Add to ORKGVegetative phase change is regulated by a decrease in the abundance of the miRNAs, miR156 and miR157, and the resulting increase in the expression of their targets, SQUAMOSA PROMOTER BINDING PROTEIN-LIKE (SPL) transcription factors. To determine how miR156/miR157 specify the quantitative and qualitative changes in leaf morphology that occur during vegetative phase change, we measured their abundance in successive leaves and characterized the phenotype of mutations in different MIR156 and MIR157 genes. miR156/miR157 decline rapidly between leaf 1&2 and leaf 3 and decrease more slowly after this point. The amount of miR156/miR157 in leaves 1&2 greatly exceeds the threshold required to specify their identity. Subsequent leaves have relatively ...
<p>(A) Developmental variation in miR156, SPL9-GUS mRNA, and SPL9-GUS protein in leaf primordia of C...
SummaryThe FT gene integrates several external and endogenous cues controlling flowering, including ...
The developmental functions of miR156-SPL regulatory network have been extensively studied in Arabid...
Vegetative phase change is regulated by a decrease in the abundance of the miRNAs, miR156 and miR157...
<div><p>Vegetative phase change is regulated by a decrease in the abundance of the miRNAs, miR156 an...
Vegetative phase change is regulated by a decrease in the abundance of the miRNAs, miR156 and miR157...
Leaves produced at different times of shoot development are often morphologically distinct. Some of ...
Leaves produced at different times of shoot development are often morphologically distinct. Some of ...
The timing of the transitions between the juvenile and adult vegetative stages (vegetative phase cha...
SPL3, SPL4 and SPL5 (SPL3/4/5) are closely related members of the SQUAMOSA PROMOTER BINDING PROTEIN-...
The timing of the transitions between the juvenile and adult vegetative stages (vegetative phase cha...
Correct developmental timing is essential for plant fitness and reproductive success. Two important ...
Plants age by developmental phase changes. In Arabidopsis, the juvenile to adult vegetative phase ch...
SummaryThe transition from the juvenile to the adult phase of shoot development in plants is accompa...
Background: The Arabidopsis microRNA156 (miR156) regulates 11 members of the SQUAMOSA PROMOTER BINDI...
<p>(A) Developmental variation in miR156, SPL9-GUS mRNA, and SPL9-GUS protein in leaf primordia of C...
SummaryThe FT gene integrates several external and endogenous cues controlling flowering, including ...
The developmental functions of miR156-SPL regulatory network have been extensively studied in Arabid...
Vegetative phase change is regulated by a decrease in the abundance of the miRNAs, miR156 and miR157...
<div><p>Vegetative phase change is regulated by a decrease in the abundance of the miRNAs, miR156 an...
Vegetative phase change is regulated by a decrease in the abundance of the miRNAs, miR156 and miR157...
Leaves produced at different times of shoot development are often morphologically distinct. Some of ...
Leaves produced at different times of shoot development are often morphologically distinct. Some of ...
The timing of the transitions between the juvenile and adult vegetative stages (vegetative phase cha...
SPL3, SPL4 and SPL5 (SPL3/4/5) are closely related members of the SQUAMOSA PROMOTER BINDING PROTEIN-...
The timing of the transitions between the juvenile and adult vegetative stages (vegetative phase cha...
Correct developmental timing is essential for plant fitness and reproductive success. Two important ...
Plants age by developmental phase changes. In Arabidopsis, the juvenile to adult vegetative phase ch...
SummaryThe transition from the juvenile to the adult phase of shoot development in plants is accompa...
Background: The Arabidopsis microRNA156 (miR156) regulates 11 members of the SQUAMOSA PROMOTER BINDI...
<p>(A) Developmental variation in miR156, SPL9-GUS mRNA, and SPL9-GUS protein in leaf primordia of C...
SummaryThe FT gene integrates several external and endogenous cues controlling flowering, including ...
The developmental functions of miR156-SPL regulatory network have been extensively studied in Arabid...