Live Preservation of Fish Gametes

Reproductive Biology and Phylogeny of Fishes (Agnathans and Bony Fishes) Pub Date : 2019-09-12 DOI:10.1201/b10257-12

K. Leung

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引用次数: 48

Abstract

The term cryopreservation is used to describe the freezing and long-term storage of living cells, tissues and organs. Successful cryopreservation is well established for sperm cells from many fish species, but a technique for true cryopreservation of fish ova has proved elusive. Cryopreservation or longterm storage of fish eggs or embryos would be beneficial to the fish aquaculture industry. It would provide a method of retaining specific genetic lines of fish without the expense of maintaining broodstock populations and would provide a secondary source of a genetic line in case of broodstock loss or would allow the preservation of endangered genetic lines in wild populations (Jamieson 1991 and references below). Reports of successful freezing of viable Rainbow Trout (Oncorhynchus mykiss=Salmo gairdneri) eggs to -55oC (Zell 1978) or to -20oC (Erdahl and Graham 1980) were subsequently interpreted as supercooling (Harvey and Ashwood-Smith 1982). Successful hatching from vitrified embryos has been claimed for sea perch (Lateolabrax japonicus) (Tian et al. 2003) and Japanese Flounder (Paralichthys olivaceus) embryos (Chen and Tian 2005). However, the protocol of Chen and Tian (2005) was not found to be successful for Japanese flounder (Paralichthys olivaceus) embryos (Edashige et al. 2006) and although (Zhao et al. 2005) achieved some successful hatching the larvae had only a short survival. Vitrification of Turbot (Psetta maxima=Scophthalmus maximus) (Robles et al. 2003b) and red sea bream (Pagrus major) embryos also failed to produce viable larvae (Ding et al. 2007). A novel procedure involving vacuum equilibration for viable freezing of fish eggs to -196oC was introduced by

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鱼类配子的活体保存

冷冻保存这个术语是用来描述活细胞、组织和器官的冷冻和长期储存。对许多鱼类的精子细胞进行成功的低温保存已经建立起来，但对鱼类卵子进行真正的低温保存的技术却被证明是难以捉摸的。低温保存或长期储存鱼卵或胚胎将有利于鱼类养殖业。它将提供一种保留鱼类特定遗传品系的方法，而不必花费维持亲鱼种群的费用，并将在亲鱼种群丧失的情况下提供遗传品系的次要来源，或允许在野生种群中保存濒危遗传品系(Jamieson 1991年和下文参考文献)。成功将活虹鳟鱼(Oncorhynchus mykiss=Salmo gairdneri)卵冷冻至-55℃(Zell 1978)或-20℃(Erdahl and Graham 1980)的报道随后被解释为过冷(Harvey and Ashwood-Smith 1982)。据报道，海鲈(Lateolabrax japonicus) (Tian et al. 2003)和牙鲆(parichthys olivaceus)胚胎的玻璃化胚胎已成功孵化(Chen and Tian 2005)。然而，Chen和Tian(2005)的方案并未成功用于日本比目鱼(parichthys olivaceus)胚胎(Edashige et al. 2006)，尽管(Zhao et al. 2005)取得了一些成功的孵化，但幼虫的存活时间很短。大菱鲆(Psetta maxima=Scophthalmus maximus) (Robles et al. 2003b)和红鲷鱼(Pagrus major)胚胎的玻璃化也未能产生可存活的幼虫(Ding et al. 2007)。介绍了一种利用真空平衡将鱼卵冷冻至-196℃的新方法

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Reproductive Biology and Phylogeny of Fishes (Agnathans and Bony Fishes)

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