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Sugar Promotes Vegetative Phase Change In Arabidopsis Thaliana By Repressing The Expression Of Mir156a And Mir156c, Li Yang, Mingli Xu, Yeonjong Koo, Jia He, R. Scott Poethig
Sugar Promotes Vegetative Phase Change In Arabidopsis Thaliana By Repressing The Expression Of Mir156a And Mir156c, Li Yang, Mingli Xu, Yeonjong Koo, Jia He, R. Scott Poethig
Faculty Publications
Nutrients shape the growth, maturation, and aging of plants and animals. In plants, the juvenile to adult transition (vegetative phase change) is initiated by a decrease in miR156. In Arabidopsis, we found that exogenous sugar decreased the abundance of miR156, whereas reduced photosynthesis increased the level of this miRNA. This effect was correlated with a change in the timing of vegetative phase change, and was primarily attributable to a change in the expression of two genes, MIR156A and MIR156C, which were found to play dominant roles in this transition. The glucose-induced repression of miR156 was dependent on the …
Parsimony And Model-Based Analyses Of Indels In Avian Nuclear Genes Reveal Congruent And Incongruent Phylogenetic Signals, Tamaki Yuri, Rebecca T. Kimball, John Harshman, Rauri C.K. Bowie, Michael J. Braun, Jena L. Chojnowski, Kin-Lan Han, Shannon J. Hackett, Christopher J. Huddleston, William S. Moore, Sushma Reddy, Frederick H. Sheldon, David W. Steadman, Christopher C. Witt, Edward L. Braun
Parsimony And Model-Based Analyses Of Indels In Avian Nuclear Genes Reveal Congruent And Incongruent Phylogenetic Signals, Tamaki Yuri, Rebecca T. Kimball, John Harshman, Rauri C.K. Bowie, Michael J. Braun, Jena L. Chojnowski, Kin-Lan Han, Shannon J. Hackett, Christopher J. Huddleston, William S. Moore, Sushma Reddy, Frederick H. Sheldon, David W. Steadman, Christopher C. Witt, Edward L. Braun
Faculty Publications
Insertion/deletion (indel) mutations, which are represented by gaps in multiple sequence alignments, have been used to examine phylogenetic hypotheses for some time. However, most analyses combine gap data with the nucleotide sequences in which they are embedded, probably because most phylogenetic datasets include few gap characters. Here, we report analyses of 12,030 gap characters from an alignment of avian nuclear genes using maximum parsimony (MP) and a simple maximum likelihood (ML) framework. Both trees were similar, and they exhibited almost all of the strongly supported relationships in the nucleotide tree, although neither gap tree supported many relationships that have proven …