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4 publications mentioning vvi-MIR399h

Open access articles that are associated with the species Vitis vinifera and mention the gene name MIR399h. Click the [+] symbols to view sentences that include the gene name, or the word cloud on the right for a summary.

1
[+] score: 28
Therefore, the down-regulation of miR399 may cause suppression of Pi uptake, further contributing to disease symptom development. [score:9]
Putative targets of conserved miRNA families, such as miR156, miR159, miR171 and miR399, identified in this study, correspond to targets found in numerous plant species, including several grapevine cultivars, while the predicted functions of these targets were also similar with previous findings [26, 27, 58, 60, 68– 70] (S6 File). [score:7]
Our results revealed significant down-regulation of vvi-miR399 in AY phytoplasma-infected leaves. [score:4]
A few of these, including vvi-miR395 and vvi-miR399, were differentially expressed in the present study, possibly in response to AY phytoplasma-infection. [score:3]
miR399 positively regulates Pi uptake and translocation by down -regulating PHO2, which encodes a ubiquitin-conjugating E2 enzyme, UBC24 [109, 111]. [score:3]
Interestingly, lower levels of miR399 was also found in phytoplasma-infected material of Mexican lime trees, mulberry, and red date [52, 81, 82]. [score:1]
MicroRNA399 is a long-distance signal for the regulation of plant phosphate homeostasis. [score:1]
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2
[+] score: 1
miR169, miR395 and miR399 loci cluster frequently. [score:1]
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3
[+] score: 1
Other miRNAs from this paper: vvi-MIR156a, vvi-MIR156b, vvi-MIR156c, vvi-MIR156d, vvi-MIR156e, vvi-MIR156f, vvi-MIR156g, vvi-MIR156i, vvi-MIR159a, vvi-MIR159c, vvi-MIR160a, vvi-MIR160b, vvi-MIR160c, vvi-MIR160d, vvi-MIR160e, vvi-MIR162, vvi-MIR164a, vvi-MIR164b, vvi-MIR164c, vvi-MIR164d, vvi-MIR166a, vvi-MIR166b, vvi-MIR166c, vvi-MIR166d, vvi-MIR166e, vvi-MIR166f, vvi-MIR166g, vvi-MIR166h, vvi-MIR167a, vvi-MIR167b, vvi-MIR167c, vvi-MIR167d, vvi-MIR167e, vvi-MIR168, vvi-MIR169a, vvi-MIR169y, vvi-MIR169c, vvi-MIR169d, vvi-MIR169e, vvi-MIR169f, vvi-MIR169g, vvi-MIR169j, vvi-MIR169k, vvi-MIR169m, vvi-MIR169p, vvi-MIR169r, vvi-MIR169s, vvi-MIR169t, vvi-MIR169u, vvi-MIR171a, vvi-MIR171b, vvi-MIR171c, vvi-MIR171d, vvi-MIR171e, vvi-MIR171f, vvi-MIR171h, vvi-MIR171i, vvi-MIR172a, vvi-MIR172b, vvi-MIR172c, vvi-MIR172d, vvi-MIR319b, vvi-MIR319c, vvi-MIR319f, vvi-MIR319g, vvi-MIR393b, vvi-MIR394a, vvi-MIR394b, vvi-MIR395a, vvi-MIR395b, vvi-MIR395c, vvi-MIR395d, vvi-MIR395e, vvi-MIR395f, vvi-MIR395g, vvi-MIR395h, vvi-MIR395i, vvi-MIR395j, vvi-MIR395k, vvi-MIR395l, vvi-MIR395m, vvi-MIR396a, vvi-MIR396b, vvi-MIR396d, vvi-MIR398a, vvi-MIR399a, vvi-MIR399b, vvi-MIR399e, vvi-MIR399g, vvi-MIR408, vvi-MIR479, vvi-MIR535a, vvi-MIR535b, vvi-MIR535c, vvi-MIR156h, vvi-MIR169b, vvi-MIR169h, vvi-MIR169i, vvi-MIR169l, vvi-MIR169n, vvi-MIR169o, vvi-MIR169q, vvi-MIR169v, vvi-MIR169w, vvi-MIR169x, vvi-MIR171g, vvi-MIR319e, vvi-MIR393a, vvi-MIR394c, vvi-MIR395n, vvi-MIR396c, vvi-MIR397a, vvi-MIR398b, vvi-MIR398c, vvi-MIR399c, vvi-MIR399d, vvi-MIR399f, vvi-MIR399i, vvi-MIR403a, vvi-MIR403b, vvi-MIR403c, vvi-MIR403d, vvi-MIR403e, vvi-MIR403f, vvi-MIR477a, vvi-MIR482, vvi-MIR828a, vvi-MIR845a, vvi-MIR845b, vvi-MIR845c, vvi-MIR845d, vvi-MIR845e, vvi-MIR477b, vvi-MIR171j
In some cases, the most commonly observed sequences were identical to at least one of the predicted mature sequences (notably: miR156, miR160, miR164, miR167, miR169, miR172, miR394, miR399) while for other families, the predominant mature miRNA sequenced exhibited small variations (shifts or differences of length of one or two bases) with respect to the predicted mature sequences (e. g. miR166, miR393, miR395, miR396, miR408). [score:1]
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4
[+] score: 1
The medium miRNA families were miR395, miR156, miR166, and miR399, with 13, 9, 8, and 8 members, respectively. [score:1]
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