ABSTRACT
The papaya (Carica papaya L.) is one of the most important economic tropical fruits in the world, and the hermaphrodite is the preferred type in field cultures. We analyzed the sexual ratio of offspring from the cultivar 'Taiwan Seed Station No. 7' (T7) by a self-cross and its cross with Taichung Sunrise (TS). Female progeny from the T7 self-crossing were not observed. This finding may be caused by a lethal gene that is linked to females. In this study, we selected 192 simple sequence repeats (SSRs) to analyze the polymorphism between T7 and TS. A total of 37 SSRs were identified for T7 and TS. In addition, 14 SSRs served as the molecular makers for identification of T7, TS and their hybrid offsprings. Thus, the results show that the genetic similarity between T7 and TS is rather high. This suggests that T7 may be a mutant of TS. Phylogenetic analysis from the SSR polymorphisms of the above parent strains and 15 F1 offspring revealed the genetic distance of the F1 offspring located between T7 and TS. The results of this study may provide an opportunity for elucidating the genetic characteristics of all hermaphrodites via identification of molecular makers.
Subject(s)
Carica/genetics , Hermaphroditic Organisms/genetics , Microsatellite Repeats , Polymorphism, Genetic , Genes, Lethal , Genetic Markers , Genome, Plant , SexABSTRACT
Papaya (Carica papaya L.) plants are polygamous, with female, male, and hermaphroditic flowers. To understand the roles of MADS-box genes in flower development and sex determination, we cloned cDNAs of E-class genes CpMADS1 and CpMADS3 and a TM6 lineage of the B-class gene CpMADS2 from young flower buds of papaya. Reverse transcription-polymerase chain reaction (RT-PCR) and real-time PCR analyses revealed that CpMADS1 and CpMADS3 were preferentially expressed in the carpel and also in petals and stamens. CpMADS2 was expressed in both petals and stamens early during floral development. Comparison of 10 papaya genotypes of 5 different sex phenotypes - hermaphrodite, male, female, progeny-all-hermaphrodite, and progeny-all-male - by Southern blot analysis of genomic DNAs with probes of the 3 genes revealed similar restriction patterns and copy number, suggesting a low relationship of the 3 CpMADS genes with sex expression of papaya plants at the genomic level.