| Literature DB >> 34757543 |
Dingbin Gong1,2, Min Tao1,2, Lihui Xu1,2, Fangzhou Hu1,2, Zehong Wei1,2, Shi Wang1,2, Yude Wang1,2, Qingfeng Liu1,2, Chang Wu1,2, Kaikun Luo1,2, Chenchen Tang1,2, Rong Zhou1,2, Chun Zhang1,2, Yuequn Wang3,4, Shaojun Liu5,6.
Abstract
Distant hybridization is an important technique in fish genetic breeding. In this study, based on the establishment of an allodiploid fish lineage (BT, 2n=48, F1-F6) derived from distant hybridization between female Megalobrama amblycephala (BSB, 2n=48) and male Culter alburnus (TC, 2n=48), and the backcross progeny (BTB, 2n=48) derived by backcrossing female F1 of BT to male BSB, an improved hybrid bream (BTBB, 2n=48) was obtained by backcrossing BTB (♀) to BSB (♂). Moreover, the morphological and genetic characteristics of BTBB individuals were investigated; BTBB was similar to BSB in appearance but had a higher body height than BSB. The study results regarding chromosome numbers and DNA content indicated that BTBB is a diploid hybrid fish. The 5S rDNA and Hox gene of BTBB were inherited from the original parents. Gonadal development in BTBB was normal. On the other hand, BTBB had a faster growth rate, higher muscle protein level, and lower muscle carbohydrate level than BSB. Hence, bisexual fertile BTBB is promoted and can be applied as a high-quality fish, and it can also be used as a new fish germplasm resource to develop high-quality fish further. Thus, this study is of great significance for fish genetic breeding.Entities:
Keywords: Megalobrama amblycephala; backcrossing; distant hybridization; improved germplasm resources
Mesh:
Year: 2021 PMID: 34757543 DOI: 10.1007/s11427-021-2005-5
Source DB: PubMed Journal: Sci China Life Sci ISSN: 1674-7305 Impact factor: 10.372