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Short term effect of thiamethoxam on glutamate dehydrogenase (GDH) activity in Snake head, Ophiocephalus punctatus
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Keywords

Thiamethoxam,
GDH
Snake heads
Ophiocephalus

How to Cite

Chilke, A. M. (2011). Short term effect of thiamethoxam on glutamate dehydrogenase (GDH) activity in Snake head, Ophiocephalus punctatus. Journal of Research in Biology, 2(1), 023-027. Retrieved from https://ojs.jresearchbiology.com/index.php/jrb/article/view/165

Abstract

An organochloride, thiamothoxam is used commercially for controlling the agricultural pest. In the present study it was observed that at sub-lethal concentration (29.483 ppm) the GDH activity in the liver, kidney, gill and muscle of Ophiocephalus punctatus increased non-significantly from 24hrs to 96hrs of exposure. The maximum activity in all these organs was at 96 hrs. It has been concluded that thiamethoxam at sub-lethal concentration may alter the glutamate metabolism in all the tissues by enhancing the GDH activity in short duration of exposure

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References

Brosnan JT. 2000. Glutamate and glutamine in metabolism. J Nutr., 130:988S-990S.

Chandravathy MV and Reddy SLN. 1994. In vivo recovery of protein metabolism in gill and brain of a freshwater fish, Anabas scandens after exposure to lead nitrate. J Environ Biol., 15(1):75-82.

David M. 1995. Effect of fenvlaterate on behavioural, physiological and biochemical aspects of freshwater fish, Labeo rohita. Ph.D. thesis, S. K. University, Anantapur India.

Deva PR. 2000. Fenvalerate induced changes in the protein metabolism of freshwater fish, Tilipa mossambica (Peters). Ph. D. thesis, S. K. University, Anantapur India.

Gould E, Collier RS. Karolous JJ and Givenus.1976. Heart transaminase in the rock crab, Cancer irroratus exposed to cadmium salts. Bull. Environ. Contam Toxicol., 15:635-643.

Lee YL and Lardy HA. 1965. Influence of thyroid hormone on L-glycerophosphate dehydrogenase and other dehydrogenases in various organs of rats. J Biol Chem., 240:1427-1452.

McGivan DJ and Chappell JB. 1975. On the metabolic function of glutamate dehydrogenase in the rat liver. FEBS Lett., 52:1-7.

Philip HGP, Malla R and Ramamurthi 1988. Changes in the protein metabolism in liver and kidney of Mus booduga Gray after oral BHC Feeding. Bull. Envion Contam Toxicol., 41:822- 827.

Pramilamma Y and Swami KS. 1975. Glutamate dehydrogenase activity in the normal and denervated Gastrocnemius muscles of frog. Current Science 44:739.

Prashanth MS. 2003. Cypermethrin induced physiological and biochemical and histopathological changes in freshwater fish, Cirrhinus mrigala. Ph.D thesis, Karnataka university, Dharwad.

Rajmannar K and Manohar L. 1998. Sub lethal toxicity of certain pesticides on carbohydrates, proteins and amino acids in Lebeo rohita (Hamilton). J Ecobiol., 10(3):185-191.

Ramana RKV, Surendranath P and Kodavanti PRS. 1990. Levels of Transminase in tissues of the peneaid prawn, Metapenaeus Monoceros (Fabricius) following sub lethal kelthane exposure. Bull Environ Contam Toxicol., 44:114-120.

Reddy ATV and Yellama K. 1991. The possible metabolic diversions adopted by the cockroach, Periplaneta americana to counteract the toxicity of fenvalerate. Biochem Internat. 23(2):259-365.

Reddy SLN and Venugopal NBRK. 1990. Fuoride-induced changes in protein metabolism in the tissue of freshwater crab, Barytelphusa guerini. Environ Pollut., 67:97-108.

Schmidt ES and Schmidt FW. 1988. Glutamate dehydrogenase: biochemical and clinical aspects of an interesting enzyme. Clin Chim Acta 173:43-55.

Shobha Rani AR, Sudharsan TN, Reddy PVM and Reddy TN. 2001. Effect of arsenite on certain aspects of protein metabolism in freshwater teleost, Tilipa mosambica (Peters). J Environ Biol., 22(2):101-104.

Sivaramakrishna B and Radhakrishnaiah K. 1998. Impact of sub lethal concentration of mercury on nitrogen metabolism of the freshwater fish, Cyprinus carpio (Linn). J Environ Biol., 19(2):111-117.

Sreedevi PB, Sivaramakrishna A and Radhakrishnaiah K. 1992. Effect of nickel on some aspects of protein metabolism in the gill and kidney of the freshwater fish, Cyprinus carpio (L). Enviro. Pollut., 76:355-361.

Storey KB, Fields JHA and Hochachka PW. 1978. Purification and properties of glutamate dehydrogenase from the mantle muscle of the squid, Loligo pealeii. Role of the enzyme in energy production from amino acids. J Exp Zool., 205:111-118.

Wanders RJ, Meijer AJ, Groen AK and Tager JM. 1983. Bicarbonate and the pathway of glutamate oxidation in isolated rat liver mitochondria. Eur J Biochem., 133:245-254.

Williamson JR, Gimple JA, Meijer AJ, DeLeeuw G and Refino C. 1976. Role and regulation of glutamate dehydrogenase in ureogenesis. In Use of isolated liver cells and kidney tubules in metabolic studies. Edited by J.M. Tager, H.D. Soling, and J.R. Williamson. NorthHolland Publishing Co., Amsterdam.339-349.

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