Morphological and DNA markers for Carica papaya L. x Carica quercifolia St. Hil. interspecific hybrid
Issue Date
10-2003
Abstract
Papaya ring spot virus (PRSV) is the most damaging disease of papaya worldwide. The development of genetically resistant varieties offers long term solution to the disease problem. The wild relatives of papaya are potential gene reservoir for PRSV resistance/tolerance confirmed from C. quercifolia, C. stipulata, C. pubescens, C. candicans and C. caulifora. Earlier attempts for introgression of PRSV resistance gene from the wild Carica were not successful due to the reproductive isolation of C. Papaya from other Carica species. Cross compatibility of papaya with its wild relative is an important prerequisite for the introgression of any desired characters from the wild species to the cultivated papaya. Many successful interspecific crosses had been obtained and one of them is C. papaya x C. quercifolia. This putative hybrid, produced through embryo rescue, needs to be assessed to confirm its genetic hybridity. Several morphological markers and a DNA hybridization technique have been used to confirm the genetic identity of the interspecific hybrid plants. Useful morphological markers that are intermediate of the two parents include: the number of main leaf veins, hermaphrodite flowers and numerous (17 to 24) flowers per cluster of the F1 hybrid. Total genomic DNA hybridization profiles indicated partial divergence of the cultivated species from its wild relative and can be used to confirm hybridity.
Source or Periodical Title
Philippine Entomologist
ISSN
0048-3753
Volume
17
Issue
2
Page
186
Document Type
Article
Frequency
semi-annually
Language
English
Recommended Citation
Mendoza-Garces, A. C.; Magdalita, P. M.; Brar, D. S.; and Villegas, V. N., "Morphological and DNA markers for Carica papaya L. x Carica quercifolia St. Hil. interspecific hybrid" (2003). Journal Article. 5713.
https://www.ukdr.uplb.edu.ph/journal-articles/5713
En – AGROVOC descriptors
CARICA PAPAYA; PAPAYA RINGSPOT VIRUS; DNA HYBRIDIGIZATION; PLANT DISEASES; GENETIC MARKERS