Frequent amplification of DNA at 20q or part of 20q has been demonstrated by comparative genomic hybridization in ovarian cancer (OC), but the genetic target(s) of these amplification events remain unknown. We examined copy-number changes with respect to six candidate genes, E2F1 (20q11.2), TGIF2 (20q11.2), AIB1 (20q12), PTPN1 (20q13.1), ZNF217 (20q13.2), and BTAK (20q13), and then measured transcription levels of each candidate in 18 OC cell lines. Three distinct cores of amplification were identified: 20q11.2, harboring E2F1 and TGIF2 (region I; 1 of 18 cell lines, 5.6%); 20q13.1, harboring PTPN1 (region II; 5 lines, 27.8%); and 20q13.2, harboring ZNF217 and BTAK (region III; 6 lines, 33.3%). Among the six genes examined, expression levels of PTPN1 and ZNF217 were significantly correlated with absolute copy-number, and those of PTPN1 and TGIF2 were significantly correlated with copy-number relative to the centromere of chromosome 20 (20cen). Among 19 primary OCs examined, moreover, we observed amplification of TGIF2, PTPN1 and ZNF217 in five (26.3%), ten (52.6%), and twelve (63.2%) tumors, respectively. Expression levels of PTPN1 and ZNF217 were significantly correlated with their copy-numbers in those primary OCs. Our results suggest that 20q amplifications in OCs can be extensive and complex, probably due to synergistic or non-synergistic amplification of separate regions of 20q, involving multiple, independently amplified targets.