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| | Issue Date | Title | Author(s) |
| 1 | 13-May-2002 | Types of inter-atomic interactions at the MHC-peptide interface: identifying commonality from accumulated data. | Adrian, P.E.; Rajaseger, G. ; Mathura, V.S.; Sakharkar, M.K. ; Kangueane, P. |
| 2 | 2000 | TRES: Comparative promoter sequence analysis | Katti, M.V.; Sakharkar, M.K. ; Ranjekar, P.K.; Gupta, V.S. |
| 3 | 2001 | Towards the MHC-peptide combinatorics | Kangueane, P.; Sakharkar, M.K. ; Kolatkar, P.R. ; Ren, E.C. |
| 4 | 14-Apr-1998 | The structure of the two amino-terminal domains of human ICAM-1 suggests how it functions as a rhinovirus receptor and as an LFA-1 integrin ligand | Bella, J.; Kolatkar, P.R. ; Marlor, C.W.; Greve, J.M.; Rossmann, M.G. |
| 5 | 1-Apr-2012 | The crystal structure of the Sox4 HMG domain-DNA complex suggests a mechanism for positional interdependence in DNA recognition | Jauch, R.; Ng, C.K.L.; Narasimhan, K.; Kolatkar, P.R. |
| 6 | 10-Feb-2010 | Structure of Smad1 MH1/DNA complex reveals distinctive rearrangements of BMP and TGF-β effectors | BabuRajendran, N.; Palasingam, P.; Narasimhan, K.; Sun, W.; Prabhakar, S.; Jauch, R.; Kolatkar, P.R. |
| 7 | Jan-2005 | Structure of rhodocetin reveals noncovalently bound heterodimer interface | Paaventhan, P. ; Kong, C.; Joseph, J.S.; Chung, M.C.M. ; Kolatkar, P.R. |
| 8 | 15-Nov-1999 | Structural studies of two rhinovirus serotypes complexed with fragments of their cellular receptor | Kolatkar, P.R. ; Bella, J.; Olson, N.H.; Bator, C.M.; Baker, T.S.; Rossmann, M.G. |
| 9 | Oct-2011 | Structural basis for the cooperative DNA recognition by Smad4 MH1 dimers | Baburajendran, N.; Jauch, R.; Tan, C.Y.Z.; Narasimhan, K.; Kolatkar, P.R. |
| 10 | Sep-2012 | Structural analysis and dimerization profile of the SCAN domain of the pluripotency factor Zfp206 | Liang, Y.; Huimei Hong, F.; Ganesan, P.; Jiang, S.; Jauch, R.; Stanton, L.W.; Kolatkar, P.R. |
| 11 | 1998 | Splitting-Merging Model of Chinese Word Tokenization and Segmentation | Yao, Y. ; Lua, K.T. |
| 12 | Dec-2013 | Sox transcription factors require selective interactions with oct4 and specific transactivation functions to mediate reprogramming | Aksoy, I.; Jauch, R.; Eras, V.; Chng, W.-B.A.; Chen, J.; Divakar, U.; Ng, C.K.L.; Kolatkar, P.R. ; Stanton, L.W. |
| 13 | 1-Oct-2020 | Solubilization mechanism of diesel in saponin micelle for contaminated montmorillonite washing | Huang, Zhaolu ; Yao, Yuan ; Ayele, Befkadu Abayneh; Chen, Quanyuan; Xue, Qiaoyi |
| 14 | 2002 | SCORPION, a molecular database of scorpion toxins | Srinivasan, K.N. ; Gopalakrishnakone, P. ; Tan, P.T.; Chew, K.C.; Kini, R.M. ; Cheng, B. ; Koh, J.L.Y.; Seah, S.H.; Brusic, V. |
| 15 | 2001 | Phylogenetic relationships of the seven coat protein subunits of the coatomer complex, and comparative sequence analysis of murine xenin and proxenin | Chow, V.T.K. ; Yeo, W.M.; Sakharkar, M.K. ; Lim, D.P.P. |
| 16 | 3-Apr-2013 | Oct4 switches partnering from Sox2 to Sox17 to reinterpret the enhancer code and specify endoderm | Aksoy, I.; Jauch, R.; Chen, J.; Dyla, M.; Divakar, U.; Bogu, G.K.; Teo, R.; Leng Ng, C.K.; Herath, W.; Lili, S.; Hutchins, A.P.; Robson, P.; Kolatkar, P.R. ; Stanton, L.W. |
| 17 | Nov-2003 | Nonrandom Intragenic Variations in Patterns of Codon Bias Implicate a Sequential Interplay between Transitional Genetic Drift and Functional Amino Acid Selection | Lin, K. ; Tan, S.B.; Kolatkar, P.R. ; Epstein, R.J. |
| 18 | 2004 | Mutational dynamics of the SARS coronavirus in cell culture and human populations isolated in 2003 | Vega V.B. ; Ruan Y. ; Liu J. ; Lee W.H.; Wei C.L.; Se-Thoe S.Y.; Tang K.F. ; Zhang T. ; Kolatkar P.R. ; Ooi E.E. ; Ling A.E.; Stanton, Lawrence Walter ; Long P.M. ; Liu E.T. |
| 19 | Jan-2001 | Molecular modeling on the Web. | Ranganathan, S. |
| 20 | 2000 | Molecular modeling of the minor histocompatibility antigen HA-1 peptides binding to HLA-A alleles | Ren, E.C. ; Kangueane, P.; Kolatkar, P. ; Lin, M.T.; Tseng, L.H.; Hansen, J.A. |
