PT  - JOURNAL ARTICLE
AU  - Emanuela Franchini
AU  - Veronica M. Beretta
AU  - Israr Ud Din
AU  - Elia Lacchini
AU  - Lisa Van den Broeck
AU  - Rosangela Sozzani
AU  - Gregorio Orozco-Arroyo
AU  - Hélène Adam
AU  - Stefan Jouannic
AU  - Veronica Gregis
AU  - Martin M. Kater
TI  - The ALOG family members <em>OsG1L1</em> and <em>OsG1L2</em> regulate inflorescence branching in rice
AID  - 10.1101/2021.05.03.442460
DP  - 2021 Jan 01
TA  - bioRxiv
PG  - 2021.05.03.442460
4099  - http://biorxiv.org/content/early/2021/05/03/2021.05.03.442460.short
4100  - http://biorxiv.org/content/early/2021/05/03/2021.05.03.442460.full
AB  - The architecture of the rice inflorescence is an important determinant of seed yield. The length of the inflorescence and the number of branches are among the key factors determining the amount of spikelets, and thus seeds, that will develop. Especially the timing of the identity transition from indeterminate branch meristem to determinate spikelet meristem regulates the complexity of the inflorescence. In this context, the ALOG gene TAWAWA1 (TAW1) has been shown to delay the transition to determinate spikelet development in rice. Recently, by combining precise laser microdissection of inflorescence meristems with RNA-seq we observed that two ALOG genes, Oryza sativa OsG1-like 1 (OsG1L1) and OsG1L2, have an expression profile similar to TAW1. Here we report that osg1l1 and osg1l2 loss-of-function CRISPR mutants have similar phenotypes as the taw1 mutant, suggesting that these genes might act on related pathways during inflorescence development. Transcriptome analysis of the osg1l2 mutant suggested interactions of OsG1L2 with other known inflorescence architecture regulators and the datasets were also used for the construction of a gene regulatory network (GRN) proposing interactions between genes potentially involved in controlling inflorescence development in rice.The spatio-temporal expression profiling and phenotypical analysis of CRISPR loss-of-function mutants of the homeodomain-leucine zipper transcription factor gene OsHOX14 suggest that the proposed GRN indeed serves as a valuable resource for the identification of new players involved in rice inflorescence development.One-sentence summary OsG1L1 and OsG1L2 control panicle architecture through delaying the transition from indeterminate branch- to determinate spikelet-meristem identity.