Characterization of cytoplasmic female sterility in an alloplasmic and monosomic addition line of Brassica rapa carrying the cytoplasm and one chromosome of Diplotaxis tenuifolia.

Abstract

Alloplasmic plants exhibit various phenotypic changes such as cytoplasmic male sterility (CMS). We have been attempting to produce an alloplasmic Brassica rapa CMS line (2n = 20) carrying Diplotaxis tenuifolia cytoplasm (cyt-Dt) for several years, but a single extra chromosome always remained in all lines produced. We confirmed a D. tenuifolia-specific band in the alloplasmic line carrying D. tenuifolia cytoplasm by RAPD analysis, indicating that the additional chromosome was derived from D. tenuifolia. Here, we observed the phenotypic characteristics of the alloplasmic B. rapa monosomic addition line, named (cyt-Dt) B. rapa MAL, and investigated why a single extra chromosome is required in its genetic background for viability. When the (cyt-Dt) B. rapa MALs were crossed with pollen of several B. rapa lines, approximately 50% of the ovules attracted pollen tubes, and all the progeny had the additional chromosome. These results suggested that only the female gametes with n = 11 rather than n = 10 were fertilized and developed into mature seeds, and that cytoplasmic female sterility was overcome by nuclear restorer gene(s) derived from the cytoplasmic donor species.