Characterization of Thinopyrum intermedium Alien Chromosomes and Their Translocations in Wheat Derivatives of Zhong 5 by Multicolor Fluorescence in situ Hybridization
Characterization of Thinopyrum intermedium Alien Chromosomes and Their Translocations in Wheat Derivatives of Zhong 5 by Multicolor Fluorescence in situ Hybridization作者机构:Institute of Crop Germplasm Resources Chinese Academy of Agricultural Sciences Bei jing 100081 Queensland Wheat Research Institute P.O. Box 2282 Toowoomba Queensland 4350 Australia CSIRO Division of Plant Industry Australia
出 版 物:《Agricultural Sciences in China》 (中国农业科学(英文版))
年 卷 期:2000年第1期
页 面:56-62页
核心收录:
学科分类:09[农学]
主 题:Wheat Thinopyrum intermedium Addition Translocation FISH
摘 要:Z1, Z2, Z3, Z4, Z5 and Z6 are alien addition lines to wheat involving Thinopyrum intermedium chromosomes. We have characterized the Thinopyrum intermedium chromosomes or segments in these lines using multi-color florescence in situ hybridization. The probes used included total genomic DNA of Pseudoroegneria stipfolia (St) and cloned probes of highly tandem repetitive DNA pSc119. 2 and pAs1. Disomic addition lines Z1, Z2 and Z6 have the same single pair of alien chromo-somes carrying the resistant gene(s) to barley yellow dwarf virus (BYDV). This alien chromosome is a St/E translocation; within the long arm, there is a big insertion of an E-genome chromosomalsegment (30%). Disomic addition line Z3 carries one pair of St/E Robertsonian translocation chromosomes ; on the short arm (E) there is a nuclear organizer region, which expresses in some cells. In Z5, the added chromosome is one pair of translocated chromosomes. Chromosomes 2D, 3D and 3Stwere involved in the translocation with great possibility〔2IS · 3DL (0. 47) - 3StL (0. 53)〕. The St segment is responsible for resistance to leaf and stem rusts. Addition line Z4 also carries the translo cated chromosome found in Z5, but in addition carries one pair of 7AS (0. 64) - 7StS (0. 36) · 7StL translocation chromosomes. The 7St fragment bears the stripe rust resistance, and replaces the normal 7A. All of the translocations in Z1, Z2, Z6 and Z3 existed in one of their parents, the wheat Th. intermedium partial amphiploid, Zhong 5. The two wheat-Th. intermedium translocations in Z4 and Z5 occurred during the backcrossing of Zhong 5 to the other wheat varieties in the development of the addition lines. Spontaneous homoeologous translocations showed a close genome relationship between wheat and Th. intermedium. This paper also demonstrated the potential of highly repetitive sequences DNA in verification and characterization of translocation chromosomes.