08. November 2022

New publication in NEW PHYTOLOGIST New publication in NEW PHYTOLOGIST

Marcel Baer and Graziana Taramino et al. published a paper on cloning and characterization of the maize lrt1 gene: Maize lateral rootless 1 encodes a homolog of the DCAF protein subunit of the CUL4-based E3 ubiquitin ligase complex

Phenotype and cloning of Zea mays lrt1
Phenotype and cloning of Zea mays lrt1 - (a) Wild-type (WT) and lrt1 seedlings grown on a germination paper, 10 d after germination. (b) WT and lrt1seedlings grown on a germination paper, 30 d after germination. © Marcel Baer
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In maize (Zea mays L.), lateral roots are formed in the differentiation zone of all root types in a multi-step process. The maize mutant lateral rootless 1 (lrt1) is defective in lateral root formation in primary and seminal roots but not in shoot-borne roots. We cloned the lrt1 gene by mapping in combination with BSA-seq and subsequent validation via CRISPR/Cas9. The lrt1 gene encodes a 209 kDa homolog of the DDB1-CUL4-ASSOCIATED FACTOR (DCAF) subunit of the CUL4-based E3 ubiquitin ligase (CRL4) complex localized in the nucleus. DDB1-CUL4-ASSOCIATED FACTOR proteins are encoded by an evolutionary old gene family already present in nonseed plants. They are adaptors that bind substrate proteins and promote their ubiquitylation, thus typically marking them for subsequent degradation in the 26S proteasome. Gene expression studies demonstrated that lrt1 transcripts are expressed preferentially in the meristematic zone of all root types of maize. Downregulation of the rum1 gene in lrt1 mutants suggests that lrt1 acts upstream of the lateral root regulator rum1. Our results demonstrate that DCAF proteins play a key role in root-type-specific lateral root formation in maize. Together with its role in nitrogen acquisition in nitrogen-poor soil, lrt1 could be a promising target for maize improvement.
 

You can find more here: https://pubmed.ncbi.nlm.nih.gov/36345913/

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