Natural history of eukaryotic DNA methylation systems LM Iyer, S Abhiman, L Aravind Progress in molecular biology and translational science 101, 25-104, 2011 | 225 | 2011 |
MutL homologs in restriction-modification systems and the origin of eukaryotic MORC ATPases LM Iyer, S Abhiman, L Aravind Biology direct 3, 1-9, 2008 | 131 | 2008 |
Sub-grouping and sub-functionalization of the RIFIN multi-copy protein family N Joannin, S Abhiman, EL Sonnhammer, M Wahlgren BMC genomics 9, 1-14, 2008 | 122 | 2008 |
Amidoligases with ATP-grasp, glutamine synthetase-like and acetyltransferase-like domains: synthesis of novel metabolites and peptide modifications of proteins LM Iyer, S Abhiman, AM Burroughs, L Aravind Molecular bioSystems 5 (12), 1636-1660, 2009 | 114 | 2009 |
Hepatitis C virus internal ribosome entry site-mediated translation is stimulated by specific interaction of independent regions of human La autoantigen R Pudi, S Abhiman, N Srinivasan, S Das Journal of Biological Chemistry 278 (14), 12231-12240, 2003 | 108 | 2003 |
BEN: a novel domain in chromatin factors and DNA viral proteins S Abhiman, LM Iyer, L Aravind Bioinformatics 24 (4), 458-461, 2008 | 102 | 2008 |
Natural history of the eukaryotic chromatin protein methylation system L Aravind, S Abhiman, LM Iyer Progress in molecular biology and translational science 101, 105-176, 2011 | 75 | 2011 |
Comparative genomics uncovers novel structural and functional features of the heterotrimeric GTPase signaling system V Anantharaman, S Abhiman, RF de Souza, L Aravind Gene 475 (2), 63-78, 2011 | 65 | 2011 |
SUPFAM—a database of potential protein superfamily relationships derived by comparing sequence-based and structure-based families: implications for structural genomics and … SB Pandit, D Gosar, S Abhiman, S Sujatha, SS Dixit, NS Mhatre, ... Nucleic acids research 30 (1), 289-293, 2002 | 62 | 2002 |
Origin and evolution of peptide-modifying dioxygenases and identification of the wybutosine hydroxylase/hydroperoxidase LM Iyer, S Abhiman, RF de Souza, L Aravind Nucleic acids research 38 (16), 5261-5279, 2010 | 59 | 2010 |
FunShift: a database of function shift analysis on protein subfamilies S Abhiman, ELL Sonnhammer Nucleic acids research 33 (suppl_1), D197-D200, 2005 | 54 | 2005 |
Large‐scale prediction of function shift in protein families with a focus on enzymatic function S Abhiman, ELL Sonnhammer PROTEINS: Structure, Function, and Bioinformatics 60 (4), 758-768, 2005 | 52 | 2005 |
A new family of polymerases related to superfamily A DNA polymerases and T7-like DNA-dependent RNA polymerases LM Iyer, S Abhiman, L Aravind Biology Direct 3, 1-7, 2008 | 39 | 2008 |
PRODOC: a resource for the comparison of tethered protein domain architectures with in-built information on remotely related domain families O Krishnadev, N Rekha, SB Pandit, S Abhiman, S Mohanty, LS Swapna, ... Nucleic acids research 33 (suppl_2), W126-W129, 2005 | 14 | 2005 |
Prediction of function divergence in protein families using the substitution rate variation parameter alpha S Abhiman, CO Daub, ELL Sonnhammer Molecular biology and evolution 23 (7), 1406-1413, 2006 | 13 | 2006 |
Evolution of eukaryotic chromatin proteins and transcription factors L Aravind, V Anantharaman, S Abhiman, LM Iyer Protein families: relating protein sequence, structure, and function, 421-502, 2013 | 3 | 2013 |
Prediction of function shift in protein families S Abhiman PQDT-Global, 2006 | | 2006 |