Fluorescence-based assessment of total protease activity/trypsin as a function of variable soybean content in fines fed to the gray tilapia (Oreochromis niloticus) and the red tilapia (Oreochromis hornorum)
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Author
Guerrero-Bravo, José E.
Advisor
Uscian, John M.College
College of Arts and Sciences - SciencesDepartment
Department of BiologyType
ThesisDegree Level
M.S.Date
2007Metadata
Show full item recordAbstract
This study evaluated the effect of five diets, differing from one another based upon ratio of
raw soybean/processed soybean content, upon both biomass production and intestinal
protease activity in gray tilapia (Oreochromis niloticus) and red tilapia (Oreochromis
hornorum). The tilapia were maintained for 5 weeks in a Lajas’ Aquaculture Facility pond,
Lajas, Puerto Rico. This pond contained 5 separate cages and each cage contained 16 male
tilapia, 8 of which were gray and 8 of which were red. These fishes were provided with
one of the following five diets (i.e., 0:4, 1:3, 2:2, 3:1, or 4:0 for raw soybean/processed
soybean protein dietary component). At the end of the feeding period, the following were
determined: 1) weight, 2) total intestinal protease activity (determined by fluorometric
assay), 3) amount of intestinal protease activity attributable to the enzyme trypsin, 4)
feasibility of purifying and characterizing trypsin from red or gray tilapia, 5) in vitro
examination of how the addition of processed soybean homogenate affects intestinal
protease activity, and 6) SDS-PAGE zymogram visualization of the effect of increased
processed soybean homogenate on total intestinal protease activity. Although an increase
in biomass >5% for gray tilapia and >21% for red tilapia was observed, a linear correlation
between increased raw soybean feed content and biomass production was not observed.
The in vitro assays revealed that intestinal proteases of both red and gray tilapia are
inhibited by processed soybean homogenate. This effect was greatest for gray tilapia.
Trypsin was partially purified from both tilapia species and found to display a pH optimum
of 8.0, highest catalytic rate at 50 oC, and a molecular weight of approximately 23 kDa. In
addition, in vitro soybean trypsin inhibitor analysis revealed that 82-86% of the total intestinal
protease activity was attributable to trypsin, a finding similar to that from similar analysis of
other fish species. Este estudio evaluó el efecto de cinco diferentes dietas basadas en el contenido de soya
cruda/soya procesada sobre la producción de biomasa y la actividad de proteasas
intestinales en tilapia gris (Oreochromis niloticus) y tilapia roja (Oreochromis hornorum).
Las tilapias fueron mantenidas por 5 semanas en un lago de las Instalaciones de
Acuacultura de Lajas, Puerto Rico. Este lago contenía 5 jaulas separadas, cada una
contenía 16 tilapias machos, 8 de los cuales eran grises y 8 rojas. Estos peces fueron
sometidos a una de las cinco diferentes dietas de soya (i.e., 0:4, 1:3, 2:2, 3:1, o 4:0 relación
soja cruda/soja procesada como componente de proteína en la dieta). Al final del periodo
de alimentación se determinó: 1) peso grupal, 2) actividad total de proteasas (mediante
ensayo fluorométrico), 3) cantidad de actividad de proteasas intestinal atribuible a tripsina,
4) purificación y caracterización parcial de tripsina en tilapia roja y gris, 5) examinación in
vitro de cómo la adición de homogenato de soya procesada afecta la actividad de proteasas
intestinales, y 6) zimogramas en SDS-PAGE para visualizar el efecto del incremento de
homogenato de soya procesada sobre la actividad total de proteasas. Se observó un
aumento en biomasa > 5% para tilapia gris y >21% para tilapia roja; aunque no se observó
una correlación lineal entre al incremento en soya cruda y la producción de biomasa. Los
ensayos in vitro demostraron que las proteasas intestinales de ambas especies son inhibidas
por el homogenato de soya procesada. Este efecto fue mayor para tilapia gris. Tripsina fue
parcialmente purificada de ambas especies de tilapia y ambas enzimas mostraron un pH
óptimo de 8.0, la mayor actividad catalítica a 50 oC, y un peso molecular de aproximadamente 23 kDa. Además, el análisis in vitro con el SBTI reveló que del 82-86% de la actividad total de proteasas intestinales fue atribuible a tripsina, resultado similar a lo encontrado en los análisis de otras especies de peces.
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