Effect of three anthocyaninless genes on germination in tomato (Lycopersicon esculentum Mill.) I. Seed germination under optimal conditions

Abstract

The effect of three mutant genes affecting anthocyanin biosynthesis – anthocyaninless of Hoffmann (ah), anthocyaninwithout (aw) and baby lea syndrome (bls) – on tomato germination capacities at 24 ° C was investigated. The study was performed on nine anthocyanin containing lines – Apedice, Apeca, Ailsa Craig, Monfavet 167, Monfavet 168, Por, Piernita, VF 36 and VFNT cherry and 13 isogenic/near isogenic lines (IL/NIL) from them: 4 differing for gene ah, 3 differing for gene aw and 6 differing for gene bls). In the majority of the anthocyaninless IL/NILs germination began earlier than that in the wild type lines. Significant differences were observed in the time to 50% germination between the anthocyanin-containing and the anthocyaninless IL/NILs except for the most rapidly germinating line VFNT cherry. Seed weight, water uptake, effect of testa removal and presence or absence of maternal effects in F1 germination responses were investigated in order to elucidate the causes of the more rapid germination in the anthocyaninless IL/NILs. The increased amount of water uptake by the anthocyaninless lines, the shorter treatment time necessary for their testa removal, the important maternal effects in the genetic variability of the time to 50% germination and the differences in germination capacities between the wild type and the mutant IL/NILs after testa removal, indicated that the seed coat and the endosperm had to be affected by the effects of the three genes in a way that caused enhanced germination.