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    Publisher: Academic Journals Inc., USA
   
  Asian Journal of Biochemistry is an International peer-reviewed journal dedicated to publish the results of original research in form of original articles, reviews and short communications. Scope of the journal includes: Structure, function and regulation of biologically active molecules; gene structure and expression; biochemical mechanisms; protein biosynthesis; protein folding; membrane structure-function relationships; bioenergetics and immunochemistry. Asian Journal of Biochemistry now accepting new submissions. Submit your next paper via online submission system.

 
 
Abdul Razak, M., U.S. Allam, A.B. Pinjari, B. Viswanath, S. Rajagopal, P.S. Begum and D.M. Rao, 2016. Nanotechnology based Diagnosis and Therapeutics for Gastrointestinal Disorders. In: Disorders of Gastrointestinal Systems and Clinical Manifestations, Rajagopal, S., S. Murugan and S. Ramachandran (Eds.). Chapter 6, Nova Publications, New York, USA., ISBN: 978-1-63485-366-8, pp: 89-102.
Al-Shboul, O., S. Mahavadi, S. Rajagopal, R. Zhou and K.S. Murthy, 2011. Differences in the Expression of VPAC2 receptors and adenylyl cyclase V/VI and VIP-induced cAMP generation in phasic and tonic smooth muscles. Faseb J., Vol. 25. .
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Bala, V., S. Mahavadi, S. Rajagopal, R. Zhou, J.F. Kuemmerle, A.J. Sanyal and K.S. Murthy, 2011. Bile acid-induced stimulation of ERK1/2 activity, GLP-1 and PYY release in enteroendocrine cells is mediated by the activation of Epac/PLC-ε signaling pathway via G S-coupled TGR5. Gastroenterol., Vol. 140. .
Bala, V., S. Rajagopal, D.P. Kumar, A.D. Nalli and S. Mahavadi et al., 2014. Release of GLP-1 and PYY in response to the activation of G protein-coupled bile acid receptor TGR5 is mediated by Epac/PLC-ε pathway and modulated by endogenous H2S. Frontiers Physiol., 5: 1-11.
Bala, V., S. Rajagopal, D.P. Kumar, S. Mahavadi and R. Zhou et al., 2012. Hydrogen sulfide (H2S) inhibits bile acid receptor TGR5-mediated GLP-1 release from enteroendrocrine cells: Possible involvement of H2S in altered glucose metabolism in diabetes. Gastroenterol., Vol. 142. .
Begum, P.S., G. Madhavi, S. Rajagopal, B. Viswanath, M.A. Razak and V. Venkataratnamma, 2017. Probiotics as functional foods: Potential effects on human health and its impact on neurological diseases. Int. J. Nutr. Pharmacol. Neurol. Dis., 7: 23-33.
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Bhattacharya, S., S. Mahavadi, O. Al-Shboul, S. Rajagopal, J.R. Grider and K.S. Murthy, 2013. Differential regulation of muscarinic M2 and M3 receptor signaling in gastrointestinal smooth muscle by caveolin-1. Am. J. Physiol.-Cell Physiol., 305: C334-C347.
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Fang, H., S. Patanavanich, S. Rajagopal, X. Yi, M.S. Gill, J.J. Sando and G.L. Kamatchi, 2006. Inhibitory role of Ser-425 of the alpha1 2.2 subunit in the enhancement of Cav 2.2 currents by phorbol-12-myristate, 13-acetate. J. Biol. Chem., 281: 20011-20017.
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Fatima, S. and S. Rajagopal, 2015. Burdon of bacterial bio-films on Hepatocytes. In: Hepatotoxicity, Symptoms, Management and Health Implications. Rajagopal, S. and M. Sengottuvelan (Ed.). Nova Publications, New York, USA., ISBN: 978-1-63482-650-1, pp: 247-264.
Fatima, S. and S. Rajagopal, 2016. Impact of Gut Microflora on Human Health and Diseases. In: Disorders of Gastrointestinal Systems and Clinical Manifestations, Rajagopal, S., S. Murugan and S. Ramachandran (Eds.). Chapter 14, Nova Publications, New York, USA., ISBN: 978-1-63485-366-8, pp: 227-243.
Kumar, D.P., S. Rajagopal, S. Mahavadi, F. Mirshahi, J.R. Grider, K.S. Murthy and A.J. Sanyal, 2012. Activation of transmembrane bile acid receptor TGR5 stimulates both insulin gene transcription and insulin release in pancreatic β cells. Biochem. Biophys. Res. Commun., 427: 600-625.
Nalini, N., M. Ponmozhi and S. Rajagopal, 2002. Effect of Phaseolus vulgaris Extraction Lipid Metabolism in Experimental Diabetes Mellitus. In: Current Advances in Atherosclerosis Research, Gupta, R. (Ed.). Indian Society of Atherosclerosis Research, USA., pp: 113-124.
Nalli, A.D., S. Rajagopal, S. Mahavadi, J.R. Grider and K.S. Murthy, 2013. Inhibition of RhoA/Rho kinase pathway and contraction by endogenous and exogenous hydrogen sulfide in gastrointestinal smooth muscle. FASEB J., Vol. 27. .
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Nalli, A.D., S. Rajagopal, S. Mahavadi, J.R. Grider and K.S. Murthy, 2015. Inhibition of RhoA-dependent pathway and contraction by endogenous hydrogen sulfide in rabbit gastric smooth muscle cells. Am. J. Physiol. Cell Physiol., 10.1152/ajpcell.00280.2014.
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Ponnusamy, M., S. Rajagopal and A. Maruthamuthu, 2016. Gastrointestinal Complications in Solid Organ Transplant Recipients. In: Disorders of Gastrointestinal Systems and Clinical Manifestations, Rajagopal, S., S. Murugan and S. Ramachandran (Eds.). Chapter 12, Nova Publications, New York, USA., ISBN: 978-1-63485-366-8, pp: 183-209.
Rajagopal, S. and M. Ponnusamy, 2017. Calcium Signaling: From Physiology to Diseases. Springer Publications, Singapore, ISBN-13: 978-9811051593.
Rajagopal, S. and N. Nalini, 2004. Effect of glycine on tissue fatty acid composition in an experimental model of alcohol-induced hepatotoxicity. Clin. Exp. Pharmacol. Physiol., 31: 456-461.
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Rajagopal, S. and N. Nalini, 2004. Glycine ameliorates ethanol induced liver injury in albino rats. Alcohol Res., 9: 63-70.
Rajagopal, S. and N. Nalini, 2004. Glycine prevent-s the hepatic fibrosis by preventing the accumulation of collagen in alcohol induced liver injury. Polish J. Pharmacol., 56: 121-128.
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Rajagopal, S. and N. Nalini, 2004. The potential beneficial effect of glycine on the carbohydrate moieties of glycoproteins in an experimental model of alcohol induced hepatotoxicity. J. Med. Food, 7: 108-113.
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Rajagopal, S., 2014. Glycine stabilize the tissue fatty acid composition in an experimental model of Alcohol-induced hepatotoxicity. J. Clin. Exp. Hepatol., 4: S30-S31.
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Rajagopal, S., A.D. Nalli, D.P. Kumar, S. Bhattacharya and W. Hu et al., 2015. Cytokine-induced S-nitrosylation of soluble guanylyl cyclase and expression of phosphodiesterase 1A contribute to dysfunction of longitudinal smooth muscle relaxation. J. Pharmacol. Exp. Therapeut., 352: 509-518.
Rajagopal, S., B.K. Burton, B.L. Fields, I.O. El and G.L. Kamatchi, 2017. Stimulatory and inhibitory effects of PKC isozymes are mediated by serine/threonine PKC sites of the Cav2.3α1 subunits. Arch. Biochem. Biophys., 621: 24-30.
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Rajagopal, S., B.L. Fields and G.L. Kamatchi, 2014. Contribution of protein kinase Cα in the stimulation of insulin by the down-regulation of Cavβ subunits. Endocrine, 47: 463-471.
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Rajagopal, S., B.L. Fields, B.K. Burton, C. On, A.A. Reeder, A.L. Wilson and G.L. Kamatchi, 2014. Inhibition of protein kinase C response of voltage-gated calcium (Cav) 2.2 channels expressed in Xenopus oocytes by Cavβ subunits. Neuroscience, 280: 1-9.
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Rajagopal, S., D.P. Kumar, S. Bhattacharya, J.R. Grider and K.S. Murthy, 2012. Characterization of Gz-coupled dopamine D3 receptors in gastric smooth muscle. Faseb J., Vol. 26. .
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Rajagopal, S., D.P. Kumar, S. Mahavadi, S. Bhattacharya and R. Zhou et al., 2013. Activation of G protein-coupled bile acid receptor, TGR5, induces smooth muscle relaxation via both Epac- and PKA-mediated inhibition of RhoA/Rho kinase pathway. Am. J. Physiol.-Gastrointestinal Liver Physiol., 304: G527-G535.
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Rajagopal, S., H. Fang, C. Lynch III and G.L. Kamatchi, 2010. Formalin-induced-short and long-term modulation of Cav currents expressed in Xenopus oocytes: An in vitro cellular model for formalin-induced pain. Basic Clin. Pharamacol. Toxicol., 106: 338-347.
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Rajagopal, S., H. Fang, C. Lynch III, J.J. Sando and G.L. Kamatchi, 2007. Identification of the PKC isozymes involved in acetyl-β-methylcholine or phorbol-12-myristate, 13-acetate-induced potentiation of expressed Cav 2.3 currents. Biophys. J., 1: 602A-603A.
Rajagopal, S., H. Fang, C.I.A. Oronce, S. Jhaveri and S. Taneja et al., 2009. Site-specific regulation of CAV2.2 channels by protein kinase C isozymes βII and ε. Neuroscience, 159: 618-628.
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Rajagopal, S., H. Fang, C.Lynch, J.J. Sando and K.L. Ganesan, 2011. Effects of isoflurane on the expressed Cav2.2 currents in Xenopus oocytes depend on the activation of protein kinase C δ and its Phosphorylation Sites in the α12.2 subunits. Neuroscience, 182: 232-240.
Rajagopal, S., H. Fang, S. Patanavanich, G. Varghese, J.J. Sando and G.L. Kamatchi, 2008. Protein kinase C isozyme specific potentiation of expressed CaV2.3 currents by Acetyl-β-methylcholine and phorbol-12-myristate, 13-acetate. Brain Res., 1210: 1-10.
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Rajagopal, S., M. Ponmozhi, P. Viswanathan and N. Nalini, 2002. Effect of Cassia auriculata leaf extract on lipids in rats with alcoholic liver injury. Asia Pacific J. Clin. Nutr., 11: 157-163.
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Rajagopal, S., O. Al-Shboul, S. Mahavadi, J.F. Kuemmerle and K.S. Murthy, 2011. Expression and function of bile acid receptor TGR5 in gastrointestinal smooth muscle. FASEB J., Vol. 25. .
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Rajagopal, S., P. Viswanathan and N. Nalini, 2004. Effect of glycine on oxidative stress in rats with alcohol induced liver injury. Pharmazie, 59: 55-60.
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Rajagopal, S., S. Singh and S.R. Sangam, 2015. Contribution of protein kinase C (PKC) in the modulation of voltage gated calcium channels. J. Pharm. Biomed. Sci., 5: 351-354.
Rajagopal, S., S.R. Sangam and S. Singh, 2015. Differential regulation of volatile anesthetics on ion channels. Int. J. Nutr. Pharmacol. Neurol. Dis., 5: 128-134.
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Rajagopal, S., S.R. Sangam and S. Singh, 2016. Understanding the Impacts of Alcohol; Gastric Functions and Therapy. In: Disorders of Gastrointestinal Systems and Clinical Manifestations, Rajagopal, S., S. Murugan and S. Ramachandran (Eds.). Chapter 1, Nova Publications, New York, USA., ISBN: 978-1-63485-366-8, pp: 1-12.
Rajagopal, S., S.R. Sangam, S. Singh and V.R Joginapally, 2016. Modulatory effects of dietary amino acids on neurodegenerative diseases. Adv. Neurobiol., 12: 401-414.
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Rajagopal, S., S.R. Sangam, S. Singh and V.R. Joginapally, 2015. Alcohol-induced Hepatotoxicity; Symptoms and Management. In: Hepatotoxicity, Symptoms, Management and Health Implications. Rajagopal, S. and S. Murugan (Ed.). Nova Publications, New York, USA., ISBN: 978-1-63482-650-1, pp: 1-22.
Rajagopal, S., S.R. Sangam, S. Singh and V.R. Joginapally, 2016. Modulatory Effects of Dietary Amino Acids on Neurodegenerative Diseases. In: The Benefits of Natural Products for Neurodegenerative Diseases, Essa, M.M., A. Mohammed and G. Guillemin (Eds.). Springer Publications, New York, USA., ISBN: 978-3-319-28383-8.
Rajagopal, S., V.R. Joginapally, T.S.P. Srinivasan and V. Ramanathan, 2014. Beneficial Effects of Dietary Amino acids on Brain Health. In: Food and Brain Function. Essa, M.M. and M.A. Memon (Ed.). Nova Publications, New York, USA., ISBN: 978-1-63117-734-7, pp: 221-224.
Rajagopal, S.,P. Viswanathan and N. Nalini, 2003. Glycine modulates hepatic lipid accumulation in alcohol induced liver injury. Polish J. Pharmacol., 55: 603-611.
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Rajagopal, S.K., P. Manickam, V. Periyasamy and N. Namasivayam, 2003. Activity of Cassia auriculata leaf extract in rats with alcoholic liver injury. J. Nutr. Biochem., 14: 452-458.
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Ramanathan, V. and S. Rajagopal, 2016. Chrysin ameliorates the lipid profiles in Nω-nitro-l-arginine-methylester-induced hypertensive rats. Am. J. Biochem. Mol. Biol., 6: 60-66.
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Razak, M.A., P.S. Begum, B. Viswanath and S. Rajagopal, 2017. Multifarious beneficial effect of nonessential amino acid, glycine: A review. Oxid. Med. Cell. Longevity. 10.1155/2017/1716701.
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Sangam. S. and S. Rajagopal, 2014. Mitochondrial abnormalities and pathways of cancer. Res. J. Recent Sci., 3: 1-6.
Sengottuvelan, M., R. Senthilkumar and N. Nalini, 2006. Modulatory influence of dietary resveratrol during different phases of 1,2-dimethylhydrazine induced mucosal lipid-peroxidation, antioxidant status and aberrant crypt foci development in rat colon carcinogenesis. Biochim. Biophys. Acta., 1760: 1175-1183.
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Senthilkumar, R. and N. Nalini, 2004. Glycine modulates lipids and lipoproteins levels in rats with alcoholic liver injury. Int. J. Pharmacol., Vol. 2, 10.5580/2955.
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Senthilkumar, R., 2013. Amino Acids from Food as Medicine: Valuable Function. In: Food as Medicine. Essa, M.M. and M.A. Memon (Ed.). Nova Publications, New York, USA., ISBN: 978-1-62417-747-7, pp: 411-442.
Senthilkumar, R., M. Sengottuvelan and N. Nalini, 2004. Protective effect of glycine supplementation on the levels of lipid peroxidation and antioxidant enzymes in the erythrocyte of rats with alcohol induced liver injury. Cell Biochem. Function, 22: 123-128.
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Singh, S., M. Abdul Razak, S.R. Sangam, B. Viswanath, P.S. Begum and S. Rajagopal, 2017. The Impact of Functional Food and Nutraceuticals in Health. In: Therapeutic Food (Handbook of Food Bioengineering, Volume 8), Grumezescu, A.M. and A.M. Holban (Eds.). Chapter 2, Academic Press, Cambridge, USA., ISBN-13: 9780128115176.
Singh, S., S.R. Sangam and S. Rajagopal, 2016. Role of Dietary Amino Acids on Parkinson's Diseases. In: The Benefits of Natural Products for Neurodegenerative Diseases, Essa, M.M., A. Mohammed and G. Guillemin (Eds.). Springer Publications, New York, USA., ISBN: 978-3-319-28383-8.
Singh, S., S.R. Sangam, V.R. Joginapally and S. Rajagopal, 2015. Alcohol, glycine and gastritis. Int. J. Nutr. Pharmacol. Neurol. Dis., 5: 1-5.
Singh, S., S.R. Sangam, V.R. Joginapally and S. Rajagopal, 2015. Alcohol-induced gastric inflammation. J. Pharmaceut. Biomed. Sci., 5: 174-177.
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Srinivasan, T.S.P. and S. Rajagopal, 2015. Hepatocarcinogenicity of Aflatoxin-B1. In: Hepatocarcinogenicity of Aflatoxin-B1. Rajagopal, S. and M. Sengottuvelan (Ed.). Nova Publications, New York, USA., ISBN: 978-1-63482-650-1, pp: 229-246.
Surya, D., R.S. Vijayakumar, S. Rajagopal and N. Nalini, 2002. Hypolipidemic effect of Cuminun cyminum L. on alloxan induced diabetic rats. Pharmacol. Res., 46: 11-15.
Veerappan, R. and S. Rajagopal, 2015. Chrysin enhances antioxidants and oxidative stress in L-NAME-induced hypertensive rats. Int. J. Nutr. Pharmacol. Neurol. Dis., 5: 20-27.
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Vijayakumar, R.S., D. Surya, S. Rajagopal and N. Nalini, 2002. Hypolipidemic effect of black pepper (Piper nigrum Linn.) in rats fed high fat diet. J. Clin. Biochem. Nutr., 32: 31-42.
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Viswanath, B., S. Rajagopal, P.A. Basha, D.M. Rao, P.S. Begum, D. Rajakumari and M.A. Razak, 2016. Enhancing the activity of aspartate kinase for an overproduction of L-lysine by Corynebacterium glutamicum. Am. J. Biochem. Mol. Biol., 6: 33-44.
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