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101.
102.
U. Na-Nakorn § P. Sodsuk † P. Wongrat † S. Janekitkarn † D. M. Bartley ¶ 《Journal of fish biology》2002,60(4):1051-1057
Native Thai species of Clarias catfishes and one species introduced from Africa can be easily distinguished by horizontal starch gel electrophoresis of allozymes. An undescribed species of Clarias was collected from Thailand and found to possess several fixed allelic differences from the Clarias previously studied. 相似文献
103.
Four types of bacteria, two fluorescent pseudomonads, one aeromonad ( Aeromonas hydrophila anaerogens ) and one coccus ( Micrococcus variant ) were isolated from skin lesions of airbreathing fishes. The bacterial culture in mixed condition induced severe ulcers in healthy Anabas testudineus . Pure cultures of each of two pseudomonads and an aeromonad separated from the mixture induced superficial ulcer formation. 相似文献
104.
105.
Temporal organization in phototactic rhythm in male Clarias batrachus was studied in a choice chamber consisting of a photic zone and an aphotic zone. Results indicate that most of the fishes exhibited a statistically significant 24-h variation in the frequency of visits to the photic zone with a peak frequency at late night or early morning. Cosinor analysis of phototactic index (PI) values also yielded comparable results. This behaviour of C. batrachus shows similarity with its other activities, like air gulping, surfacing, foraging or predation that occur chiefly at night. The light intensity at the surface of a natural water body is more than at the bottom, even at night. Therefore, the peak phototactic activity observed in C. batrachus in the night or early morning could be attributed to its daily migration from the bottom to the surface of the water bodies. The results of the present study might be useful in aquaculture practice and inland fishing. 相似文献
106.
Carina Goswami Nirmalendu Saha 《Comparative biochemistry and physiology. Part A, Molecular & integrative physiology》1998,119(4):681
Glucose, lactate and pyruvate efflux by the perfused liver of the walking catfish, Clarias batrachus was studied during aniso-osmotic exposure. During hypo-osmotic exposure (−80 mOsmol l−1, maintained with NaCl), glucose, lactate and pyruvate efflux by the perfused liver significantly decreased by 55, 19 and 16%, respectively. During hyper-osmotic exposure (+80 mOsmol l−1, maintained with NaCl), efflux increased by 57, 12 and 18%, respectively. Similar effects of glucose, lactate and pyruvate efflux by the perfused liver was also seen when the anisotonicity of the medium was adjusted with mannitol instead of NaCl. The decrease of glucose, lactate and pyruvate efflux during hypo-osmotic exposure was correlated with the stimulation of glycogen synthesis and the reverse was true during hyper-osmotic exposure. These observations were supported by changes in glycogen phosphorylase a (GPase a) and glycogen synthase a (GSase a) activities. During hypo-osmotic exposure (−80 mOsmol l−1), the GPase a activity decreased by 1.93 fold and GSase a activity increased by 1.63 fold, while during hyper-osmotic exposure (+80 mOsmol l−1), the GPase a activity increased by 1.58 fold and GSase a activity decreased by 1.95 fold. The total activity of both the enzymes were not effected by a short term exposure to aniso-osmotic conditions, suggesting that the alterations in GPase a and GSase a activity were mainly due to changes of their phosphorylation status during aniso-osmotic exposure. A direct correlation exists between glucose efflux and the hydration status of the perfused liver. These alterations of glucose metabolism are probably necessary by this walking catfish to meet the different energy demand, and also for maintenance of glucose homeostasis under osmotic stress. 相似文献