The palisade-specific gene IQD22 enhances photosynthetic capacity by phenocopying “sun leaf” architecture

The world requires a rise in crop production which needs to be increased significantly in order to satisfy demand by 2050[1][1]. However traditional plant breeding approaches are anticipated to fall short in delivering the increases in yield required and therefore targeted manipulation of plant metabolism is increasingly being pursued with the aim to achieve this goal[2][2]. Improving photosynthetic efficiency is predicted to have a significant influence on enhancing crop productivity and several ambitious genetic engineering projects are currently under way to achieve higher photosynthetic rates in crops[3][3],[4][4]. A naturally evolved adaptive trait which allows plants to increase photosynthetic efficiency specifically under high light is the differentiation of ‘sun’ leaves which are characterised by an increase in palisade cell layers and more elongated cells within this layer[5][5]. These morphological changes allow a more efficient distribution of light within the leaf and provide an increased cell surface to which chloroplasts can relocate thereby increasing the capacity for CO up-take[6][6]. Here we show that, surprisingly, this complex morphological trait can be phenocopied by the modulation of the expression of a single palisade specific gene, IQD22 , in Arabidopsis . Furthermore, we could show that the architectural changes were reflected in an increase of photosynthetic rate of 30%. The simplicity with which we could enhance photosynthesis by phenocopying sun leave traits is in stark contrast to the complex and challenging metabolic engineering approaches currently being pursued. ### Competing Interest Statement MCM, SK and JAN are listed as inventors on patent applications filed by Rothamsted Research and covering the use of the IQD22 promoter to direct palisade-specific gene expression and the role of IQD22 in enhancing drought tolerance. Please see WO 2020/183191 A1 for details and associated patent family. [1]: #ref-1 [2]: #ref-2 [3]: #ref-3 [4]: #ref-4 [5]: #ref-5 [6]: #ref-6