Two independent loss‐of‐function mutations in anthocyanidin synthase homeologous genes are responsible for the all‐green phenotype of sweet basil

Author:

Gonda Itay1ORCID,Abu‐Abied Mohamad1,Adler Chen1,Milavski Renana12,Tal Ofir1,Davidovich‐Rikanati Rachel1,Faigenboim Adi1,Kahane‐Achinoam Tali1,Shachter Alona1,Chaimovitsh David1,Dudai Nativ12ORCID

Affiliation:

1. Unit of Aromatic and Medicinal Plants, Newe Ya'ar Research Center, Agricultural Research Organization Volcani Institute Ramat‐Yishay Israel

2. The Hebrew University of Jerusalem Faculty of Agriculture Rehovot Israel

Abstract

AbstractSweet basil, Ocimum basilicum L., is an important culinary herb grown worldwide. Although basil is green, many landraces, breeding lines, and exotic cultivars have purple stems and flowers. This anthocyanin pigmentation is unacceptable in traditional Italian basil used for Pesto sauce production. In the current study, we aimed to resolve the genetics that underlines the different colors. We used the recently published sweet basil genome to map quantitative trait loci (QTL) for flower and stem color in a bi‐parental F2 population. It was found that the pigmentation is governed by a single QTL, harboring an anthocyanidin synthase (ANS) gene (EC 1.14.20.4). Further analysis revealed that the basil genome harbors two homeologous ANS genes, each carrying a loss‐of‐function mutation. ObANS1 carries a single base pair insertion resulting in a frameshift, and ObANS2 carries a missense mutation within the active site. In the purple‐flower parent, ANS1 is functional, and ANS2 carries a nonsense mutation. The functionality of the ObANS1 active allele was validated by complementation assay in an Arabidopsis ANS mutant. Moreover, we have restored the functionality of the missense‐mutated ObANS2 using site‐directed activation. We found that the non‐functional alleles were expressed to similar levels as the functional allele, suggesting polyploids invest futile effort in expressing non‐functional genes, offsetting their advantageous redundancy. This work demonstrated the usefulness of the genomics and genetics of basil to understand the basic mechanism of metabolic traits and raise fundamental questions in polyploid plant biology.

Publisher

Wiley

Subject

Cell Biology,Plant Science,Genetics,General Medicine,Physiology

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