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3 publications mentioning ptc-MIR393c

Open access articles that are associated with the species Populus trichocarpa and mention the gene name MIR393c. Click the [+] symbols to view sentences that include the gene name, or the word cloud on the right for a summary.

1
[+] score: 10
Other miRNAs from this paper: ptc-MIR156a, ptc-MIR156b, ptc-MIR156c, ptc-MIR156d, ptc-MIR156e, ptc-MIR156f, ptc-MIR156g, ptc-MIR156h, ptc-MIR156i, ptc-MIR156j, ptc-MIR156k, ptc-MIR159a, ptc-MIR159b, ptc-MIR159d, ptc-MIR159e, ptc-MIR159c, ptc-MIR160a, ptc-MIR160b, ptc-MIR160c, ptc-MIR160d, ptc-MIR160e, ptc-MIR160f, ptc-MIR160g, ptc-MIR160h, ptc-MIR164a, ptc-MIR164b, ptc-MIR164c, ptc-MIR164d, ptc-MIR164e, ptc-MIR164f, ptc-MIR166a, ptc-MIR166b, ptc-MIR166c, ptc-MIR166d, ptc-MIR166e, ptc-MIR166f, ptc-MIR166g, ptc-MIR166h, ptc-MIR166i, ptc-MIR166j, ptc-MIR166k, ptc-MIR166l, ptc-MIR166m, ptc-MIR166n, ptc-MIR166o, ptc-MIR166p, ptc-MIR166q, ptc-MIR167a, ptc-MIR167b, ptc-MIR167c, ptc-MIR167d, ptc-MIR167e, ptc-MIR167f, ptc-MIR167g, ptc-MIR167h, ptc-MIR169a, ptc-MIR169aa, ptc-MIR169ab, ptc-MIR169ac, ptc-MIR169ad, ptc-MIR169ae, ptc-MIR169af, ptc-MIR169b, ptc-MIR169c, ptc-MIR169d, ptc-MIR169e, ptc-MIR169f, ptc-MIR169g, ptc-MIR169h, ptc-MIR169i, ptc-MIR169j, ptc-MIR169k, ptc-MIR169l, ptc-MIR169m, ptc-MIR169n, ptc-MIR169o, ptc-MIR169p, ptc-MIR169q, ptc-MIR169r, ptc-MIR169s, ptc-MIR169t, ptc-MIR169u, ptc-MIR169v, ptc-MIR169w, ptc-MIR169x, ptc-MIR169y, ptc-MIR169z, ptc-MIR171a, ptc-MIR171b, ptc-MIR171c, ptc-MIR171d, ptc-MIR171e, ptc-MIR171f, ptc-MIR171g, ptc-MIR171h, ptc-MIR171i, ptc-MIR172a, ptc-MIR172b, ptc-MIR172c, ptc-MIR172d, ptc-MIR172e, ptc-MIR172f, ptc-MIR172g, ptc-MIR172h, ptc-MIR172i, ptc-MIR319a, ptc-MIR319b, ptc-MIR319c, ptc-MIR319d, ptc-MIR319e, ptc-MIR319f, ptc-MIR319g, ptc-MIR319h, ptc-MIR319i, ptc-MIR390a, ptc-MIR390b, ptc-MIR390c, ptc-MIR390d, ptc-MIR393a, ptc-MIR393b, ptc-MIR395a, ptc-MIR395b, ptc-MIR395c, ptc-MIR395d, ptc-MIR395e, ptc-MIR395f, ptc-MIR395g, ptc-MIR395h, ptc-MIR395i, ptc-MIR395j, ptc-MIR396a, ptc-MIR396b, ptc-MIR396c, ptc-MIR396d, ptc-MIR396e, ptc-MIR396f, ptc-MIR396g, ptc-MIR398a, ptc-MIR398b, ptc-MIR398c, ptc-MIR171k, ptc-MIR171l, ptc-MIR171m, ptc-MIR171j, ptc-MIR1446a, ptc-MIR1446b, ptc-MIR1446c, ptc-MIR1446d, ptc-MIR1446e, ppe-MIR171f, ppe-MIR171h, ppe-MIR171a, ppe-MIR171e, ppe-MIR169e, ppe-MIR398a, ppe-MIR319a, ppe-MIR319b, ppe-MIR171g, ppe-MIR171b, ppe-MIR171c, ppe-MIR398b, ptc-MIR3627a, ptc-MIR156l, ptc-MIR169ag, ptc-MIR395k, ptc-MIR3627b, ppe-MIR156a, ppe-MIR156b, ppe-MIR156c, ppe-MIR156d, ppe-MIR156e, ppe-MIR156f, ppe-MIR156g, ppe-MIR156h, ppe-MIR156i, ppe-MIR159, ppe-MIR160a, ppe-MIR160b, ppe-MIR164a, ppe-MIR164b, ppe-MIR164c, ppe-MIR164d, ppe-MIR166a, ppe-MIR166b, ppe-MIR166c, ppe-MIR166d, ppe-MIR166e, ppe-MIR167a, ppe-MIR167b, ppe-MIR167c, ppe-MIR167d, ppe-MIR169a, ppe-MIR169b, ppe-MIR169c, ppe-MIR169d, ppe-MIR169f, ppe-MIR169g, ppe-MIR169h, ppe-MIR169i, ppe-MIR169j, ppe-MIR169k, ppe-MIR169l, ppe-MIR171d, ppe-MIR172a, ppe-MIR172b, ppe-MIR172c, ppe-MIR172d, ppe-MIR390, ppe-MIR393a, ppe-MIR393b, ppe-MIR395a, ppe-MIR395b, ppe-MIR395c, ppe-MIR395d, ppe-MIR395e, ppe-MIR395f, ppe-MIR395g, ppe-MIR395h, ppe-MIR395i, ppe-MIR395j, ppe-MIR395k, ppe-MIR395l, ppe-MIR395m, ppe-MIR395n, ppe-MIR395o, ppe-MIR396a, ppe-MIR396b, ppe-MIR3627
The ten most highly expressed miRNAs (miR156, miR157, miR159, miR164, miR167, miR172, miR393, miR396, miR414, miR2275, and miR5021) in buds and leaves are miRNAs regulating genes involved in flower and leaf development processes such as integument development, leaf morphogenesis, meristem initiation, maintenance, and growth, bilateral symmetry determination, organ morphogenesis, plant phase transition, shoot apical meristem identity, flower and fruit development, and plant architecture. [score:7]
In silico expression analyses of miRNAs using DEGseq [25] identified 19 sequences belonging to eight conserved miRNA families (miR156, miR157, miR164, miR172, miR393, miR396, miR414, and miR2275) induced in winter buds versus leaves (Additional file 6: Table S6). [score:3]
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2
[+] score: 8
Other miRNAs from this paper: ptc-MIR393a, ptc-MIR393b
Overexpression of a miR393-resistant form of transport inhibitor response Protein 1 (mTIR1) enhances salt tolerance by increased osmoregulation and Na [+] exclusion in Arabidopsis thaliana. [score:6]
Nitrate-responsive miR393/AFB3 regulatory module controls root system architecture in Arabidopsis thaliana. [score:2]
[1 to 20 of 2 sentences]
3
[+] score: 2
Arabidopsis miR393 was the first miRNA implicated in plant defense to bacterial pathogens, presumably by repressing auxin signaling, and contributes to resistance against virulent Pseudomonas syringae pv. [score:1]
tomato strain DC3000 (Pto DC3000), non-pathogenic P. fluorescens and Escherichia coli, implying that miR393 is a key component of plant basal defense [14], [15]. [score:1]
[1 to 20 of 2 sentences]