Genomics and Applied Biology 2019, Vol.10, No.1, 1-9
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Kobayashi S., Ishimaru M., Hiraoka K., and Honda C., 2002,
Myb
-related genes of the Kyoho grape (
Vitis labruscana
) regulate anthocyanin biosynthesis,
Planta, 215(6): 924-933
PMid:12355152
Kwak P.B., Wang Q.Q., Chen X.S., Qiu C.X., and Yang Z.M., 2009, Enrichment of a set of microRNAs during the cotton fiber development, BMC Genomics,
10(1): 1-11
PMid:19788742 PMCid:PMC2760587
Lee R.C., Feinbaum R.L., and Ambros V., 1993, The C. elegans he terochronic gene lin-4 encodes small RNAs with antisense complementarity to lin-14, Cell,
75(5): 843-854
Lu H.P., Fei X.Y., Liang M.Z., Wang L.B., and Lin Z., 2012, Analysis of aAnthocyanins in Zijuan Tea, Shipin Kexue (Journal of Food Science), 33(22):
203-206
Mica E., Gianfranceschi L., and Pè M.E., 2006, Characterization of five microRNA families in maize, Journal of Experimental Botany, 57(11): 2601-2612
PMid:16820394
Sunkar R., and Zhu J.K., 2004, Novel and stress-regulated micro-RNAs and other small RNAs from Arabidopsis, Plant Cell, 16(8): 2001-2019
PMid:15258262 PMCid:PMC519194
Sunkar R., Girke T., Jain P.K., and Zhu J.K., 2005, Cloning and characterization of microRNAs from rice, Plant Cell, 17(5): 1397-1411
PMid:15805478 PMCid:PMC1091763
Takos A.M., Jaffe F.W., Jacob S.R., Bogs J., Robinson S.P., and Walker A.R., 2006, Light-induced expression of a MYB gene regulates anthocyanin
biosynthesis in red apples, Plant Physiology, 142(3): 1216-1232
PMid:17012405 PMCid:PMC1630764
Wang L., Du H.Y., and Ta-na W.Y., 2016, Genome-wide identification of MicroRNAs and their targets in the leaves and fruits of Eucommia ulmoides using
high-through put sequencing, Frontiers in Plant Science, 7: 1632
PMid:27877179 PMCid:PMC5099690
Wei R.M., Qiu D.Y., Wilson I.W., Huan Z., Lu S.F., Miao J.H., Feng S.X., Bai L.H., Wu Q.H., Tu D.P., Ma X.J., and Tang Q., 2015, Identification of novel and
conserved microRNAs in Panax notoginseng roots by high-through put sequencing, BMC Genomics, 16: 835
PMid:26490136 PMCid:PMC4618736
Wen M., Shen Y., Shi S.H., and Tang T., 2012, miREvo: an integrative microRNA evolutionary analysis platform for nextgeneration sequencing experiments,
BMC Bioinformatics, 13(1): 140
PMid:22720726 PMCid:PMC3410788
Xia T., and Gao L.P., 2009, Advances in biosynthesis pathways and regulation of flavonoids and catechins, Zhongguo Nongye Keue (Scientia Agricultura
Sinica), 42(8): 2899-2908
Xu F., Liu Q., Chen L.Y., Kuang J.B., Walk T., Wang J.X., and Liao H., 2013, Genome-wide identification of soybean microRNAs and their targets reveals their
organ-specificity and responses to phosphate starvation, BMC Genomics, 14: 66
PMid:23368765 PMCid:PMC3673897
Yang P.C., Zhou B., and Li Y.H., 2012, The bHLH transcription factors involved in anthocyanin biosynthesis in plants, Zhiwu Shengli Xuebao (Plant
Physiology Journal), 48(8): 747-758
Zhang B.H., Wang Q.L., and Pan X.P., 2007, MicroRNAs and their regulatory roles in animals and plants, Journal of Cellular Physiology, 210(2): 279-289
PMid:17096367
Zhong R.Q., Richardson E.A., and Ye Z.H., 2007, Two NAC domain transcription factors, SND1 and NST1, function redundantly in regulation of secondary
wall synthesis in fibers of Arabidopsis, Planta, 225(6): 1603-1611
PMid:17333250
Zhou X., Jiang Y., and Yu D., 2011, WRKY22 tanscription factor mediates dark-induced leaf senescence in Arabidopsis, Moleculer Cells, 31(4): 303-313
PMid:21359674 PMCid:PMC3933965
