TY - JOUR T1 - COMPOSITUM 1 (COM1) contributes to the architectural simplification of barley inflorescence via cell wall-mediated and meristem identity signals JF - bioRxiv DO - 10.1101/2020.02.18.952705 SP - 2020.02.18.952705 AU - N. Poursarebani AU - C. Trautewig AU - M. Melzer AU - T. Nussbaumer AU - U. Lundqvist AU - T. Rutten AU - T. Schmutzer AU - R. Brandt AU - A. Himmelbach AU - L. Altschmied AU - R. Koppolu AU - H. M. Youssef AU - M. Dalmais AU - A. Bendahmane AU - N. Stein AU - Z. Xin AU - T. Schnurbusch Y1 - 2020/01/01 UR - http://biorxiv.org/content/early/2020/03/20/2020.02.18.952705.abstract N2 - Grasses have varying inflorescence shapes; however, little is known about the genetic mechanis ms specifying such shapes among tribes. We identified the grass-specific TCP transcription factor COMPOSITUM 1 (COM1) expressed in inflorescence meristematic boundaries of differe nt grasses. COM1 specifies branch-inhibition in Triticeae (barley) versus branch-formation in non-Triticeae grasses. Analyses of cell size, cell walls and transcripts revealed barley COM1 regulates cell growth, affecting cell wall properties and signaling specifically in meristematic boundaries to establish identity of adjacent meristems. COM1 acts upstream of the boundary gene Liguleless1 and confers meristem identity independent of the COM2 pathway. Furthermore, COM1 is subject to purifying natural selection, thereby contributing to specification of the spike inflorescence shape. This meristem identity module has conceptual implications for both inflorescence evolution and molecular breeding in Triticeae. ER -