miRNA Search Results

sort by 3 publications mentioning stu-MIR395g Open access articles that are associated with the species Solanum tuberosum and mention the gene name MIR395g. Click the [+] symbols to view sentences that include the gene name, or the word cloud on the right for a summary.
1	[+] score: 4 Other miRNAs from this paper: stu-MIR399a, stu-MIR399b, stu-MIR399c, stu-MIR399d, stu-MIR399e, stu-MIR399f, stu-MIR399g, stu-MIR399h, stu-MIR399i, stu-MIR395a, stu-MIR395b, stu-MIR395c, stu-MIR395d, stu-MIR395e, stu-MIR395f, stu-MIR395h, stu-MIR395i, stu-MIR395j, stu-MIR399j, stu-MIR399k, stu-MIR399l, stu-MIR399m, stu-MIR399n, stu-MIR399o The phloem-mobile miR395 appears to operate in a similar fashion as a general component of the regulatory network of sulfate assimilation (Buhtz et al., 2010; Matthewman et al., 2012). [score:2] miR395 is a general component of the sulfate assimilation regulatory network in Arabidopsis. [score:2] [1 to 20 of 2 sentences]
2	[+] score: 2 Other miRNAs from this paper: stu-MIR482c, stu-MIR482b, stu-MIR482a, stu-MIR482d, stu-MIR482e, stu-MIR164, stu-MIR171b, stu-MIR166a, stu-MIR166b, stu-MIR166c, stu-MIR166d, stu-MIR171a, stu-MIR171c, stu-MIR395a, stu-MIR395b, stu-MIR395c, stu-MIR395d, stu-MIR395e, stu-MIR395f, stu-MIR395h, stu-MIR395i, stu-MIR395j, stu-MIR172b, stu-MIR172c, stu-MIR172a, stu-MIR172d, stu-MIR172e, stu-MIR171d, stu-MIR398a, stu-MIR398b, stu-MIR408a, stu-MIR408b, stu-MIR397, stu-MIR390, stu-MIR171e Products of miR159, MYB33, and/or MYB101 genes that act downstream of CBP80 have been shown to be involved in the ABA- mediated regulation of potato responses to drought and similar studies have also identified and characterized microRNA families for drought stress response and their putative target genes including miR171 (stu-miRNA171a, b, and c), miR159, miR164, miR166, miR390, miR395, miR397, miR398, miR408, and miR482 (Hwang et al., 2011a, b; Pieczynski et al., 2013; Zhang et al., 2013). [score:2] [1 to 20 of 1 sentences]
3	[+] score: 1 Other miRNAs from this paper: stu-MIR482c, stu-MIR482b, stu-MIR482a, stu-MIR482d, stu-MIR482e, stu-MIR7992, stu-MIR8016, stu-MIR8038a, stu-MIR8038b, stu-MIR319, stu-MIR6149, stu-MIR399a, stu-MIR399b, stu-MIR399c, stu-MIR399d, stu-MIR399e, stu-MIR399f, stu-MIR399g, stu-MIR399h, stu-MIR164, stu-MIR171b, stu-MIR166a, stu-MIR166b, stu-MIR166c, stu-MIR166d, stu-MIR171a, stu-MIR171c, stu-MIR399i, stu-MIR395a, stu-MIR395b, stu-MIR395c, stu-MIR395d, stu-MIR395e, stu-MIR395f, stu-MIR395h, stu-MIR395i, stu-MIR395j, stu-MIR160a, stu-MIR160b, stu-MIR172b, stu-MIR172c, stu-MIR172a, stu-MIR172d, stu-MIR172e, stu-MIR156a, stu-MIR156b, stu-MIR156c, stu-MIR156d, stu-MIR171d, stu-MIR399j, stu-MIR399k, stu-MIR399l, stu-MIR399m, stu-MIR399n, stu-MIR399o, stu-MIR530, stu-MIR396, stu-MIR397, stu-MIR390, stu-MIR171e, stu-MIR156e, stu-MIR156f, stu-MIR156g, stu-MIR156h, stu-MIR156i, stu-MIR156j, stu-MIR156k, stu-MIR169a, stu-MIR169b, stu-MIR169c, stu-MIR169d, stu-MIR169e, stu-MIR169f, stu-MIR169g, stu-MIR169h On the other hand, potato miR172 and other miRNAs (miR399, miR395) have been shown to be involved in graft transmissible movement through the conductive vascular tissues [20, 47]. [score:1] [1 to 20 of 1 sentences]

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3 publications mentioning stu-MIR395g

Open access articles that are associated with the species Solanum tuberosum and mention the gene name MIR395g. Click the [+] symbols to view sentences that include the gene name, or the word cloud on the right for a summary.

[+] score: 4

Other miRNAs from this paper: stu-MIR399a, stu-MIR399b, stu-MIR399c, stu-MIR399d, stu-MIR399e, stu-MIR399f, stu-MIR399g, stu-MIR399h, stu-MIR399i, stu-MIR395a, stu-MIR395b, stu-MIR395c, stu-MIR395d, stu-MIR395e, stu-MIR395f, stu-MIR395h, stu-MIR395i, stu-MIR395j, stu-MIR399j, stu-MIR399k, stu-MIR399l, stu-MIR399m, stu-MIR399n, stu-MIR399o

The phloem-mobile miR395 appears to operate in a similar fashion as a general component of the regulatory network of sulfate assimilation (Buhtz et al., 2010; Matthewman et al., 2012). [score:2]

miR395 is a general component of the sulfate assimilation regulatory network in Arabidopsis. [score:2]

[1 to 20 of 2 sentences]

[+] score: 2

Other miRNAs from this paper: stu-MIR482c, stu-MIR482b, stu-MIR482a, stu-MIR482d, stu-MIR482e, stu-MIR164, stu-MIR171b, stu-MIR166a, stu-MIR166b, stu-MIR166c, stu-MIR166d, stu-MIR171a, stu-MIR171c, stu-MIR395a, stu-MIR395b, stu-MIR395c, stu-MIR395d, stu-MIR395e, stu-MIR395f, stu-MIR395h, stu-MIR395i, stu-MIR395j, stu-MIR172b, stu-MIR172c, stu-MIR172a, stu-MIR172d, stu-MIR172e, stu-MIR171d, stu-MIR398a, stu-MIR398b, stu-MIR408a, stu-MIR408b, stu-MIR397, stu-MIR390, stu-MIR171e

Products of miR159, MYB33, and/or MYB101 genes that act downstream of CBP80 have been shown to be involved in the ABA- mediated regulation of potato responses to drought and similar studies have also identified and characterized microRNA families for drought stress response and their putative target genes including miR171 (stu-miRNA171a, b, and c), miR159, miR164, miR166, miR390, miR395, miR397, miR398, miR408, and miR482 (Hwang et al., 2011a, b; Pieczynski et al., 2013; Zhang et al., 2013). [score:2]

[1 to 20 of 1 sentences]

[+] score: 1

Other miRNAs from this paper: stu-MIR482c, stu-MIR482b, stu-MIR482a, stu-MIR482d, stu-MIR482e, stu-MIR7992, stu-MIR8016, stu-MIR8038a, stu-MIR8038b, stu-MIR319, stu-MIR6149, stu-MIR399a, stu-MIR399b, stu-MIR399c, stu-MIR399d, stu-MIR399e, stu-MIR399f, stu-MIR399g, stu-MIR399h, stu-MIR164, stu-MIR171b, stu-MIR166a, stu-MIR166b, stu-MIR166c, stu-MIR166d, stu-MIR171a, stu-MIR171c, stu-MIR399i, stu-MIR395a, stu-MIR395b, stu-MIR395c, stu-MIR395d, stu-MIR395e, stu-MIR395f, stu-MIR395h, stu-MIR395i, stu-MIR395j, stu-MIR160a, stu-MIR160b, stu-MIR172b, stu-MIR172c, stu-MIR172a, stu-MIR172d, stu-MIR172e, stu-MIR156a, stu-MIR156b, stu-MIR156c, stu-MIR156d, stu-MIR171d, stu-MIR399j, stu-MIR399k, stu-MIR399l, stu-MIR399m, stu-MIR399n, stu-MIR399o, stu-MIR530, stu-MIR396, stu-MIR397, stu-MIR390, stu-MIR171e, stu-MIR156e, stu-MIR156f, stu-MIR156g, stu-MIR156h, stu-MIR156i, stu-MIR156j, stu-MIR156k, stu-MIR169a, stu-MIR169b, stu-MIR169c, stu-MIR169d, stu-MIR169e, stu-MIR169f, stu-MIR169g, stu-MIR169h

On the other hand, potato miR172 and other miRNAs (miR399, miR395) have been shown to be involved in graft transmissible movement through the conductive vascular tissues [20, 47]. [score:1]

[1 to 20 of 1 sentences]

miRBase

3 publications mentioning stu-MIR395g