Your search keyword '"Campos-Ramos, Rafael"' showing total 4 results

1. A Transcriptome Insight During Early Fish Larval Development Followed by Starvation in Seriola rivoliana

Author

Guerrero-Tortolero, Danitzia A., Vázquez-Islas, Grecia, and Campos-Ramos, Rafael

Published

2021

2. Gene expression in the hypothalamic-pituitary-thyroid axis in Seriola rivoliana early larvae development at different temperatures.

Author

Campos-Ramos, Rafael, Vázquez-Islas, Grecia, Calixto-Heredia, Lidda M., and Guerrero-Tortolero, Danitzia A.

Subjects

*THYROTROPIN releasing factor, *HYPOTHALAMIC-pituitary-thyroid axis, *GENE expression, *YOLK sac, *TEMPERATURE effect

Abstract

[Display omitted] • The hypothalamic-pituitary-thyroid axis was studied in Seriola rivoliana early larvae. • Larvae at 22 °C increased more trh expression than larvae at higher temperatures. • tsh was highly expressed at hatching, and then, downregulated at any temperature. • tsh -binding occurred before hatching, and further upregulating larval thyroglobulin. • On day six after hatching, all HPT axis genes were significantly upregulated. We analyzed the expression of genes involved in the hypothalamic-pituitary-thyroid axis (HPT-axis) in the longfin yellowtail Seriola rivoliana early larva, including temperature effects (22, 26 and 28 °C) and days of development (day one, day two, and day six after hatching). We aimed to determine if egg and larval incubation at different temperatures could disrupt this critical endocrine axis, which, in an aquaculture context, it could provoke mortality during early metamorphosis. There was a significant interaction between temperature and developmental timing on the relative expression of thyrotropin releasing hormone (trh). Larvae at 22 °C was the longest and increased more trh expression than larvae at higher temperatures. Interestingly, thyrotropin stimulating hormone (tsh) was highly expressed after hatching. Subsequently, it was downregulated at any temperature at least until day four, suggesting a temporal inhibition of the HPT axis. Therefore, we suggest that tsh -binding (tshr) to follicles should have occurred from hatching, creating a further "cascade effect" of upregulation of larval thyroglobulin (tg) from day two in a temperature-dependent manner. Consequently, new thyroid hormones should have been produced after yolk sac absorption. The above may indicate a narrow window of larval survival, where the larval transition from endogenous to exogenous feeding would depend on the correct timing to synthesize tg. Temperature significantly affected the expressions of deiodinase 1 (dio1 -downregulated) and deiodinase 2 (dio2 -upregulated) after hatching. The expressions of thyroid receptors alpha (trα) and beta (trβ) remained constant after hatching without significant effects of temperature and days of development. Then, the differential expression on day six showed that all HPT-axis transcripts increased their expressions as larvae developed, which suggested a functional HPT. Finally, there was no evidence that any temperature would disrupt the endocrine's larval axis, which indicated that the longfin yellowtail has a wide temperature adaption. Nevertheless, based on tg upregulation, we suggest that larvae should be maintained around 25–26 °C after hatching for a better chance of survival and development. [ABSTRACT FROM AUTHOR]

Published

2024

3. The effects of constant and oscillating temperature on embryonic development and early larval morphology in longfin yellowtail (Seriola rivoliana Valenciennes).

Author

Pacheco‐Carlón, Nairoby, Guerrero‐Tortolero, Danitzia A., Cervantes‐Montoya, Lucero B., Racotta, Ilie S., and Campos‐Ramos, Rafael

Subjects

EMBRYOLOGY, EGG incubation, YELLOWTAIL, YOLK sac, MORPHOLOGY, TEMPERATURE

Abstract

Constant and oscillating egg incubation temperatures on embryonic development and early larval morphology were studied in longfin yellowtail (Seriola rivoliana Valenciennes). We investigated the effects of constant temperatures from 16 to 32°C on embryo development and larval morphology at hatch, and whether oscillating temperature during embryogenesis could lead to larval morphological variations. After hatching, larval morphology and development during yolk sac (YS) utilization were examined in larvae at constant temperatures and larvae at 25°C that had oscillating temperature during egg incubation. Hatching rates were > 75%, only decreasing to ~ 50% at 30°C. At constant temperatures, the largest larvae occurred at 22 and 24°C. The oscillating temperature did not affect the timing of embryo development but resulted in larger and smaller larvae with a smaller and bigger YS, respectively, with a similar hatching time. Therefore, a growth response occurred in embryos during a window of development before hatching, depending on the adaptive response to temperature (spawn‐specific). After hatching, most of the YS was absorbed within 24 hr in all treatments, and the growth of the larval head was a priority with an optimal development at 26°C. There was compensatory growth in smaller larvae resulting in similar sizes after YS utilization, but larvae showed variations in body structure that could be important in further aquaculture research. [ABSTRACT FROM AUTHOR]

Published

2021

4. Biochemical composition and adenylate energy charge shifts in longfin yellowtail (Seriola rivoliana) embryos during development under different temperatures.

Author

Pacheco-Carlón, Nairoby, Salgado-García, Rosa L., Guerrero-Tortolero, Danitzia A., Kraffe, Edouard, Campos-Ramos, Rafael, and Racotta, Ilie S.

Subjects

*YELLOWTAIL, *EMBRYOS, *EMBRYOLOGY, *SPECIES diversity, *ENERGY consumption, *ONTOGENY, *HOMEOSTASIS

Abstract

The longfin yellowtail Seriola rivoliana is an emerging species for aquaculture diversification worldwide and production relies on fertilized eggs from captive broodstock. Temperature is the main factor that influences the developmental process and success during fish ontogeny. However, the effects of temperature on the utilization of the main biochemical reserves and bioenergetics are scarcely investigated in fish, whereas protein, lipid and carbohydrate metabolism have critical roles in maintaining cellular energy homeostasis. In this context, we aimed to evaluate metabolic fuels (protein, lipids, triacylglicerides, carbohydrates), adenylic nucleotides and derivates (ATP, ADP, AMP, IMP), and the adenylate energy charge (AEC) during embryogenesis and in hatched larvae in S. rivoliana at different temperatures. For this purpose, fertilized eggs were incubated at six constant (20, 22, 24, 26, 28 and 30 °C) and two oscillating (21⇄29 °C) temperatures. Biochemical analyses were made at blastula, optic vesicles, neurula, prehatch and hatch periods. Results indicated that the developmental period had a major influence on the biochemical composition at any temperature regime tested during the incubation. Protein content decreased only at hatching mainly due to the loss of the chorion, total lipids tended to increase at the neurula period and variations in carbohydrates depended on the particular spawn analyzed. Triacylglicerides were a critical egg fuel during hatching. The high AEC during embryogenesis and even in hatched larvae suggested an optimal energy balance regulation. The lack of critical biochemical changes from different temperature regimes during embryo development confirmed that this species exhibits a high adaptive capacity in response to constant and fluctuating temperatures. However, the timing of hatching was the most critical period of development, where biochemical components and energy utilization significantly changed. The oscillating temperatures tested may have physiological advantages without detrimental energetic effects that will require further research on larval quality after hatching. [Display omitted] • S. rivoliana embryonic development was analyzed at constant and oscillating temperatures. • Development had a major influence on biochemical components, while temperature did not. • The adenylate energy charge indicated an optimal embryo energy homeostasis. • Protein content decreased at hatch associated with chorion breakdown and release. • Triacylglicerides were the primarily metabolic fuel, mainly used during hatching. [ABSTRACT FROM AUTHOR]

Published

2023