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result(s) for
"Sinha, Sangita C"
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Regulation of innate antiviral defenses through a shared repressor domain in RIG-I and LGP2
by
Sinha, Sangita C
,
Saito, Takeshi
,
Johnson, Cynthia L
in
Amino acids
,
Antiviral Agents - metabolism
,
Binding sites
2007
RIG-I is an RNA helicase containing caspase activation and recruitment domains (CARDs). RNA binding and signaling by RIG-I are implicated in pathogen recognition and triggering of IFN-α/β immune defenses that impact cell permissiveness for hepatitis C virus (HCV). Here we evaluated the processes that control RIG-I signaling. RNA binding studies and analysis of cells lacking RIG-I, or the related MDA5 protein, demonstrated that RIG-I, but not MDA5, efficiently binds to secondary structured HCV RNA to confer induction of IFN-β expression. We also found that LGP2, a helicase related to RIG-I and MDA5 but lacking CARDs and functioning as a negative regulator of host defense, binds HCV RNA. In resting cells, RIG-I is maintained as a monomer in an autoinhibited state, but during virus infection and RNA binding it undergoes a conformation shift that promotes self-association and CARD interactions with the IPS-1 adaptor protein to signal IFN regulatory factor 3- and NF-κB-responsive genes. This reaction is governed by an internal repressor domain (RD) that controls RIG-I multimerization and IPS-1 interaction. Deletion of the RIG-I RD resulted in constitutive signaling to the IFN-β promoter, whereas RD expression alone prevented signaling and increased cellular permissiveness to HCV. We identified an analogous RD within LGP2 that interacts in trans with RIG-I to ablate self-association and signaling. Thus, RIG-I is a cytoplasmic sensor of HCV and is governed by RD interactions that are shared with LGP2 as an on/off switch controlling innate defenses. Modulation of RIG-I/LGP2 interaction dynamics may have therapeutic implications for immune regulation.
Journal Article
Biophysical and Solution Structure Analysis of Critical Residues Involved in the Interaction between the PupB N-Terminal Signaling Domain and PupR C-Terminal Cell Surface Signaling Domain from Pseudomonas capeferrum
by
Morgan, David M.
,
Sinha, Sangita C.
,
Sultana, Tajnin
in
Amino acid substitution
,
Bacterial Proteins - chemistry
,
Bacterial Proteins - genetics
2024
Cell surface signaling (CSS) is a means of rapidly adjusting transcription in response to extracellular stimuli in Gram-negative bacteria. The pseudobactin BN7/8 uptake (Pup) system not only imports iron but also upregulates its own transcription through CSS in Pseudomonas capeferrum. In the absence of ferric pseudobactin BN7/8, the signaling components are maintained in a resting state via the formation of a periplasmic complex between the N-terminal signaling domain (NTSD) of the outer membrane iron-transporter, PupB, and the C-terminal CSS domain (CCSSD) of the sigma regulator, PupR. The previously determined 1.6 Å crystal structure of this periplasmic complex has allowed us to probe the structural and thermodynamic consequences of mutating key interfacial residues. In this report, we describe the solution structure of the PupB NTSD and use Nuclear Magnetic Resonance spectroscopy, Isothermal Titration Calorimetry, and Circular Dichroism spectroscopy together with thermal denaturation to investigate whether three PupB point mutations, Q69K, H72D, and L74A, influence the interaction merely due to the chemical nature of the amino acid substitution or also cause changes in overall protein structure. Our results demonstrate that binding to the PupR CCSSD does not alter the structure of PupB NTSD and that the individual mutations have only minor effects on structure. The mutations generally lower thermodynamic stability of the NTSD and weaken binding to the CCSSD. These findings validate the X-ray crystal structure interface, emphasizing the importance of amino acid chemical nature at the interface.
Journal Article
Transient Unfolding and Long-Range Interactions in Viral BCL2 M11 Enable Binding to the BECN1 BH3 Domain
2020
Viral BCL2 proteins (vBCL2s) help to sustain chronic infection of host proteins to inhibit apoptosis and autophagy. However, details of conformational changes in vBCL2s that enable binding to BH3Ds remain unknown. Using all-atom, multiple microsecond-long molecular dynamic simulations (totaling 17 μs) of the murine γ-herpesvirus 68 vBCL2 (M11), and statistical inference techniques, we show that regions of M11 transiently unfold and refold upon binding of the BH3D. Further, we show that this partial unfolding/refolding within M11 is mediated by a network of hydrophobic interactions, which includes residues that are 10 Å away from the BH3D binding cleft. We experimentally validate the role of these hydrophobic interactions by quantifying the impact of mutating these residues on binding to the Beclin1/BECN1 BH3D, demonstrating that these mutations adversely affect both protein stability and binding. To our knowledge, this is the first study detailing the binding-associated conformational changes and presence of long-range interactions within vBCL2s.
Journal Article
Structural Characterization of Pandoraea pnomenusa B-356 Biphenyl Dioxygenase Reveals Features of Potent Polychlorinated Biphenyl-Degrading Enzymes
by
Eltis, Lindsay D.
,
Chakko, Mathew N.
,
Kumar, Pravindra
in
Amino acid sequence
,
Amino acids
,
Biochemistry
2013
The oxidative degradation of biphenyl and polychlorinated biphenyls (PCBs) is initiated in Pandoraea pnomenusa B-356 by biphenyl dioxygenase (BPDO(B356)). BPDO(B356), a heterohexameric (αβ)(3) Rieske oxygenase (RO), catalyzes the insertion of dioxygen with stereo- and regioselectivity at the 2,3-carbons of biphenyl, and can transform a broad spectrum of PCB congeners. Here we present the X-ray crystal structures of BPDO(B356) with and without its substrate biphenyl 1.6-Å resolution for both structures. In both cases, the Fe(II) has five ligands in a square pyramidal configuration: H233 Nε2, H239 Nε2, D386 Oδ1 and Oδ2, and a single water molecule. Analysis of the active sites of BPDO(B356) and related ROs revealed structural features that likely contribute to the superior PCB-degrading ability of certain BPDOs. First, the active site cavity readily accommodates biphenyl with minimal conformational rearrangement. Second, M231 was predicted to sterically interfere with binding of some PCBs, and substitution of this residue yielded variants that transform 2,2'-dichlorobiphenyl more effectively. Third, in addition to the volume and shape of the active site, residues at the active site entrance also apparently influence substrate preference. Finally, comparison of the conformation of the active site entrance loop among ROs provides a basis for a structure-based classification consistent with a phylogeny derived from amino acid sequence alignments.
Journal Article
Origin of asymmetry in adenylyl cyclases: structures of Mycobacterium tuberculosis Rv1900c
by
Sinha, Sangita C
,
Wetterer, Martina
,
Sprang, Stephen R
in
Adenosine Triphosphate - metabolism
,
adenylyl cyclase
,
Adenylyl Cyclases - chemistry
2005
Rv1900c, a
Mycobacterium tuberculosis
adenylyl cyclase, is composed of an N‐terminal α/β‐hydrolase domain and a C‐terminal cyclase homology domain. It has an unusual 7% guanylyl cyclase side‐activity. A canonical substrate‐defining lysine and a catalytic asparagine indispensable for mammalian adenylyl cyclase activity correspond to N342 and H402 in Rv1900c. Mutagenic analysis indicates that these residues are dispensable for activity of Rv1900c. Structures of the cyclase homology domain, solved to 2.4 Å both with and without an ATP analog, form isologous, but asymmetric homodimers. The noncanonical N342 and H402 do not interact with the substrate. Subunits of the unliganded open dimer move substantially upon binding substrate, forming a closed dimer similar to the mammalian cyclase heterodimers, in which one interfacial active site is occupied and the quasi‐dyad‐related active site is occluded. This asymmetry indicates that both active sites cannot simultaneously be catalytically active. Such a mechanism of half‐of‐sites‐reactivity suggests that mammalian heterodimeric adenylyl cyclases may have evolved from gene duplication of a primitive prokaryote‐type cyclase, followed by loss of function in one active site.
Journal Article
Crystal Structure of Bacillus subtilis YabJ, a Purine Regulatory Protein and Member of the Highly Conserved YjgF Family
by
Sinha, Sangita
,
Lange, S. C.
,
Smith, Janet L.
in
Amino Acid Sequence
,
Animals
,
Bacillus subtilis
1999
The yabJ gene in Bacillus subtillis is required for adenine-mediated repression of purine biosynthetic genes in vivo and codes for an acid-soluble, 14-kDa protein. The molecular mechanism of YabJ is unknown. YabJ is a member of a large, widely distributed family of proteins of unknown biochemical function. The 1.7- angstrom crystal structure of YabJ reveals a trimeric organization with extensive buried hydrophobic surface and an internal water-filled cavity. The most important finding in the structure is a deep, narrow cleft between subunits lined with nine side chains that are invariant among the 25 most similar homologs. This conserved site is proposed to be a binding or catalytic site for a ligand or substrate that is common to YabJ and other members of the YER057c/YjgF/UK114 family of proteins.
Journal Article
Bankers who could be newsmakers in 2014 Banking
by
Mehta, Sangita
,
Rangan, MC Govardhana
,
Sinha, Shilpy
in
Banking industry
,
Banks
,
Infrastructure
2014
Newspaper Article
To resolve bad loans, both capital & human resources are scarce: Siby Antony, Chairman, Edelweiss ARC Interviews
2017
The bankruptcy code has brought a new energy to the stressed assets market in the country. The last tool was the Securitisation and Reconstruction of Financial Assets and Enforcement of Security Interest Act (SARFAESI) for almost 10 to 12 years. In the 90s, we had Debt Recovery Tribunals (DRTs), then in 2000 it became SARFAESI and now it is the Insolvency and Bankruptcy Code (IBC).
Newspaper Article
It's unfair to compare banks with non-banking finance companies: Rajiv Anand of Axis Bank Interviews
by
Vasudevan, Nishanth
,
Mehta, Sangita
,
Shukla, Saloni
in
Banking industry
,
Banks
,
Branch banking
2017
In an interaction with ET journalists, Rajiv Anand, head of retail at Axis, talks about the challenges not only from rivals, but also from technology and non-banking finance companies. All of us are working towards the government's mandate of 'less cash', but the need for cash is not going to disappear completely. [...]ATMs will continue to exist. During predemonetisation days these charges existed, and during the period of demonetisation, we waived these charges and brought them back post-demonetisation. [...]most of these charges have been around for a long time. The intent of the current merchant discount rate (MDR) regime is to bring small merchants and small-value transactions on to debit cards. The target is now that the payment acceptance terminals have increased dramatically if we can manage to move this customer who are acquainted with the debit card from ATM to debit cards, that is itself a big victory. [...]that digital transactions and technology adoption in banks are going up, are you buying more cyber security cover? Under retail, we offer home loans, CV loans, personal loans, micro finance, small business.
Newspaper Article