399f, mdm-MIR399g, mdm-MIR399h, mdm-MIR399i, mdm-MIR399j, mdm-MIR403a, mdm-MIR403b, mdm-MIR408a, mdm-MIR408b, mdm-MIR408c, mdm-MIR408d, mdm-MIR159c, mdm-MIR393d, mdm-MIR393e, mdm-MIR393f, mdm-MIR171o, mdm-MIR169e, mdm-MIR169f, mdm-MIR159d, mdm-MIR159e, mdm-MIR159f, mdm-MIR166j, mdm-MIR399k, mdm-MIR169g, mdm-MIR169h, mdm-MIR169i, mdm-MIR169j, mdm-MIR171p, mdm-MIR393g, mdm-MIR393h, mdm-MIR171q, mdm-MIR169k, mdm-MIR169l, mdm-MIR169m, mdm-MIR169n, mdm-MIR172p, mdm-MIR169o
Several miRNAs were expressed to similar levels in all tissues tested, e. g. miR396 was highly expressed in all tissues and miR162 showed moderate to low levels of expression in all tissues; miR164 and miR393 were barely detectable in the shoot apex, whereas miR160, miR169 and miR390 were more abundant in the shoot apex than other tissues; miR398, miR403 and miR408 appeared up-regulated in leaf. [score:10]
Gleave et al. [55] previously reported putative orthologues of SPL encoding genes as apple miR156 targets, an apple ARF16 as a miR167 target, orthologues of AP2 and TOE1 as miR172 targets and a copper superoxid dismutase, MdCSD as a miR398 target. [score:9]
Conservation status miRNA family Arabidopsis Oryza(rice) Populus(poplar) Predicted target gene(s) miR156 √ √ √Squamosa promoter -binding proteins[57] miR159/319 √ √ √GAMYB transcription factors[57] miR160 √ √ √Auxin response factors (ARF) [57] miR162 √ √ √DICER-LIKE 1 (DCL1) [57] miR164 √ √ √NAC domain transcription factors[57] miR156/166 √ √ √HD-ZIP transcription factors[57] miR167 √ √ √Auxin response factors (ARF) [57] miR168 √ √ √ARGONAUTE 1 (AGO1) [57] miR169 √ √ √HAP2-like transcription factors[57] miR171 √ √ √Scarecrow-like transcription factors[57] miR172 √ √ √APETALA 2 transcription factors[58] miR390 √ √ √TAS3[59] miR393 √ √ √F-box transcription factors (TIR1) [60] miR394 √ √ √F-box transcription factors[60] miR396 √ √ √GRF, rhodenase[60] miR397 √ √ √laccase[60] miR398 √ √ √Copper superoxid dismutase, CytC oxidase[60] miR403 √ √ √ARGONAUTE 2 (AGO2)[20] miR408 √ √Peptide chain release factor, laccase[20] miR475 √PPR proteins[8] miR476 √PPR proteins[8] Figure 1 Differential expression of miRNAs in apple tissues. [score:5]
Differential accumulation of miRNA was detected among tissues for miR167, miR160 and miR398 and their respective predicted targets MdARF6, MdARF16 and MdCSD, but the target fold change was low (Figure 6B). [score:5]
Conservation status miRNA family Arabidopsis Oryza(rice) Populus(poplar) Predicted target gene(s) miR156 √ √ √Squamosa promoter -binding proteins[57] miR159/319 √ √ √GAMYB transcription factors[57] miR160 √ √ √Auxin response factors (ARF) [57] miR162 √ √ √DICER-LIKE 1 (DCL1) [57] miR164 √ √ √NAC domain transcription factors[57] miR156/166 √ √ √HD-ZIP transcription factors[57] miR167 √ √ √Auxin response factors (ARF) [57] miR168 √ √ √ARGONAUTE 1 (AGO1) [57] miR169 √ √ √HAP2-like transcription factors[57] miR171 √ √ √Scarecrow-like transcription factors[57] miR172 √ √ √APETALA 2 transcription factors[58] miR390 √ √ √TAS3[59] miR393 √ √ √F-box transcription factors (TIR1) [60] miR394 √ √ √F-box transcription factors[60] miR396 √ √ √GRF, rhodenase[60] miR397 √ √ √laccase[60] miR398 √ √ √Copper superoxid dismutase, CytC oxidase[60] miR403 √ √ √ARGONAUTE 2 (AGO2)[20] miR408 √ √Peptide chain release factor, laccase[20] miR475 √PPR proteins[8] miR476 √PPR proteins[8] Figure 1 Differential expression of miRNAs in apple tissues. [score:5]
C, Stem-loop RT-PCR analyses using 10 ng total RNA of miR160, miR162, miR164, miR168, miR169, miR171, miR390, miR393, miR394, miR396, miR397, miR398, miR403, miR408, miR475, and miR476 expression. [score:3]
In particular, accumulation of miR156, miR167, miR169, miR390, and miR398 was more than ten-fold higher in the phloem sap than in the vascular tissue, suggesting a possibility of an active mechanism regulating their presence in the phloem sap. [score:2]
Using this approach miR156, miR159, miR160, miR162, miR167, miR169, miR396 and miR398 were clearly detectable; miR172, miR390 and miR393 produced a weak amplification signal; miR166 and miR397 amplification did not produce the expected product, but resulted in a smear not detected in the minus-RT control; miR164, miR168, miR171, miR394, miR403, miR408 and the miRNAs specific to poplar (miR475 and miR476) were not detected (Figure 4). [score:1]
[1 to 20 of 8 sentences]
2
[+] score: 23
Other miRNAs from this paper: mdm-MIR482a, mdm-MIR156a, mdm-MIR156b, mdm-MIR156c, mdm-MIR156d, mdm-MIR156e, mdm-MIR156f, mdm-MIR156g, mdm-MIR156h, mdm-MIR156i, mdm-MIR156j, mdm-MIR156k, mdm-MIR156l, mdm-MIR156m, mdm-MIR156n, mdm-MIR156o, mdm-MIR156p, mdm-MIR156q, mdm-MIR156r, mdm-MIR156s, mdm-MIR156t, mdm-MIR156u, mdm-MIR156v, mdm-MIR156w, mdm-MIR156x, mdm-MIR156y, mdm-MIR156z, mdm-MIR156aa, mdm-MIR156ab, mdm-MIR156ac, mdm-MIR156ad, mdm-MIR156ae, mdm-MIR160a, mdm-MIR160b, mdm-MIR160c, mdm-MIR160d, mdm-MIR160e, mdm-MIR164a, mdm-MIR164b, mdm-MIR164c, mdm-MIR164d, mdm-MIR164e, mdm-MIR164f, mdm-MIR167a, mdm-MIR167b, mdm-MIR167c, mdm-MIR167d, mdm-MIR167e, mdm-MIR167f, mdm-MIR167g, mdm-MIR167h, mdm-MIR167i, mdm-MIR167j, mdm-MIR168a, mdm-MIR169a, mdm-MIR169b, mdm-MIR169c, mdm-MIR169d, mdm-MIR171a, mdm-MIR171b, mdm-MIR171c, mdm-MIR171d, mdm-MIR171e, mdm-MIR171f, mdm-MIR171g, mdm-MIR171h, mdm-MIR171i, mdm-MIR171j, mdm-MIR171k, mdm-MIR171l, mdm-MIR171m, mdm-MIR171n, mdm-MIR172a, mdm-MIR172b, mdm-MIR172c, mdm-MIR172d, mdm-MIR172e, mdm-MIR172f, mdm-MIR172g, mdm-MIR172h, mdm-MIR172i, mdm-MIR172j, mdm-MIR172k, mdm-MIR172l, mdm-MIR172m, mdm-MIR172n, mdm-MIR172o, mdm-MIR393a, mdm-MIR393b, mdm-MIR393c, mdm-MIR395a, mdm-MIR395b, mdm-MIR395c, mdm-MIR395d, mdm-MIR395e, mdm-MIR395f, mdm-MIR395g, mdm-MIR395h, mdm-MIR395i, mdm-MIR396a, mdm-MIR396b, mdm-MIR396c, mdm-MIR396d, mdm-MIR396e, mdm-MIR396f, mdm-MIR396g, mdm-MIR397a, mdm-MIR397b, mdm-MIR398a, mdm-MIR398b, mdm-MIR399a, mdm-MIR399d, mdm-MIR399i, mdm-MIR408a, mdm-MIR3627a, mdm-MIR3627b, mdm-MIR3627c, mdm-MIR391, mdm-MIR477b, mdm-MIR477a, mdm-MIR482b, mdm-MIR482c, mdm-MIR535a, mdm-MIR535b, mdm-MIR535c, mdm-MIR535d, mdm-MIR827, mdm-MIR828a, mdm-MIR828b, mdm-MIR408b, mdm-MIR408c, mdm-MIR408d, mdm-MIR482d, mdm-MIR7121a, mdm-MIR7121b, mdm-MIR7121c, mdm-MIR7121d, mdm-MIR7121e, mdm-MIR7121f, mdm-MIR7121g, mdm-MIR7121h, mdm-MIR5225c, mdm-MIR7124a, mdm-MIR5225a, mdm-MIR5225b, mdm-MIR7125, mdm-MIR393d, mdm-MIR393e, mdm-MIR393f, mdm-MIR7127a, mdm-MIR7127b, mdm-MIR171o, mdm-MIR169e, mdm-MIR169f, mdm-MIR858, mdm-MIR3627d, mdm-MIR395j, mdm-MIR169g, mdm-MIR169h, mdm-MIR169i, mdm-MIR169j, mdm-MIR171p, mdm-MIR393g, mdm-MIR393h, mdm-MIR395k, mdm-MIR171q, mdm-MIR169k, mdm-MIR169l, mdm-MIR169m, mdm-MIR169n, mdm-MIR172p, mdm-MIR395l, mdm-MIR169o
For example, the expression of gma-miR167 is induced by far-red light (Jones-Rhoades and Bartel, 2004; Zhang et al., 2014a), the expression levels of ath-miR408 is induced by light (Li et al., 2014; Zhang et al., 2014a), and the expression levels of ath-miR396 (Zhou et al., 2007), ptc-miR168a-b, ptc-miR169, and ptc-miR398 (Jia et al., 2009) are induced by UV-light. [score:7]
For example, we found that miR160, miR156, miR171, miR172, miR395, and miR398 were differentially expressed upon debagging, these families are predicted to be regulated by UV-B radiation in Arabidopsis and juvenile maize leaves, respectively (Zhou et al., 2007). [score:4]
Differentially-expressed miR398 is very sensitive to heat stress. [score:3]
While differentially-expressed miR172 and miR398 were only present in the T1/N1 group, miR167, miR391, miR7121, and miR858 were only in the T2/N2 group, and miR535 and miR7127 only in the T3/N3 group. [score:3]
Heat stress induction of miR398 triggers a regulatory loop that is critical for thermotolerance in Arabidopsis. [score:2]
Heat induced miR398 can trigger a regulatory loop which is critical for thermal tolerance in Arabidopsis (Guan et al., 2013). [score:2]
The expression levels of miR398 in T2 significantly increased 4-fold compared to that in T1, followed by miR7124a-b, miR482a-3p, miR399d, miR408a, and miR395. [score:2]
[1 to 20 of 7 sentences]
3
[+] score: 19
Other miRNAs from this paper: mdm-MIR482a, mdm-MIR156a, mdm-MIR156b, mdm-MIR156c, mdm-MIR156d, mdm-MIR156e, mdm-MIR156f, mdm-MIR156g, mdm-MIR156h, mdm-MIR156i, mdm-MIR156j, mdm-MIR156k, mdm-MIR156l, mdm-MIR156m, mdm-MIR156n, mdm-MIR156o, mdm-MIR156p, mdm-MIR156q, mdm-MIR156r, mdm-MIR156s, mdm-MIR156t, mdm-MIR156u, mdm-MIR156v, mdm-MIR156w, mdm-MIR156x, mdm-MIR156y, mdm-MIR156z, mdm-MIR156aa, mdm-MIR156ab, mdm-MIR156ac, mdm-MIR156ad, mdm-MIR156ae, mdm-MIR159a, mdm-MIR159b, mdm-MIR162a, mdm-MIR162b, mdm-MIR164a, mdm-MIR164b, mdm-MIR164c, mdm-MIR164d, mdm-MIR164e, mdm-MIR164f, mdm-MIR167a, mdm-MIR167b, mdm-MIR167c, mdm-MIR167d, mdm-MIR167e, mdm-MIR167f, mdm-MIR167g, mdm-MIR167h, mdm-MIR167i, mdm-MIR167j, mdm-MIR171a, mdm-MIR171b, mdm-MIR171c, mdm-MIR171d, mdm-MIR171e, mdm-MIR171f, mdm-MIR171g, mdm-MIR171h, mdm-MIR171i, mdm-MIR171j, mdm-MIR171k, mdm-MIR171l, mdm-MIR171m, mdm-MIR171n, mdm-MIR172a, mdm-MIR172b, mdm-MIR172c, mdm-MIR172d, mdm-MIR172e, mdm-MIR172f, mdm-MIR172g, mdm-MIR172h, mdm-MIR172i, mdm-MIR172j, mdm-MIR172k, mdm-MIR172l, mdm-MIR172m, mdm-MIR172n, mdm-MIR172o, mdm-MIR319a, mdm-MIR319b, mdm-MIR390a, mdm-MIR390b, mdm-MIR390c, mdm-MIR390d, mdm-MIR390e, mdm-MIR390f, mdm-MIR393a, mdm-MIR393b, mdm-MIR393c, mdm-MIR395a, mdm-MIR395b, mdm-MIR395c, mdm-MIR395d, mdm-MIR395e, mdm-MIR395f, mdm-MIR395g, mdm-MIR395h, mdm-MIR395i, mdm-MIR396a, mdm-MIR396b, mdm-MIR396c, mdm-MIR396d, mdm-MIR396e, mdm-MIR396f, mdm-MIR396g, mdm-MIR398a, mdm-MIR398b, mdm-MIR399a, mdm-MIR399b, mdm-MIR399c, mdm-MIR399d, mdm-MIR399e, mdm-MIR399f, mdm-MIR399g, mdm-MIR399h, mdm-MIR399i, mdm-MIR399j, mdm-MIR408a, mdm-MIR3627a, mdm-MIR3627b, mdm-MIR3627c, mdm-MIR477b, mdm-MIR477a, mdm-MIR482b, mdm-MIR482c, mdm-MIR535a, mdm-MIR535b, mdm-MIR535c, mdm-MIR535d, mdm-MIR408b, mdm-MIR408c, mdm-MIR408d, mdm-MIR2118a, mdm-MIR2118b, mdm-MIR2118c, mdm-MIR482d, mdm-MIR5225c, mdm-MIR159c, mdm-MIR7124a, mdm-MIR7124b, mdm-MIR5225a, mdm-MIR5225b, mdm-MIR319c, mdm-MIR393d, mdm-MIR393e, mdm-MIR393f, mdm-MIR171o, mdm-MIR1511, mdm-MIR3627d, mdm-MIR159d, mdm-MIR159e, mdm-MIR159f, mdm-MIR399k, mdm-MIR319d, mdm-MIR319e, mdm-MIR319f, mdm-MIR319g, mdm-MIR395j, mdm-MIR171p, mdm-MIR393g, mdm-MIR393h, mdm-MIR395k, mdm-MIR319h, mdm-MIR171q, mdm-MIR172p, mdm-MIR395l
This result is also consistent with the finding of a previous study where the expression of miR398 was significantly decreased in the floral buds in response to shoot bending, a technique used to promote flowering in apple (Xing et al., 2016). [score:3]
As reported, SPL7 could activate miR398 expression by binding to its core elements in the promoter (Yamasaki et al., 2009). [score:3]
In DE-miRNAs analysis, only miR398, miR408, miR159, and miR156 expressed stronger in vegetative bud. [score:3]
miR408 functions in copper homeostasis regulation together with miR398 in Arabidopsis and Populus (Lu et al., 2005; Ab del-Ghany and Pilon, 2008), and it also involves in the HY5-SPL7 network that mediates the coordinated response to light and copper (Yamasaki et al., 2009; Zhang et al., 2014). [score:2]
Differential and dynamic regulation of miR398 in response to ABA and salt stress in Populus tremula and Arabidopsis thaliana. [score:2]
Among them, miR398, miR408, and miR156 are all related with the repression of SPL genes, a key factor in juvenile growth and a positive regulator of flowering process (Wu et al., 2009; Zhou C. M. et al., 2013). [score:2]
Interestingly, the majority of DE-miRNAs identified in our study (miR162, miR167, miR390, miR393, miR396, miR398, miR408, miR535, miR1511, miR2118, miR3627, and miR7124) showed opposite expression patterns compared to the ones in the previous study on phase transition in apple trees (Xing et al., 2014). [score:2]
miR398 represented the miRNA with the most significant changes among all the DE-miRNAs. [score:1]
Several DE-miRNAs were shown to correlate with SPL genes, such as the vegetative bud-enriched miR156, miR159, miR398, and miR408. [score:1]
[1 to 20 of 9 sentences]
4
[+] score: 3
Other miRNAs from this paper: mdm-MIR156a, mdm-MIR156b, mdm-MIR156c, mdm-MIR156d, mdm-MIR156e, mdm-MIR156f, mdm-MIR156g, mdm-MIR156h, mdm-MIR156i, mdm-MIR156j, mdm-MIR156k, mdm-MIR156l, mdm-MIR156m, mdm-MIR156n, mdm-MIR156o, mdm-MIR156p, mdm-MIR156q, mdm-MIR156r, mdm-MIR156s, mdm-MIR156t, mdm-MIR156u, mdm-MIR156v, mdm-MIR156w, mdm-MIR156x, mdm-MIR156y, mdm-MIR156z, mdm-MIR156aa, mdm-MIR156ab, mdm-MIR156ac, mdm-MIR156ad, mdm-MIR156ae, mdm-MIR159a, mdm-MIR159b, mdm-MIR160a, mdm-MIR160b, mdm-MIR160c, mdm-MIR160d, mdm-MIR160e, mdm-MIR162a, mdm-MIR162b, mdm-MIR166a, mdm-MIR166b, mdm-MIR166c, mdm-MIR166d, mdm-MIR166e, mdm-MIR166f, mdm-MIR166g, mdm-MIR166h, mdm-MIR166i, mdm-MIR167a, mdm-MIR167b, mdm-MIR167c, mdm-MIR167d, mdm-MIR167e, mdm-MIR167f, mdm-MIR167g, mdm-MIR167h, mdm-MIR167i, mdm-MIR167j, mdm-MIR171a, mdm-MIR171b, mdm-MIR171c, mdm-MIR171d, mdm-MIR171e, mdm-MIR171f, mdm-MIR171g, mdm-MIR171h, mdm-MIR171i, mdm-MIR171j, mdm-MIR171k, mdm-MIR171l, mdm-MIR171m, mdm-MIR171n, mdm-MIR172a, mdm-MIR172b, mdm-MIR172c, mdm-MIR172d, mdm-MIR172e, mdm-MIR172f, mdm-MIR172g, mdm-MIR172h, mdm-MIR172i, mdm-MIR172j, mdm-MIR172k, mdm-MIR172l, mdm-MIR172m, mdm-MIR172n, mdm-MIR172o, mdm-MIR319a, mdm-MIR319b, mdm-MIR393a, mdm-MIR393b, mdm-MIR393c, mdm-MIR398a, mdm-MIR398b, mdm-MIR399a, mdm-MIR399b, mdm-MIR399c, mdm-MIR399d, mdm-MIR399e, mdm-MIR399f, mdm-MIR399g, mdm-MIR399h, mdm-MIR399i, mdm-MIR399j, mdm-MIR3627a, mdm-MIR3627b, mdm-MIR3627c, mdm-MIR391, mdm-MIR535a, mdm-MIR535b, mdm-MIR535c, mdm-MIR535d, mdm-MIR827, mdm-MIR5225c, mdm-MIR159c, mdm-MIR5225a, mdm-MIR5225b, mdm-MIR319c, mdm-MIR7125, mdm-MIR7126, mdm-MIR393d, mdm-MIR393e, mdm-MIR393f, mdm-MIR171o, mdm-MIR7128, mdm-MIR858, mdm-MIR1511, mdm-MIR3627d, mdm-MIR159d, mdm-MIR159e, mdm-MIR159f, mdm-MIR166j, mdm-MIR399k, mdm-MIR319d, mdm-MIR319e, mdm-MIR319f, mdm-MIR319g, mdm-MIR171p, mdm-MIR393g, mdm-MIR393h, mdm-MIR319h, mdm-MIR171q, mdm-MIR172p
However, the expression levels of mdm-miR172 and four other miRNA family members, mdm-miR398, 397, 7125 and 408, were significantly higher in the A library than in the J library (Figure  5C,D). [score:3]
[1 to 20 of 1 sentences]
5
[+] score: 1
In total, miR166 was the largest represented miRNA family followed by miR396 and miR398 (Table S1B). [score:1]
[1 to 20 of 1 sentences]