%A Drummond,Revel %A Sheehan,Hester %A Simons,Joanne %A Martínez-Sánchez,N %A Turner,Rebecca %A Putterill,Joanna %A Snowden,Kimberley %D 2012 %J Frontiers in Plant Science %C %F %G English %K Arabidopsis,axillary branching,dad,development,max,Petunia,strigolactone %Q %R 10.3389/fpls.2011.00115 %W %L %M %P %7 %8 2012-January-10 %9 Original Research %+ Dr Kimberley Snowden,The New Zealand Insitute for Plant and Food Research Limited,Genomics,120 Mt Albert Road,Private Bag 92169,Auckland mail Centre,Auckland,1142,New Zealand,kimberley.snowden@plantandfood.co.nz %# %! Developmental regulation of branching genes %* %< %T The Expression of Petunia Strigolactone Pathway Genes is Altered as Part of the Endogenous Developmental Program %U https://www.frontiersin.org/articles/10.3389/fpls.2011.00115 %V 2 %0 JOURNAL ARTICLE %@ 1664-462X %X Analysis of mutants with increased branching has revealed the strigolactone synthesis/perception pathway which regulates branching in plants. However, whether variation in this well conserved developmental signaling system contributes to the unique plant architectures of different species is yet to be determined. We examined petunia orthologs of the ArabidopsisMAX1 and MAX2 genes to characterize their role in petunia architecture. A single ortholog of MAX1, PhMAX1 which encodes a cytochrome P450, was identified and was able to complement the max1 mutant of Arabidopsis. Petunia has two copies of the MAX2 gene, PhMAX2A and PhMAX2B which encode F-Box proteins. Differences in the transcript levels of these two MAX2-like genes suggest diverging functions. Unlike PhMAX2B, PhMAX2A mRNA levels change in leaves of differing age/position on the plant. Nonetheless, this gene functionally complements the Arabidopsismax2 mutant indicating that the biochemical activity of the PhMAX2A protein is not significantly different from MAX2. The expression of the petunia strigolactone pathway genes (PhCCD7, PhCCD8, PhMAX1, PhMAX2A, and PhMAX2B) was then further investigated throughout the development of wild-type petunia plants. Three of these genes showed changes in mRNA levels over a development series. Alterations to the expression patterns of these genes may influence the branching growth habit of plants by changing strigolactone production and/or sensitivity. These changes could allow both subtle and dramatic changes to branching within and between species.