Ajit DattaBose Institute · Department of Biochemistry
Ajit Datta
PhD
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30
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Introduction
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January 2011 - July 2015
December 2005 - January 2011
Publications
Publications (30)
Ubiquitin RING E3 ligases (E3s) catalyze ubiquitin (Ub) transfer to their substrates by engaging E2∼Ub intermediates with the help of their RING domains. Different E3s have been found to contain a conserved tryptophan residue in their RING that plays an essential role in E2 binding and, hence, enzymatic activity. Many active E3s, however, lack this...
RING domains in Ubiquitin RING E3 ligases exclusively engage ubiquitin (Ub) loaded E2s to facilitate ubiquitination of their substrates. Despite such specificity, all RINGs characterized till-date bind unloaded E2s with dissociation constants (Kds) in the micromolar to the sub-millimolar range. Here we show that the RING domain of E3 ligase ZNRF1,...
Members of the RING E3 ubiquitin ligase family bind to both substrate and ubiquitin-charged E2 enzyme, promoting transfer of ubiquitin from the E2 to substrate. Either a single ubiquitin or one of several types of polyubiquitin chains can be conjugated to substrate proteins, with different types of ubiquitin modifications signaling distinct outcome...
The transcription-activator protein C1 of the temperate phage P22 of Salmonella typhimurium plays a key role in the lytic versus lysogenic switch of the phage. A homotetramer of 92-residue polypeptides, C1 binds to an approximate direct repeat similar to the transcription activator CII of coliphage λ. Despite this and several other similarities, in...
Ubiquitination of a target protein is accomplished through sequential actions of the E1, E2s, and the E3s. E2s dictate the modification topology while E3 ligases confer substrate specificity and recruit the cognate E2. Human genome codes for ~35 different E2 proteins; all of which contain the characteristic UBC core domain sufficient for catalysis....
The putative zinc-binding domain (pZBD) in Escherichia coli glutamyl-tRNA synthetase (GluRS) is known to correctly position the tRNA acceptor arm and modulate the amino acid binding site. However, its functional role in other bacterial species is not clear since many bacterial GluRSs lack a Zn-binding motif in the pZBD. From experimental studies on...
Cyclic AMP receptor protein (CRP), the global transcription regulator in prokaryotes, is active only as a cAMP-CRP complex. Binding of cAMP changes the conformation of CRP, transforming it from a transcriptionally 'inactive' to an 'active' molecule. These conformers are also characterized by distinct biochemical properties including the ability to...
HlyU in Vibrio cholerae is known to be the transcriptional activator of the hemolysin gene, HlyA and possibly a regulator of other virulence factors influencing growth, colonization and pathogenicity of this infective agent. Here we report the crystal structure of HlyU from V. cholerae N16961 (HlyU_Vc) at 1.8Å. The protein, with five α-helices and...
The nature of interaction between glutamyl-tRNA synthetase (GluRS) and its tRNA substrate is unique in bacteria in that many bacterial GluRS are capable of recognizing two tRNA substrates: tRNAGlu and tRNAGln. To properly understand this distinctive GluRS–tRNA interaction it is important to pursue detailed structure–function studies; however, becau...
The DNA repair function of the breast cancer susceptibility protein BRCA1 depends in part on its interaction with RAP80, which targets BRCA1 to DNA double strand breaks (DSBs) through recognition of K63‐linked polyubiquitin chains. The localization of BRCA1 to DSBs also requires sumoylation. Here, we demonstrated that, in addition to having ubiquit...
The DNA repair function of the breast cancer susceptibility protein BRCA1 depends in part on its interaction with RAP80, which targets BRCA1 to DNA double-strand breaks (DSBs) through recognition of K63-linked polyubiquitin chains. The localization of BRCA1 to DSBs also requires sumoylation. We demonstrated that, in addition to having ubiquitin-int...
The lysis-lysogeny decision in the temperate coliphage λ is influenced by a number of phage proteins (CII and CIII) as well as host factors, viz. Escherichia coli HflB, HflKC and HflD. Prominent among these are the transcription factor CII and HflB, an ATP-dependent protease that degrades CII. Stabilization of CII promotes lysogeny, while its desta...
LambdaCII is the key protein that influences the lysis/lysogeny decision of lambda by activating several phage promoters. The effect of CII is modulated by a number of phage and host proteins including Escherichia coli HflK and HflC. These membrane proteins copurify as a tightly bound complex 'HflKC' that inhibits the HflB (FtsH)-mediated proteolys...
Complex SAGA
The SAGA (Spt-Ada-Gcn5-Acetyltransferase) complex, which is conserved in eukaryotes, plays a key role in regulating gene expression. It is comprised of 21 proteins, and its functions include histone acetylation and deubiquitination. Samara et al. (p. 1025 , published online 15 April) now report the structure of the SAGA deubiquitinatin...
Ubiquitination involves the covalent attachment of the ubiquitin (Ub) C-terminus to the lysine side chain of a substrate protein by an isopeptide bond. The modification can comprise a single Ub moiety or a chain of Ub molecules joined by isopeptide bonds between the C-terminus of one Ub with one of the seven lysine residues in the next Ub. Modifica...
The CII protein of the temperate bacteriophage lambda is the decision-making factor that determines the viral lytic/lysogenic choice. It is a homotetrameric transcription activator that recognizes and binds specific direct repeat sequences TTGCN(6)TTGC in the lambda genome. The quaternary structure of CII is held by a four-helix bundle. It is known...
The Escherichia coli gene hflX was first identified as part of the hflA operon, mutations in which led to an increased frequency of lysogenization upon infection of the bacterium by the temperate
coliphage lambda. Independent mutational studies have also indicated that the HflX protein has a role in transposition. Based
on the sequence of its gene,...
The CIII protein encoded by the temperate coliphage lambda acts as an inhibitor of the ubiquitous Escherichia coli metalloprotease HflB (FtsH). This inhibition results in the stabilization of transcription factor λCII, thereby helping the
phage to lysogenize the host bacterium. λCIII, a small (54-residue) protein of unknown structure, also protects...
Thermodynamics of podophyllotoxin binding to tubulin and its multiple points of attachment with tubulin has been studied in detail using isothermal titration calorimetry. The calorimetric enthalpy of the association of podophyllotoxin with tubulin is negative and occurs with a negative heat capacity change (DeltaC(p) = -2.47 kJ mol(-)(1) K(-)(1))....
The temperate coliphage λ, after infecting its host bacterium Escherichia coli, can develop either along the lytic or the lysogenic pathway. Crucial to the lysis/lysogeny decision is the homotetrameric transcription-activator protein CII (4 × 11 kDa) of the phage that binds to a unique direct-repeat sequence T-T-G-C-N6-T-T-G-C at each of the three...
An agarose-acrylamide composite native gel (CNG) system has been developed for separating protein complexes of ultra-large molecular sizes (over 500kDa) and for analyzing protein-protein interactions in their native states. Various native gel conditions were explored and techniques were improved to facilitate the formation and performance of the CN...
Structure-activity relationship studies have established that the A and C rings of colchicine comprise the minimum structural feature necessary for high affinity drug-tubulin binding. Thus, colchicine acts as a bifunctional ligand by making two points of attachment to the protein. Furthermore, analogues belonging to the iso series of colchicine are...
A crucial element in the lysis-lysogeny decision of the temperate coliphage lambda is the phage protein CII, which has several interesting properties. It promotes lysogeny through activation of three phage promoters p(E), p(I) and p(aQ), recognizing a direct repeat sequence TTGCN6TTGC at each. The three-dimensional structure of CII, a homo-tetramer...
The CII protein of bacteriophage lambda, which activates the synthesis of the lambda repressor, plays a key role in the lysis-lysogeny switch. CII has a small in vivo half-life due to its proteolytic susceptibility, and this instability is a key component for its regulatory role. The structural basis of this instability is not known. While studying...
The CII protein of the temperate bacteriophage lambda is a transcriptional activator involved in the lysis-lysogeny switch of the phage. It is an unstable protein of 97 amino acids and is known to exist as a tetramer in the native state. The cII gene has been cloned and expressed in Escherichia coli using a T7 promoter based over-expression system....