Morya, V.K. J. Kim and E.K. Kim, 2012. Algal fucoidan: structural and size-dependent bioactivities and their perspectives. Applied Microbiol. Biotechnol., 93: 71-82.PubMed |
Morya, V.K., 2012. Open access biological information: Deeds of need. J. Proteomics Bioinform., 5: 1-1.CrossRef | Direct Link |
Devasahayam, M., E.P. Koshy, V.K. Morya and R.B. Lal, 2011. Meeting report of the national symposium on ''advances in transgenic technology and its impact on the national economy'' held 23rd April 2010 at Allahabad, UP, India. Transgenic Res., 20: 215-217.Direct Link |
Krishna, G., B.K. Singh, E.K. Kim, V.K. Morya and P.W. Ramteke, 2015. Progress in genetic engineering of peanut (Arachis hypogaea
L.)-A review. Plant Biotechnol. J., 13: 147-162.CrossRef | Direct Link |
Mai, N.L., K. Ahn, S.W. Bae, D.W. Shin, V.K. Morya and Y.M. Koo, 2014. Ionic liquids as novel solvents for the synthesis of sugar fatty acid ester. Biotechnol. J., 9: 1565-1572.CrossRef | Direct Link |
Morya, K.V., C. Ahn, S. Jeon and E.K. Kim, 2013. Medicinal and cosmetic potentials of sophorolipids. Mini Rev. Med. Chem., 13: 1761-1768.Direct Link |
Morya, V. and D. Yadav, 2010. Production and partial characterization of neutral protease by an indigenously isolated strain of Aspergillus tubingensis NIICC-08155. Internet J. Microbiol., 8: 9-10.
Morya, V.K. and D. Yadav, 2009. Extracellular Alkaline Protease of A. Awamori (MTCC 8839): Production, Partial Purification and Characterization. J. Basic Appl. Mycol., 8: 42-48.
Morya, V.K. and D. Yadav, 2009. Isolation and screening of different isolates of Aspergillus
for amylases production. Internet J. Microbiol., Vol. 7. .Direct Link |
Morya, V.K. and D. Yadav, 2010. Partial characterization of an acid protease from an indigenously isolated Aspergillus awamori (NIICC 08154) from soil of teak forest. Adv. Biotech, 9: 29-32.
Morya, V.K. and D. Yadav, 2010. Production and partial characterization of neutral protease by an indigenously isolated strain of Aspergillus tubingensis NIICC-08155. Internet J. Microbiol., 8: 1-7.Direct Link |
Morya, V.K., 2010. Atomic Force Microscopy (AFM): A universal tool for characterization and fabrication of nanomaterial. Biozephyr, 1: 16-18.
Morya, V.K., 2012. Omics for metabolic reconstruction engineering: The current trend. J. Proteomics Bioinform., 5: 18-19.Direct Link |
Morya, V.K., J.H. Park, T.J. Kim, S. Jeon and E.K. Kim, 2013. Production and characterization of low molecular weight sophorolipid under fed-batch culture. Bioresour. Technol., 143: 282-288.CrossRef | Direct Link |
Morya, V.K., Kamal and D. Yadav, 2009. Diversity of indigenously isolated Aspergilli
from soil of monoculture teak forest. Res. J. Soil Biol., 1: 77-83.CrossRef |
Morya, V.K., Kamal and D. Yadav, 2009. Production and partial characterizations of amylase secreted by an indigenously isolated Aspergillus tamarii (NIICC-08162) from soil of teak forest. J. Basic Applied Mycol., 8: 54-60.
Morya, V.K., M. Son, H.B. Lee and E.K. Kim, 2014. Design and optimization of SPR-based binding assay for evaluation and screening of MITF-E-box binding inhibitor. Mol. Biotechnol., 56: 265-273.CrossRef | Direct Link |
Morya, V.K., N.H. Dung, B.K. Singh, H.B. Lee and E.K. Kim, 2014. Homology modelling and virtual screening of P-protein in a quest for novel antimelanogenic agent and In vitro
assessments. Exp. Dermatol., 23: 838-842.CrossRef | Direct Link |
Morya, V.K., S. Kumari and E. Kim, 2011. Imperative pathway analysis to identify the potential drug target for aspergillus infection. Int. J. Latest Trends Comput., 2: 178-182.Direct Link |
Morya, V.K., S. Kumari and E. Kim, 2012. Virtual screening and evaluation of Ketol-Acid Reducto-Isomerase (KARI) as a putative drug target for Aspergillosis
. Clin. Proteomics, 9: 1-13.PubMed |
Morya, V.K., S. Kumari and R. Lall, 2010. BIOCHIPS: Revolutionary tool for research in biotechnology. Biozephyr, 1: 4-5.
Morya, V.K., S. Nayak, S.K. Mishra, Kamal and D. Yadav, 2009. Morphological Characteristics and Total Mycelial Protein Profile of Indigenously Isolated Aspergillus
Strains. J. Mycol. Plant Pathol., 39: 216-219.Direct Link |
Morya, V.K., S. Yadav, E.K. Kim and D. Yadav, 2012. In silico
characterization of alkaline proteases from different species of Aspergillus
. Applied Biochem. Biotechnol., 166: 243-257.PubMed |
Morya, V.K., S.J. Dong and E.K. Kim, 2014. Production and characterization Te-peptide by induced autolysis of Saccharomyces Cerevisiae. Applied Biochem. Biotechnol., 172: 3390-3401.CrossRef | Direct Link |
Morya, V.K., S.K. Mishra and D. Yadav, 2007. Isolation of Genomic DNA from Aspergillus species using buffer with different concentration. J. Basic Applied Mycol., 6: 30-33.
Morya, V.K., V. Dewaker and E. Kim, 2012. In Silico Study and Validation of Phosphotransacetylase (PTA) as a Putative Drug Target for Staphylococcus aureus
by Homology-Based Modelling and Virtual Screening. Appl. Biochem. Biotechnol., 168: 1792-1805.CrossRef | Direct Link |
Morya, V.K., V. Dewaker, S.D. Mecarty and R. Singh, 2010. In silico
analysis of metabolic pathways for identification of putative drug targets for Staphylococcus aureus
. J. Comput. Sci. Syst. Biol., 3: 62-69.CrossRef |
Morya, V.K., V.K. Yadav and V. Dewaker, 2010. Release of nanoparticle in environment and their effect on ecosystem. Biozephyr, 2: 10-11.
Morya, V.K., W. Choi and E.K. Kim, 2014. Isolation and characterization of Pseudoalteromonas
sp. from fermented Korean food, as an antagonist to Vibrio harveyi
. Applied Microbiol. Biotechnol., 98: 1389-1395.CrossRef | Direct Link |
Morya, V.K., Y. Singh, B.K. Singh and G. Thomas, 2015. Ecogenomics of geminivirus from India and neighbor countries: An in silico analysis of recombination phenomenon. Interdisciplinary Sci.: Comput. Life Sci., 7: 168-176.CrossRef |
Park, S., V.K. Morya, D.H. Nguyen, B.K. Singh, H.B. Lee and E.K. Kim, 2015. Unrevealing the role of P-protein on melanosome biology and structure, using siRNA-mediated down regulation of OCA2. Mol. Cell. Biochem., 403: 61-71.CrossRef | Direct Link |
Verma, O.P., A. Singh, V.K. Morya, R. Sharma and A.K. Gupta, 2010. Application of Toddy Yeast for the Fermentation of Mango Pulp. Nanobiotechnica Universale, 1: 39-44.Direct Link |