Viability, growth and external morphology of meiotic- and mitotic-gynogenetic diploids in red sea bream, Pagrus major

Kato, Ryu; Murata,; Yamamoto,; Miyashita,; Kumai,

doi:10.1046/j.1439-0426.2001.00243.x

Cited by 21 publications

(13 citation statements)

References 20 publications

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“…Similar results for red sea bream were described by Kato et al. (). A lower survival rate was observed in gynogenetic red sea bream juveniles (1–90 dph) fed Branchinous sp.…”

Section: Discussionsupporting

confidence: 91%

“…Thus far, similar feeding experiments of chromosome manipulated fish were described for only few teleost such as red sea bream Pagrus major , sea bass Dicentrarchus labrax L., and honmoroko Gnathopogan caerulescens . It has been observed that gynogenetic diploids of red sea bream (Kato, Murata, Yamamoto, Miyashita, & Kumai, ), plaice Pleuronectes platess L. (Purdom, ), and loach (Suzuki, Oshiro, & Nakanishi, ) are characterized by lower growth rates than normal fish. Colombo et al.…”

Section: Discussionmentioning

confidence: 99%

“…Higher survival rates during early stages of ontogenesis are highly desirable for most fishes. Normally‐fertilized fish larvae possess higher survival rates than do the gynogentic larvae (Chourrout & Quillet, ; Fujioka, ; Kato et al., ; Nagy, Rajki, Horvath, & Csany, ; Peruzzi et al., ; Purdom, ). Semen irradiation and thermal shock to induce the gynogenesis process are main factors in causing a negative impact on the gynogentic larvae survival rate (Fopp‐Bayat & Ocalewicz, ).…”

Section: Discussionmentioning

confidence: 99%

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Effects of feeding rate on the growth performance of gynogenetic albino sterlet,Acipenser ruthenus(Linnaeus, 1758) larvae

et al. 2017

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Summary The feeding rate effects were studied on the growth performance of gynogenetic diploid larvae of sterlet Acipenser ruthenus during the first 4 weeks of exogenous feeding. The experimental rearing was conducted from 7 to 38 days post‐hatch (dph) in a circulation system. This was set up in four groups with three replicates (440 individuals/replicate), viz: AC‐control larvae fed Artemia sp., CFC‐control larvae fed compound feed, AG‐gynogenetic larvae fed Artemia sp., and CFG‐gynogenetic larvae fed compound feed. The larvae were reared in glass tanks (44 L volume, 10 individuals/L) with the temperature maintained at 18 ± 0.5°C, photoperiod of 12L:12D and water flow regime of 1‐L/min and fed 50%, 25%, 25%, and 9% of their total biomass/day during feeding. Highest TL and WBW of gynogenetic diploid larvae (AG) were observed with 50.6 ± 1.2 mm and 607.3 ± 36.1 mg (n = 30) at 38 dph. Highest TL and WBW of control larvae (AC) were recorded with 49.5 ± 3.8 mm and 600.8 ± 88.0 mg (n = 30), respectively, with 73.1% ± 11.4% survival; the lowest survival rate was at 46.4% ± 7.1% (n = 30) for the CFG group. The results indicate that the gynogenetic and normal larvae of sterlet fed with live food (Artemia nauplii) from 7 dph can achieve higher growth and survivability compared to the larvae fed with formulated test feed. Results of this study suggest that the effective rearing of sterlet larvae from 7 to 38 dph strongly depends upon the types of feed rather than the genome manipulation performed.

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“…Similar results for red sea bream were described by Kato et al. (). A lower survival rate was observed in gynogenetic red sea bream juveniles (1–90 dph) fed Branchinous sp.…”

Section: Discussionsupporting

confidence: 91%

Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

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Effects of feeding rate on the growth performance of gynogenetic albino sterlet,Acipenser ruthenus(Linnaeus, 1758) larvae

et al. 2017

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“…This is likely because of the increased frequencies of some deleteriously homologous recessive genes and lack of paternal DNA in gynogens, which might be essential for larvae to get through the critical stages of early development (Arai 2001;Felip et al 2001). Furthermore, the negative effects of cold stress associated with gynogenesis induction might also lead to the poor survival of diploid gynogens (Kato et al 2001).…”

Section: Discussionmentioning

confidence: 99%

Induction of diploid gynogenesis in turbot Scophthalmus maximus with left-eyed flounder Paralichthys olivaceus sperm

You

Sun

et al. 2008

Aquacult Int

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Turbot Scophthalmus maximus exhibits sexually dimorphic growth, with females growing faster and reaching larger adult sizes than males. Thus, development of techniques for preferentially producing females is necessary to optimize production of these species. In this paper, gynogenetic diploids of turbot were induced by activating egg development with ultraviolet (UV)-irradiated left-eyed flounder Paralichthys olivaceus sperm combined with cold shock to prevent extrusion of the second polar body. The results of UV irradiation experiments showed that survival, motility, and duration of activity of P. olivaceus sperm generally decreased with increase in UV dose. The typical Hertwig's effect was observed after fertilized turbot eggs with UV-irradiated P. olivaceus sperm and the optimal UV dose for gynogenetic haploid production was 36,000 erg mm -2 . At 15°C, appropriate timing of cold shock for retention of the second polar body in turbot eggs was at 6 min after fertilization. Results of different combinations of two shock temperatures (1 or 3°C) and four shock durations (15, 25, 35 or 45 min) at 6 min after fertilization demonstrated that shock of 25 min at 1°C gave the highest production of diploid gynogens (39.58% relative to its diploid control). The results of this study reveal that the use of UVirradiated P. olivaceus sperm for activation of turbot eggs and cold shock for polar body retention is an effective method to produce gynogenetic offspring.

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“…[9][10][11] Red sea bream Pagrus major is one of the most important fish cultured in Japan. To improve the traits of this species, breeding experiments, including mass selection, 12 chromosome manipulation 13,14 and sex control 15 have been conducted. To develop transgenic technology in a new species, transgenic expression vectors with transcriptional activity in the species of choice have to be constructed.…”

Section: Introductionmentioning

confidence: 99%

Construction of an expression vector containing a ?-actin promoter region for gene transfer by microinjection in red sea bream Pagrus major

et al. 2007

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Transgenic technology has been widely applied to a variety of freshwater fish species. However there are few reports on the use of this technology in commercially important marine species. In this study, the construction of expression vectors containing the b-actin promoter region for use in the red sea bream Pagrus major, a species of considerable importance to the aquaculture industry in Japan is reported. The b-actin gene was cloned from a red sea bream genomic DNA library. Recombinant plasmids were constructed by linking the 5′ flanking region of the b-actin gene to the green fluorescent protein reporter gene, followed by the poly A signal sequence of simian virus 40 or the 3′ flanking region the b-actin gene. Expression of these constructs was examined following microinjection into zebrafish and red sea bream embryos, and compared to that of the expression vector pXI-GFP driven by the Xenopus elongation factor 1a. The results indicated that the construct consisting of the b-actin 5′-and 3′ flanking regions was the most efficacious. In future studies, it is planned to investigate the efficient condition for integration into chromosomes of the transgene.

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Viability, growth and external morphology of meiotic- and mitotic-gynogenetic diploids in red sea bream, Pagrus major

Cited by 21 publications

References 20 publications

Effects of feeding rate on the growth performance of gynogenetic albino sterlet,Acipenser ruthenus(Linnaeus, 1758) larvae

Effects of feeding rate on the growth performance of gynogenetic albino sterlet,Acipenser ruthenus(Linnaeus, 1758) larvae

Induction of diploid gynogenesis in turbot Scophthalmus maximus with left-eyed flounder Paralichthys olivaceus sperm

Construction of an expression vector containing a ?-actin promoter region for gene transfer by microinjection in red sea bream Pagrus major

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