Anomalies in Biochemical Constituents of Kidney in Arsenic induced Mystus vittatus
DOI:
https://doi.org/10.48165/Keywords:
Mystus vittatus, Kidney, Arsenic, BiomoleculesAbstract
The present investigation has been designed to study the anomalies in biochemical constituents of kidney of Mystus vittatus after exposure to sublethal concentrations (10%, 20% and 30%) for the period of 30 days. The present study, both lower and higher sublethal concentrations of arsenic exposed Mystus vittatus showed a significant decrease in glycogen, protein, triglyceride, acid and alkaline phosphatases content and a significant increase in free amino acid and cholesterol content of its kidney at all periods. The decrease or increase in the contents of these biomolecules levels were more pronounced at 30% concentration and 30 days exposure of arsenic trioxide. Arsenic trioxide may damage the Kidney; inhabit the enzymes activity which causes significant alterations in various metabolic activities.
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S. Prakash, A.K. Verma, Acute toxicity and Behavioural responses in Arsenic exposed Mystus vittatus (Bloch). International Journal on Agricultural Sciences. 10(2019a):1-3.
S. Prakash, A.K. Verma, Impact of Arsenic on lipid metabolism of a fresh water cat fish, Mystus vittatus. Journal of Fisheries and Life Sciences. 4(2019b):33-35.
S. Prakash A.K. Verma, Impact of Arsenic on Protein Metabolism of a fresh water cat fish, Mystus vittatus. Uttar Pradesh Journal of Zoology. 41(2020a):16-19.
S. Prakash A.K. Verma, Effect of Arsenic on Serum Biochemical parameters of a fresh water cat fish, Mystus vittatus. International Journal of Biological Innovations. 2(2020b): 11-19. 5. A.K. Verma, S. Prakash, Impact of arsenic on carbohydrate metabolism of a fresh water cat fish, Mystus vittatus. International Journal on Biological Sciences. 10 (2019a):17-19. 6. A.K. Verma, S. Prakash, Impact of arsenic on haematology, condition factor, hepatosomatic and gastrosomatic index of a fresh water cat fish, Mystus vittatus. International Journal on Biological Sciences.10 (2019b): 49-54.
A.K. Verma, S. Prakash, Effect of arsenic on enzyme activity of a fresh water cat fish, Mystus vittatus. International Journal of Fisheries and Aquatic Studies. 8(2020):28-31.
. N.V. Carroll, R.W. Longly, J.H. Roe, The glycogen determination in liver and muscle by use of anthrone reagent. J. Biol. Chem. 220 (1956): 583–93.
O.H. Lowy, N.J. Rosebrough, A.L. Farr, R.J. Randall, Protein measurement with folin phenol reagent. JBio. Chem. 193(1951):265-275.
T. David, Plumer: An introduction to practical Biochemistry, 3rd Ed., Tata Mc Graw Hill Pub.Co., New Delhi. (1992) p523.
H. Barnes, J. Blackstock, Estimation of lipids in marine animals and tissues: detailed investigation of the sulphophosphovanilun method for ‘total’ lipids. Journal of Experimental Marine Biology and Ecology.12 (1973): 103-118.
G.R. Warnick, Compact analysis systems for cholesterol, triglycerides and high density lipoprotein cholesterol. Curr.Opn.Lpidol.2 (1991): 343-348
E.J. King, A.R. Armstrong, A Convenient method for determining serum and bile phosphatase activity. Canadian Medical Journal. 31(1934): 376-381.
S. Prakash A.K. Verma, Effect of synthetic detergent on biochemical constitutions of fresh water major carp, Labeo rohita. International Journal on Agricultural Sciences. 9(2018):56-59. 15. N.K. Srivastava, S. Prakash, Alterations in the organic reserve of zinc exposed fresh water catfish, Clarias batrachus. Flora and Fauna. 24(2018): 386-392.
S. Ananth, V. Mathivanan, S, Aravinth, V. Sangeetha, Impact of arsenic metal toxicant on biochemical changes in the grass carp, Ctenopharyngodon idella. IJMRR. 2(2014):74-78. 17. K. Pazhanisamy, N, Indra, Toxic effects of arsenic on protein content in the fish, Labeo rohita (Hamilton). Nature Environment and Pollution Technology. 6 (2007):113-116.
P. Kumari, K. Ramashankar, Effect of Arsenic on free amino acid levels in fresh water fish, Cirrhinus mrigala (Ham.). Proc. Zool. Soc. India. 15(2016): 83-86.
J.M. Neff, Use of biochemical measurement to detect pollutant medicated damage to fish. ASTM spec. Tech.Pubi. 854(1985):154-183.
Y.A. Maruti, S.R. Rao, Effect of sugar mill effluent on organic reserves of fish, Poll. Res. 20(2001): 167-171.
P. Amudha, G. Sangetha, S, Mahalingam, Diary induced alterations in the protein, carbohydrate and lipid metabolism of a freshwater teleost fish Oreochromis mossambicus. Poll. Res. 20(2002): 167-171.
S.S. Gijare, I.A. Raja, V.T. Tantarpale, K.M. Kulkarni, Lipid changes in the freshwater fish Ophiocephalus punctatus exposed to synthetic pyrethroid cypermethrin. Biosci. Biotech. Res. Comm. 4(2011): 52-54.
P.K. Sanisa, R. Bedi, C.I. Sosi, Effects of vegetable oil factory effluent on the levels of phospatases and dehydrogenases in the liver and kidney of the fresh water teleost, Channa punctatus (Bloch). Environ. Pollut. Sci. 4(1982): 245-253.
