"Based on these results, our study focused on the development of a new colour for a tomato, rich both in β-carotene and chlorophyll. We assessed colour segregation as well as β-carotene and chlorophyll levels in populations F1 and F2 obtained by crossing orange and brown tomatoes," explains a researcher from the Sunchon National University (North Korea).
Colour of generation F2 ripe fruits
"We crossed two inbred lines - KNY2 (orange) and KNB1 (brown) - and assessed the relation between these genes and their effect on the colour of the fruit. The phenotypes of generation F2 plants were then analysed and a new orange-brown colour was identified."
The molecular analysis of the genome confirmed that there are two SNPs in the CYC-B and SGR gene sequence associated with the segregation of the orange-brown colour in generation F2. The carotenoid and chlorophyll content was analysed in the different phenotypes and showed a strong correlation between carotenoid biosynthesis genes and the function of gene SGR.
This study developed a new tomato colour with an orange-brown phenotype. The fruit has a high β-carotene content and retains its chlorophyll content during ripening.
Gene expression CYC-B coincides with β-carotene accumulation, while the point mutation of gene SGR inhibits the protein function and therefore impedes chlorophyll degradation. Researchers concluded that "our results provide important information to develop and grow tomato cultivars with a new colour using molecular markers."
Source: Ranjith Kumar Manoharan, Hee-Jeong Jung, Indeok Hwang, Namhee Jeong, Kang Hee Kho, Mi-Young Chung, Ill-Sup Nou, 'Molecular breeding of a novel orangebrown tomato fruit with enhanced beta-carotene and chlorophyll accumulation', 2017, Hereditas, Vol. 154:1.
DOI 10.1186/s41065-016-0023-z