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4. Immunomodulatory natural polysaccharides: An overview of the mechanisms involved

Author

Prabusankar, G, Rengan, Aravind Kumar, Prabusankar, G, and Rengan, Aravind Kumar

Abstract

Maintenance of homeostasis is the primary function of the immune system. It detects the threats posed by pathogens, cancer, and tissue damage and mounts an immune response. The immunological memory dispensed by the immune system prevents or minimizes a second attack by the pathogen. Owing to the advent of new technologies, the comprehension of the immune system has widened, thus opening new horizons to modulate the immune system against any threat. Modulating the immune system with several biological and synthetic molecules mainly targets the innate and adaptive immune system to mount responses against several types of cancers, pathogenic infections, and autoimmune diseases. Polymers are widely used in several biological applications. The various characteristics of polymers, including molecular weight and tunable properties to modulate certain biological functions, have rendered them an ideal candidate for developing state-of-the-art therapeutic interventions. Extensive studies by various researchers across the globe have unraveled the potential of several synthetic and natural polymers to exhibit immunostimulatory activities. These polymers act as pattern recognition receptors (PRR) agonists to activate and engage the immune system. Despite polymeric nanoformulations and scaffolds being used to ferry molecular cargo, targeted delivery to specific cells, and interact with biological molecules, the innate potential of the polymers to influence the immune system is still little understood. From this perspective, this review discusses the very commonly used natural polysaccharides, which are also polymers, and their innate immunomodulatory potentials, mostly focusing on the molecular pathways influenced by the polysaccharides in the immunomodulation process. Further, the challenges associated with the application of polysaccharides and the potential solutions have also been discussed.

Published
2023

5. Coumarin-Picolinohydrazone derived Schiff base as fluorescent sensor(OFF-ON) for detection of Al3+ ion: Synthesis, Spectral and theoretical studies

Author

Prabusankar, G and Prabusankar, G

Abstract

New coumarin based Schiff base (7MIZ) was synthesized and characterized by various spectral techniques and the true nature was established by X-ray single crystal studies. The probe (7MIZ) acted as fluorescent sensor for detection of Al3+ ion among different metal ions (chloride salts) with high selectively. There was a drastic enhancement in the emission intensity at 482 nm showed fluorescence turn ‘ON’ behavior of the probe when it interacted with Al3+ ion which may be due to CHEF (chelation enhanced fluorescence) effect that inhibited the PET (photo-induced electron transfer) mechanism. Further, Job's plot, binding constant value, LOD value, DFT studies established the interaction between probe (7MIZ) andAl3+ ion and MTT assay studies were carried out for the probe (7MIZ) and Al3+ ion in Breast cancer cell line (MDA-MB-231).

Published
2023

6. A Simple and Fast Access to Phosphine-Substituted Copper(I)-Carbene Complexes via C=Se Bond Cleavage Reaction

Author

Prabusankar, G and Prabusankar, G

Abstract

Phosphine coordinated copper(I)-N-heterocyclic carbene complexes have emerged as an efficient material in catalysis and light-emitting applications. In this study, a gentle and sustainable approach to the copper(I)-carbene phosphine complexes is reported through an efficient C=Se activation protocol. The complexes [(Py^NHC)Cu(PPh3)2]X, X=BF4 (1), ClO4 (2), PF6 (3) and OTf (4); Py^NHC=3-isopropyl-1-(pyridin-2-yl)-imidazol-2-ylidene, and [(Py^NHC)Cu(PPh3)(X)], X=Br (5) and I (6) have been synthesized by treating 1-isopropyl-3-(pyridin-2-yl)-imidazole-2-selone with corresponding copper(I) precursors and triphenylphosphine. In this synthetic strategy, N-heterocyclic carbene gets transferred from N-heterocyclic selone through a C=Se bond cleavage reaction to form copper(I) complexes within five minutes at room temperature. In addition, the mechanism responsible for the C=Se bond cleavage reaction has been fully investigated. These reactions are not sensitive to moisture and oxygen.

Published
2023

7. Highly Active Cyclic Zinc(II) Thione Catalyst for C−C and C−N Bond Formation Reactions

Author

Mannarsamy, Maruthupandi, Nandeshwar, Muneshwar, Muduli, Gopendra, Prabusankar, G, Mannarsamy, Maruthupandi, Nandeshwar, Muneshwar, Muduli, Gopendra, and Prabusankar, G

Abstract

The first discrete seven-membered cyclic zinc(II) complex catalyzed room temperature Knoevenagel condensation reactions, and the synthesis of perimidine derivatives has been reported under mild reaction conditions. The cyclic zinc(II) complex [(L)ZnBr2] (1) was isolated from the reaction between 1-(2-hydroxyethyl)-3-isopropyl-benzimidazol-2-thione (L) and ZnBr2. Complex 1 was characterized by different analytic techniques such as FT-IR, CHNS, TGA, NMR, and SCXRD. The mononuclear zinc(II) complex 1 was utilized as a catalyst for Knoevenagel condensation reactions to isolate twenty different substituted methylene malononitriles with excellent yield. Besides, the zinc(II) thione complex 1 was utilized for the synthesis of 2,4-dihydroperimidine derivatives in a highly efficient manner. Catalyst 1 depicted wide substrate scopes. Overall, twenty different substituted methylene malononitriles and nine different perimidine derivatives were synthesized using catalyst 1 at room temperature. The present investigation features a mild and fast synthetic approach along with excellent functional group tolerance.

Published
2022

8. Tuning the Au–Au interactions by varying the degree of polymerisation in linear polymeric Au(i) N-heterocyclic carbene complexes

Author

Sathyanarayana, Arruri, Siddhant, Kumar, Prabusankar, G, et al, ., Sathyanarayana, Arruri, Siddhant, Kumar, Prabusankar, G, and et al, .

Abstract

Gold(i) N-heterocyclic carbene (Au(i) NHC) polymers were successfully synthesised with alkyl and alkoxy spacers, wherein polymers with different degrees of polymerisation were isolated for the first time by varying the reaction time. The structure-property relationships of the newly synthesised luminescent Au(i) NHC polymeric complexes were examined from the viewpoint of material applications. In particular, we investigated the effect of controlling the Au-Au interactions by varying the degree of polymerisation and introducing spacers into the complexes. An emission study of the polymers suggested that increasing the degree of polymerisation decreases the number of Au-Au interactions. The structures of the molecular aggregates were affected by the degree of polymerisation as well as the spacer between the two carbenes, and all complexes exhibited a high thermal stability (>300 °C). Moreover, we found that the polymer bearing an alkoxy spacer and with a low degree of polymerisation exhibited white room-temperature phosphorescence, thereby indicating that the luminescence behaviour depends mainly on the molecular aggregate structure. These results suggest that various material properties, such as the luminescence colour and thermal stability, can be controlled independently by tuning the structures of molecules and molecular aggregates using alkyl/alkoxy spacers with different degrees of polymerisation. © 2022 The Royal Society of Chemistry.

Published
2022

9. Highly fluorescent polyethylene glycol-ascorbic acid complex for imaging and antimicrobial therapeutics

Author

Appidi, Tejaswini, Ravichandran, Gayathri, Mudigunda, Sushma V., Thomas, Aswathi, Jogdand, Anil B., Kishen, Saurabh, Subramaniyam, Kalaivanan, Emani, Naresh, Prabusankar, G, Rengan, Aravind Kumar, Appidi, Tejaswini, Ravichandran, Gayathri, Mudigunda, Sushma V., Thomas, Aswathi, Jogdand, Anil B., Kishen, Saurabh, Subramaniyam, Kalaivanan, Emani, Naresh, Prabusankar, G, and Rengan, Aravind Kumar

Abstract

In this report, a facile and eco-friendly method was developed to synthesize a potent antimicrobial agent, effective against fungus, bacteria, and virus. The biocompatible FDA approved polymer, polyethylene glycol (PEG), has been modified by ascorbic acid to form fluorescent polyethylene glycol-ascorbic acid complex (FL PEG AA). The flourescence of FL PEG AA complex could be tuned from green to red in the visible range with varying ascorbic acid(AA) concentrations. The Density Functional Theory (DFT) and the Time-Dependent Density Functional Theory (DT-DFT) on ascorbic acid–monoethylene glycol and ascorbic acid–hexaethylene glycol studies were performed to understand the electronic and bonding nature of FL PEG-ascorbic acid (FL PEG AA) system. The emission of FL PEG AA can be ascribed to the integrated core of FL PEG AA through strong hydrogen-bonding interactions. The fluorescence of FL PEG AA was successfully applied to understand its cellular uptake by breast cancer cells. The FL PEG AA complex showed significant inhibition of growth, when tested against fungus (Candida albicans), bacteria: gram-positive (Staphylococcus aureus) and gram-negative (Escherichia coli) and the virus (Bacteriophage lambda). The antimicrobial activity of the FL PEG AA system supports the application of this novel formulation as a potent antimicrobial agent. Due to its viscous physical nature, the FL PEG AA complex could be applied as a coating agent or aerosol spray. © 2021 Elsevier Ltd

Published
2021

10. Catalytically active coordination polymer with a tiny Zn2Se2 ring bridged by bis-selone

Author

Maruthupandi, Mannarsamy, Prabusankar, G, Maruthupandi, Mannarsamy, and Prabusankar, G

Abstract

The unprecedented architecture of a one-dimensional coordination polymer with a tiny Zn2Se2 ring system incorporated in the hydrogen-bonded array has been prepared, where the di-selone ligand functions as a unique neutral bridging ligand. The coordination polymer shows excellent catalytic activity in substituted 8-hydroxy-2-quinolinyl synthesis through Knoevenagel condensation reaction.

Published
2020

11. SYNTHESIS, CRYSTAL STRUCTURE AND THERMAL STUDIES OF TRIPHENYLSILANOL-PIPERAZINE ADDUCT

Author

Dinesh, M., Kavitha, V., Prabusankar, G., Babu, B., babu, B. Mohan, Donghui, G., Maadeswaran, P., Dinesh, M., Kavitha, V., Prabusankar, G., Babu, B., babu, B. Mohan, Donghui, G., and Maadeswaran, P.

Abstract

The solid-state structure of triphenylsilanol-piperazine adduct was reported from optimized reaction conditions. The molecular composition was further supported by elemental analysis, FT-IR, multinuclear NMR (1H and13C) and TGA. In solid-state, the four triphenylsilanols are associated in tetrameric form with one piperazine molecule through intra and intermolecular hydrogen bonds that lead to the new type of hydrogen bonding. The molecule represents one of the rare examples of triphenylsilanol-amine derivatives with a new hydrogen-bonding pattern.

Published
2020

13. Blue-emitting acridine-tagged silver(i)-bis-N-heterocyclic carbene

Author

Prabusankar, G, Muthukumaran, Nirmala, Vaddamanu, Moulali, Raju, Gembali, Velappan, Kavitha, Sathyanarayana, Arruri, Masaya, Yamane, Sugiyama, Shohei, Hisano, Kyohei, Tsutsumi, Osamu, Prabusankar, G, Muthukumaran, Nirmala, Vaddamanu, Moulali, Raju, Gembali, Velappan, Kavitha, Sathyanarayana, Arruri, Masaya, Yamane, Sugiyama, Shohei, Hisano, Kyohei, and Tsutsumi, Osamu

Abstract

Herein, the photophysical properties of an acridine derivative of a bis-N-heterocyclic carbene silver complex were investigated. The HOMO and LUMO energy differences between 9-[(N-methyl imidazol-2-ylidene)]acridine and 4,5-bis[(N-methyl-imidazol-2-ylidene)methyl]acridine were theoretically compared. Based on the calculation, the 4,5-bis N-heterocyclic carbene-tethered acridine type of ligand was found to be a potential source for tuning the fluorescent nature of the resultant metal derivatives. Thus, a 4,5-bis N-heterocyclic carbene (NHC)-tethered acridine silver(I) salt was synthesized, and its photophysical properties were investigated. The 4,5-bis[(N-isopropylimidazol-2-ylidene)methyl]acridine silver(I) hexafluorophosphate complex was obtained from the reaction between [4,5-bis{(N-isopropylimidazolium)methyl}acridine] hexafluorophosphate and Ag2O in very good yield; this molecule was characterized by elemental analysis and FTIR, multinuclear (1H and 13C) NMR, UV-Vis, and fluorescence spectroscopic techniques. The molecular structure has been confirmed by single-crystal X-ray diffraction analysis, which has revealed that the complex is a homoleptic mononuclear silver(I) cationic solid. The charge of the Ag(I)–NHC cation is balanced by the hexafluorophosphate anion. The cationic moieties are closely packed in the chair and inverted chair forms where silver(I) possesses a quasi-linear geometry. Moreover, the silver complex provided blue emission from all the three excitations with good fluorescence quantum yield. The fluorescence lifetime of the silver(I) complex has been determined using the time-correlated single photon counting technique. Interestingly, the fluorescence decay pattern and the fluorescence lifetimes of the silver complex are largely different from those of the parent ligand acridine imidazolium salt. Moreover, the theoretical predictions have been found to be in good agreement with the experimental results.

Published
2019

15. Hydroxyl Functionalised Perimidine-3-ium Salts

Author

Yadav, Prashant, Prabusankar, G, Yadav, Prashant, and Prabusankar, G

Abstract

During the recent times N-Heterocyclic carbenes (NHCs) have gained importance and now they constitute a new group of ligands that have become a part of the organometallic chemistry and metal catalysts. Presently, the recent research is focused on two aspects; firstly, discovering the uses of NHCs based ligands for catalyst, and secondly on the developing a novel NHC ligands. In view of these developments, we were interested in developing and synthesizing the new “expanded ring” carbenes, i.e. NHCs possessing more than 5 atoms in their heterocyclic ring systems unlike the NHCs that are a part of a 5-membered imidazolium-based moiety. The NHCs having either 6 or 7 atoms in heterocyclic ring still remain dormant and unexplored comparatively and their properties and reactivity is also not known, primarily because of the difficulties faced previously in synthesising the expanded ring carbene compounds. The free carbenes have been synthesized several times during the recent times and they have been found to be astonishingly stable. The NHCs having more than five atoms in the ring tend to show basic properties and they possess unique structural properties too. For example, consider, the angle formed by the two nitrogen atoms at the carbon atom present at the centre of larger ring NHCs are comparatively larger when compared with the usual five membered NHC’s, as a result of this large angle the substituents attached to the nitrogen atom are forced to come closer to the metal centre. Donor-functionalised NHCs have also found a significant part in metal complexes for catalysis and also in areas related to the organometallic chemistry. The aim of this thesis is to develop the novel 6-membered NHC based on perimidine. The perimidine based NHC that we developed is bi-dentate and it can use the oxygen atom which is in the close vicinity of the carbene, and can bind with the metal atom, thereby increasing the denticity of the ligand. The NHC’s counter ion was changed by simple ion

Published
2019

16. Anion Induced Emission Properties of Butane Bridged Perimidin-3-ium salts

Author

Siddhant, Kumar, Prabusankar, G, Siddhant, Kumar, and Prabusankar, G

Abstract

N-heterocyclic carbene (NHC) ligands have provided fertile avenues for the design of numerous effective and robust metal catalysts. Number of NHCs were synthesized and investigated in detail, covering a great variety of their structural and electronic properties through modification of the backbone ring size, incorporation of heteroatoms and the attachment of various functional groups. Notably the most popular NHC scaffolds remains with five-membered heterocyclic rings (imidazolinylidenes, dihydroimidazolinylidenes,etc.). Recently Richeson et al. reported that six-membered perimidine-based carbene ligands can increase steric congestion and electron-donating ability compared to five-membered carbene ligands. Thus the perimidine scaffold has been chosen for this purpose in the present study. For example, Mashima et al. demonstrate first Ir(III) complex encompassing permidine-carbene ligated phenylpyridine ligand in 2010. Another example of permidine-carbene system (Rh(III) complex of N,N’-bis(phoshinomethyl)-dihydroperimidines H2C(NCH2PR2)2C10H6 ) has been reported by Hill et al. in 2012. However, the synthesis and photophysical properties of anion induced emission properties of butane bridged perimidin-3-ium salts have never been investigated as of now. Therefore the thesis aim is to develop the various bis-N-isopropylperimidine based carbene ligands for photophysical applications. Another example of permidine-carbene system (Rh(III) complex of N,N’bis(phoshinomethyl)-dihydroperimidines H2C(NCH2PR2)2C10H6 ) has been reported by Hill et al. in 2012. Perimidine and their derivatives have recently attracted a greater attraction towards pharmacological screening.

Published
2019

17. Luminescent zinc(ii) selone macrocyclic ring

Author

Prabusankar, G, Raju, Gembali, Raavi, Sai Santosh Kumar, Biswas, Chinmoy et. al., Prabusankar, G, Raju, Gembali, Raavi, Sai Santosh Kumar, and Biswas, Chinmoy et. al.

Abstract

The synthesis and photophysical properties of macrocyclic Zn(II) selone molecule have been reported. The structural property of Zn(II) selone was elucidated using single crystal X-ray diffraction study. The solid-state structure of zinc(II) selone molecule exhibits a perfect zinc(II) selone 28 membered ring system with tetra coordination geometry around zinc(II) center. The zinc(II) selone ring system can be considered as the largest zinc(II) ring system known without any non-interacting centered guest moiety. Detailed trends in photophysical as well as thermal properties were probed. In photoluminescence study, the solid-state sample of zinc(II) selone ring system emits the bluish-yellow color with considerable quantum yields, while the solution state sample of zinc(II) selone ring system in DMSO emits bluish-yellow. The luminescence lifetime of zinc(II) selone was measured using standard time-correlated single photon counting (TCSPC) technique.

Published
2019

23. Facile access to imidazole and imidazolium substituted dibenzo-diazocines

Author

Sathyanarayana, Arruri, Prabusankar, G, Sathyanarayana, Arruri, and Prabusankar, G

Abstract

The C2-symmetrical 2,8- and 4,10-diimidazo-methano dibenzo-diazocines have been successfully synthesized and structurally characterized. The single crystal structures of 2,8- and 4,10-diimidazo-methano dibenzo-diazocines are the first structurally characterized heterocyclic ring systems attached to the methano dibenzo-diazocines. Notably, the 2,8- and 4,10-diimidazo-methano dibenzo-diazocines are isolated without any additional groups (on benzene rings) by the condensation of ortho or para imidazo-aniline with paraformaldehyde in trifluoroacetic acid. The diimidazo-methano dibenzo-diazocines have been fully characterized. Furthermore, these newly prepared nitrogen rich heterocyclic compounds have been subjected to selective alkyl or aralkylation reactions. The alkyl or aralkyl substituted products of diimidazo-methano dibenzo-diazocines have been fully characterized. Besides, the single crystal X-ray structures of methyl, isopropyl and 2-picolyl substituted derivatives of 4,10-diimidazo-methano dibenzo-diazocines have been reported for the first time.

Published
2014

24. Luminescent imidazolium carboxylate supported aggregate and infinite coordination networks of copper and zinc

Author

Suresh, P, Prabusankar, G, Suresh, P, and Prabusankar, G

Abstract

The new copper dimer [LCu(DMF)]2(NO3)4(H2O)(DMF)2 (4), where L = [{1,1′-(CH2)2-C14H8)-3,3′-(CH2CO2)2}{(HCN)2CH}], and porous coordination polymers [{L2Cu(OH2)2}2Br2]x (5) and [{L2Zn(OH2)2}2Br2]x (6) have been isolated from reactions of luminescent imidazolium carboxylate ligand, LH2Br2 (3) and the corresponding metal precursors. The reaction between Cu(NO3)2·3H2O and LH2Br2 (3) in DMF at 100 °C yielded bluish green crystals of tetracationic discrete copper dimer 4, the structure of which contains a rare tetracationic [(DMF)Cu(II)]2 dimer unit that is bridged by four carboxylates of two L in a “paddle-wheel” structure. When the reaction was carried out in the presence of a water–ethanol–methanol mixture, light green crystals of 5 were obtained. Molecule 5 comprises two-dimensional (2D) porous coordination polymeric sheets consisting of unique symmetrical dinuclear [(C(O)O)Cu(OH2)2(O(O)C)2]2 building blocks, which are connected by imidazolium anthracene spacers. The infinite 2D porous coordination polymeric sheets are further linked by significant intermolecular hydrogen-bonding interactions by bromide anions to form a three-dimensional supramolecular framework. Interestingly, the reaction between zinc dust and LH2Br2 (3) in H2O at room temperature gave similar structural features to those in 5, though they differ in terms of C–O bond distances and M–O–C angles. The solution-state UV-visible absorption spectra of 2–6 in water exhibits the comparable absorption pattern with decrease in the intensity of absorption from 5, 4, 3, 6 and 2, while the solid-state UV-visible absorption spectra of 2–6 are significantly different from the solution-state UV-visible absorption spectra. The considerable change in the fluorescent emission was observed upon complexation of 3 with corresponding metal precursors and the fluorescent emission was shifted towards the red region in the order of 2, 3, 6, 4 and 5 in water.

Published
2013

26. Synthesis, Spectral Studies, and Structural Characterization of a New Organosilanetriol, Its Amine Complexes, and a Surface Lewis Basic Cubic Aluminosilicate

Author

Prabusankar, G., Murugavel, R., and Butcher, R. J.

Abstract

The new trichlorosilane 2,6-Et2C6H3N(SiMe3)SiCl3 (2) on controlled hydrolysis yields 2,6-Et2C6H3N(SiMe3)Si(OH)3 (3). X-ray diffraction analysis of 3 reveals a rare structure type of aggregation where eight molecules of the silanetriol form an octameric cage through intermolecular O−H···O hydrogen bonding. Reaction of 3 with piperazine (PIP), 4,4‘-bipyridine (BPY), and 1,4-diazabicyclo[2,2,2]octane (DABCO) yields [{2,6-Et2C6H3N(SiMe3)Si(OH)3}·{PIP}] (4), [{2,6-Et2C6H3N(SiMe3)Si(OH)3}·{BPY}] (5), and [{2,6-Et2C6H3N(SiMe3)Si(OH)3}·{DABCO}] (6), respectively. Treatment of 6 with HAliBu2 affords the cubic aluminosiloxane [2,6-Et2C6H3N(SiMe3)SiO3Al(DABCO)]4·1,4-dioxane (7). The aluminum centers on the cubic core are coordinated by DABCO molecules in a monodentate fashion.

Published
2005

27. Hexameric Organotincarboxylates with Cyclic and Drum Structures

Author

Prabusankar, G. and Murugavel, R.

Abstract

The interaction of 3,5-diisopropylsalicylic acid (DIPSA) with [nBu2Sn(O)] in benzene proceeds with elimination of water to produce stannoxane [nBu2Sn(3,5-iPr2C6H2(O)(COO))]6 (1), while an analogous reaction of DIPSA with [nBuSn(O)(OH)] leads to the isolation of [nBuSn(O)(3,5-iPr2C6H2(OH)(COO))]6 (2). The new products have been characterized by elemental analysis and EI-MS, IR, and NMR (1H, 13C, and 119Sn) spectroscopy. The molecular structure of 1 determined by single-crystal X-ray diffraction studies reveals a rare cyclic hexameric structure. The tin atoms are pentacoordinated with distorted trigonal-bipyramidal geometry. Complex 2 is also a hexameric cluster, but existing in a more common drum-like structure where the tin centers are hexacoordinated.

Published
2004

28. Stabilization of Organosilanetriols in Amine Matrices:  Trapping Intermediates between RSi(OH)<INF>3</INF> and (RSiO<INF>3</INF>)<SUP>3</SUP><SUP>-</SUP> Anions

Author

Prabusankar, G., Murugavel, R., and Butcher, R. J.

Abstract

Unless kinetically stabilized, hydroxides of silicon are unstable and readily self-condense through elimination of water molecules to yield Si−O−Si siloxane linkages. The condensation reaction is known to be very facile in the presence of acids and bases. Stabilization of three hydroxyl groups on the same silicon in acidic or basic medium assumes importance, in view of their use in the rational synthesis of metallosilicates. In the present work, the first examples of a silanetriol stabilized in a matrix of aliphatic or aromatic diamines are described. The reactions of [2,6-Me2C6H3N(SiMe3)Si(OH)3] (1b) with equimolar amounts of piperazine (PIP), 1,4-diazabicyclo[2,2,2]octane (DABCO), and 4,4‘-bipyridine (BPY) yield [{2,6-Me2C6H3N(SiMe3)Si(OH)3}{PIP}] (2), [{2,6-Me2C6H3N(SiMe3)Si(OH)3}{DABCO}{1,4-dioxane}0.5] (3), and [{2,6-Me2C6H3N(SiMe3)Si(OH)3}{BPY}1.5] (4), respectively. These assemblies have been characterized by elemental analysis, IR and NMR (1H and 13C) spectroscopy, and single-crystal X-ray diffraction techniques. Apart from providing an insight into the association behavior of silicon polyhydroxides in basic medium, this study also offers clues for the stabilization of metastable orthosilicic acid, Si(OH)4, in an organic soluble medium.

Published
2004

29. Synthesis and Structure of a Novel Lithium Gallosiloxane Containing a Ga<INF>4</INF>Si<INF>4</INF>O<INF>8</INF> Macrocycle Analogous to the S8R Building Unit of Zeolites

Author

Murugavel, R., Walawalkar, M. G., Prabusankar, G., and Davis, P.

Abstract

The reaction of LiGaMe4 with diphenysilanediol in THF at 50 °C leads to the formation of the title gallosiloxane Li2(Li(THF)2)2[Ph2SiO2GaMe2]2[Ph2SiO2GaMe(OH)]2·2THF (1), which is made up of a central tetraanionic Ga4Si4O8 16-membered macrocyclic core. The cavity that is created by this tetraanionic gallosiloxane ring and also the presence of two Ga−OH groups pointing toward the center of the macrocyclic ring facilitate the entrapment of two lithium cations in the core through two Li−O(siloxide) and two Li−OH(Ga) linkages. The other two lithium ions are located at the periphery and are bound to the gallosiloxane ring through the Li−O(Si) linkages. Compound 1 represents the first organic-soluble molecular model compound for the S8R secondary building unit of several gallo- and aluminosilicates.

Published
2001

31. Organo Chalcogenone-Triggered Luminescent Copper(I) Clusters for Light Emitting Applications.

Author

Veerapathiran S, Muduli G, Rawat A, Siddhant K, Singh J, Matsumoto K, Tsutsumi O, and Prabusankar G

Abstract

A novel organo sulfur and selenium-controlled emission behavior in discrete copper(I) clusters has been demonstrated for the first time. The pentanuclear [Cu 5 Br 5 ( L 1 ) 2 ] ( 1 ), trinuclear [Cu 3 Br 3 ( L 2 ) 2 ] ( 2 ), dinuclear [Cu 2 I 2 ( L 1 ) 2 ] ( 3 ), and tetranuclear [Cu 4 I 4 ( L 2 ) 2 CH 3 CN] ( 4 ) copper(I) discrete clusters have been synthesized from the reaction between L 1 [ L 1 = 1-isopropyl-3-(pyridin-2-yl)-imidazol-2-thione] or L 2 [ L 2 = 1-isopropyl-3-(pyridin-2-yl)-imidazol-2-selone] chelating ligands and corresponding copper(I) halide salts. These new clusters have been characterized by FT-IR, UV-visible, thermogravimetric analysis, and fluorescence spectroscopy techniques. Single-crystal X-ray diffraction studies reveal that 1-4 consists of abundant d 10 -d 10 interactions. The structural and bonding features of clusters have been investigated using density functional theory calculations. Notably, the L 2 -ligated 2 and 4 are poorly emissive, while L 1 -ligated 1 and 3 showed strong emission in the orange and green regions, respectively. The time-dependent density functional theory natural transition orbital calculations of 1 and 3 reveal the nature of the transitions contributed by 3 MLCT/ 3 LLCT/ 3 ILCT. Photoluminescence quantum yields of 1 and 3 are 19 and 11%, with average lifetimes of 21.55 and 6.57 μs, respectively. 1 and 3 were coated on prototype LED bulbs for light-emitting performance.

Published
2024
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32. Omeprazole-Loaded Copper Nanoparticles for Mitochondrial Damage Mediated Synergistic Anticancer Activity against Melanoma Cells.

Author

Eswar K, Sankaranarayanan SA, Srivastava R, Harijan D, Prabusankar G, and Rengan AK

Subjects
Mice, Animals, Cell Survival drug effects, Cell Proliferation drug effects, Biocompatible Materials chemistry, Biocompatible Materials pharmacology, Biocompatible Materials chemical synthesis, Materials Testing, Reactive Oxygen Species metabolism, Humans, Apoptosis drug effects, Melanoma drug therapy, Melanoma pathology, Cell Line, Tumor, Copper chemistry, Copper pharmacology, Omeprazole chemistry, Omeprazole pharmacology, Antineoplastic Agents pharmacology, Antineoplastic Agents chemistry, Mitochondria drug effects, Mitochondria metabolism, Metal Nanoparticles chemistry, Drug Screening Assays, Antitumor, Particle Size
Abstract

Metallic nanoparticles are promising candidates for anticancer therapies. Among the different metallic systems studied, copper is an affordable and biologically available metal with a high redox potential. Copper-based nanoparticles are widely used in anticancer studies owing to their ability to react with intracellular glutathione (GSH) to induce a Fenton-like reaction. However, considering the high metastatic potential and versatility of the tumor microenvironment, modalities with a single therapeutic agent may not be effective. Hence, to enhance the efficiency of chemotherapeutic drugs, repurposing them or conjugating them with other modalities is essential. Omeprazole is an FDA-approved proton pump inhibitor used in clinics for the treatment of ulcers. Omeprazole has also been studied for its ability to sensitize cancer cells to chemotherapy and induce apoptosis. Herein, we report a nanosystem comprising of copper nanoparticles encapsulating omeprazole (CuOzL) against B16 melanoma cells. The developed nanoformulation exerted significant synergistic anticancer activity when compared with either copper nanoparticles or omeprazole alone by inducing cell death through excessive ROS generation and subsequent mitochondrial damage.

Published
2024
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33. Bis-Olefin Based Crystalline Schlenk Hydrocarbon Diradicals with a Triplet Ground State.

Author

Saha P, Chrysochos N, Elvers BJ, Pätsch S, Uddin SI, Krummenacher I, Nandeshwar M, Mishra A, Raman KV, Rajaraman G, Prabusankar G, Braunschweig H, Ravat P, Schulzke C, and Jana A

Abstract

A modular approach for the synthesis of isolable crystalline Schlenk hydrocarbon diradicals from m-phenylene bridged electron-rich bis-triazaalkenes as synthons is reported. EPR spectroscopy confirms their diradical nature and triplet electronic structure by revealing a half-field signal. A computational analysis confirms the triplet state to be the ground state. As a proof-of-principle for the modular methodology, the 4,6-dimethyl-m-phenylene was further utilized as a coupling unit between two alkene motifs. The steric conjunction of the 4,6-dimethyl groups substantially twists the substituents at the nonbonding electron bearing centers relative to the central coupling m-phenylene motif. As a result, the spin delocalization is decreased and the exchange coupling between the two unpaired spins, hence, significantly reduced. Notably, 108 years after Schlenk's m-phenylene-bis(diphenylmethyl) synthesis as a diradical, for the first time we were able to isolate its derivative with the same spacer, i.e. m-phenylene, between two radical centers in a crystalline form., (© 2023 Wiley-VCH GmbH.)

Published
2023
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34. Introducing an orthogonally polarized electron-rich alkene: synthesis of a zwitterionic boron-containing π-conjugated system.

Author

Chrysochos N, Pätsch S, Elvers BJ, Krummenacher I, Nandeshwar M, Prabusankar G, Braunschweig H, Schulzke C, Ravat P, and Jana A

Abstract

The synthesis of an alkene is reported which is concurrently twisted (twist angle = 86.6(8)°), push-pull (dipole moment = 7.48 D), and electron-rich ( E 1/2 = -1.45 V and -0.52 V vs. Fc/Fc + ) in nature, comprising a unique trinity combination for the alkene class of compounds. Subsequently, this newly synthesized alkene-motif was used as a donor for the synthesis of a zwitterionic boron-containing π-conjugated compound (dipole moment = 12.17 D) through an intramolecular charge transfer process exploiting the π-conjugated donor-acceptor system.

Published
2023
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35. Destabilizing Effect of Organo Ru(II) Salts on the Intermolecular Parallel CGG Repeat DNA Quadruplex Associated with Neurodegenerative/Neuromuscular Diseases.

Author

Sathyaseelan C, Veerapathiran S, Das U, Ravichandran G, Ajjugal Y, Singh J, Rengan AK, Rathinavelan T, and Prabusankar G

Subjects
Humans, DNA, Cymenes, Salts, Neuromuscular Diseases
Abstract

The cationic organo ruthenium(II) salts ([Ru( p -cymene)(ipit)(Cl)](Cl) ( RuS ), 1-isopropyl-3-(pyridin-2-yl)-imidazol-2-thione (ipit) and [Ru( p -cymene)(ipis)(Cl)](Cl) ( RuSe ), 1-isopropyl-3-(pyridin-2-yl)-imidazol-2-selenone (ipis)) are isolated, and their binding efficacy with d(CGG) 15 quadruplex is investigated. Circular dichroism (CD) wavelength scan titration experiments of RuS and RuSe compounds with the intermolecular parallel quadruplex formed by d(CGG) 15 (associated with neurodegenerative/neuromuscular/neuronal intranuclear inclusion disorders like FXTAS, OPMD, OPDM types 1-4, and OPML as well as FXPOI) and with the control d(CGG) 15 ·d(CCG) 15 duplex indicate their specificity toward the former. Electrophoretic mobility shift titration experiments also confirm the binding of the ligands with d(CGG) 15 . CD thermal denaturation experiments indicate that both RuS and RuSe destabilize the quadruplex, specifically at 10 mM concentration of the ligands. This is further confirmed by 1D 1 H NMR experiments. Such a destabilizing effect of these ligands on the d(CGG) 15 quadruplex indicates that RuS and RuSe chalcogen complexes can act as a template for the design of novel molecules for the diagnostics and/or therapeutics of CGG repeat expansion-associated diseases.

Published
2023
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36. A Simple and Fast Access to Phosphine-Substituted Copper(I)-Carbene Complexes via C=Se Bond Cleavage Reaction.

Author

Veerapathiran S and Prabusankar G

Abstract

Phosphine coordinated copper(I)-N-heterocyclic carbene complexes have emerged as an efficient material in catalysis and light-emitting applications. In this study, a gentle and sustainable approach to the copper(I)-carbene phosphine complexes is reported through an efficient C=Se activation protocol. The complexes [(Py^NHC)Cu(PPh 3 ) 2 ]X, X=BF 4 (1), ClO 4 (2), PF 6 (3) and OTf (4); Py^NHC=3-isopropyl-1-(pyridin-2-yl)-imidazol-2-ylidene, and [(Py^NHC)Cu(PPh 3 )(X)], X=Br (5) and I (6) have been synthesized by treating 1-isopropyl-3-(pyridin-2-yl)-imidazole-2-selone with corresponding copper(I) precursors and triphenylphosphine. In this synthetic strategy, N-heterocyclic carbene gets transferred from N-heterocyclic selone through a C=Se bond cleavage reaction to form copper(I) complexes within five minutes at room temperature. In addition, the mechanism responsible for the C=Se bond cleavage reaction has been fully investigated. These reactions are not sensitive to moisture and oxygen., (© 2023 Wiley-VCH GmbH.)

Published
2023
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37. A Sustainable Approach for Graphene Oxide-supported Metal N-Heterocyclic Carbenes Catalysts.

Author

Nandeshwar M, Mandal S, Kuppuswamy S, and Prabusankar G

Subjects
Catalysis, Metals, Graphite chemistry
Abstract

Sustainable noble metal-N-heterocyclic carbenes (NHC's) are a topic of arising concern in both the chemical industry and the academic community due to a growing consciousness of environmental pollution and scarcity. Recovering and reusing homogeneous catalysts from the reaction mixture requires a tremendous amount of capital investment in the chemical manufacturing industry. Heterogeneous catalysts are proved to have better functional groups tolerance; however, catalysts support largely influences the active catalyst sites to affect catalyst efficiency and selectivity. Thus the, choice of catalyst supports plays an almost decisive role in this emerging area of catalysis research. Graphene oxide (GO)/reduced graphene oxide (rGO) support has a potential growth in heterogeneous catalysis owing to their commercial availability, considerably larger surface area, inert towards chemical transformations, and easy surface functionalization to attached metal complexes via covalent and non-covalent aromatic π-conjugates. To take advantage of two independently well-established research areas of noble metal-N-heterocyclic carbenes and GO/rGO support via covalent or non-covalent interactions approach would offer novel heterogeneous complexes with improved catalytic efficiency without sacrificing product selectivity. This unique concept of marrying metal-N-heterocyclic carbenes with GO/rGO support has potential growth in the chemical and pharmaceutical industry, however, limited examples are reported in the literature. In this perspective, a comprehensive summary of metal-NHC synthesis on GO/rGO support and synthetic strategies to graft M-NHC onto GO/rGO surface, catalytic efficiency, for the catalytic transformation are critically reviewed. Furthermore, a plausible mechanism for non-covalent grafting methodology is summarized to direct readers to give a better understanding of M-NHC@rGO complexes. This would also allow the designing of engineered catalysts for unexplored catalytic applications., (© 2022 Wiley-VCH GmbH.)

Published
2023
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38. In Vitro Interaction of a C-Terminal Fragment of TDP-43 Protein with Human Serum Albumin Modulates Its Aggregation.

Author

Nirwal S, Saravanan P, Bajpai A, Meshram VD, Raju G, Deeksha W, Prabusankar G, and Patel BK

Subjects
Humans, Microscopy, Atomic Force, Protein Aggregation, Pathological, Serum Albumin, Human, Amyotrophic Lateral Sclerosis metabolism
Abstract

An increased level of naturally occurring anti-TDP-43 antibodies was observed in the serum and cerebrospinal fluid (CSF) of amyotrophic lateral sclerosis patients. Human serum albumin (HSA), the most abundant protein in blood plasma and CSF, is found to interact with pathological proteins like Aβ and α-synuclein. Therefore, we examined the effect on the in vitro aggregation of a C-terminal fragment of TDP-43 in the presence of HSA. We found that the lag phase in TDP-43 2C aggregation is abrogated in the presence of HSA, but there is an overall decreased aggregation as examined by thioflavin-T fluorescence spectroscopy and microscopy. An early onset of TDP-43 2C oligomer formation in the presence of HSA was observed using atomic force microscopy and transmission electron microscopy. Also, a known chemical inhibitor of TDP-43 2C aggregation, AIM4, abolishes the HSA-induced early formation of TDP-43 2C oligomers. Notably, the aggregates of TDP-43 2C formed in the presence of HSA are more stable against sarkosyl detergent. Using affinity copurification, we observed that HSA can bind to TDP-43 2C , and biolayer interferometry further supported their physical interaction and suggested the binding affinity to be in sub-micromolar range. Taken together, the data support that HSA can interact with TDP-43 2C in vitro and affect its aggregation.

Published
2022
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39. Highly Active Cyclic Zinc(II) Thione Catalyst for C-C and C-N Bond Formation Reactions.

Author

Mannarsamy M, Nandeshwar M, Muduli G, and Prabusankar G

Subjects
Catalysis, Spectroscopy, Fourier Transform Infrared, Thiones, Zinc chemistry
Abstract

The first discrete seven-membered cyclic zinc(II) complex catalyzed room temperature Knoevenagel condensation reactions, and the synthesis of perimidine derivatives has been reported under mild reaction conditions. The cyclic zinc(II) complex [(L)ZnBr 2 ] (1) was isolated from the reaction between 1-(2-hydroxyethyl)-3-isopropyl-benzimidazol-2-thione (L) and ZnBr 2 . Complex 1 was characterized by different analytic techniques such as FT-IR, CHNS, TGA, NMR, and SCXRD. The mononuclear zinc(II) complex 1 was utilized as a catalyst for Knoevenagel condensation reactions to isolate twenty different substituted methylene malononitriles with excellent yield. Besides, the zinc(II) thione complex 1 was utilized for the synthesis of 2,4-dihydroperimidine derivatives in a highly efficient manner. Catalyst 1 depicted wide substrate scopes. Overall, twenty different substituted methylene malononitriles and nine different perimidine derivatives were synthesized using catalyst 1 at room temperature. The present investigation features a mild and fast synthetic approach along with excellent functional group tolerance., (© 2022 Wiley-VCH GmbH.)

Published
2022
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40. Mechanically tunable photo-cross-linkable bioinks for osteogenic differentiation of MSCs in 3D bioprinted constructs.

Author

Kamaraj M, Sreevani G, Prabusankar G, and Rath SN

Subjects
Cell Differentiation, Humans, Hydrogels, Printing, Three-Dimensional, Tissue Engineering, Tissue Scaffolds, Bioprinting, Osteogenesis
Abstract

3D bioprinting technique renders a plausible solution to tissue engineering applications, mainly bone tissue regeneration, which could provide the microenvironment with desired physical, chemical, and mechanical properties. However, the mechanical and structural stability of current natural polymers is a critical issue in the fabrication of bone tissue-engineered scaffolds. To overcome these issues, we have developed 3D bioprintable semi-synthetic polymers derived from natural (sodium alginate, A) and synthetic (polyethylene glycol, PEG) biopolymers. In order to enhance the cross-linking properties and biocompatibility, we have functionalized these polymers with acrylate and methacrylate chemical moieties. These selected combination of natural and synthetic polymers improved the mechanical strength due to the synergistic effect of covalent as well as ionic bond formation in the hydrogel system, which is evident from the tested tensile data. Further, the feasibility of 3D bioprinting of acrylate and methacrylate functionalized PEG and hydrogels have been tested for the biocompatibility of the fabricated structures with human umbilical cord mesenchymal stem cells (UMSCs). Further, these bioprinted scaffolds were investigated for osteogenic differentiation of UMSCs in two types of culture conditions: namely, i) with osteoinduction media (with OIM), ii) without osteoinduction media (w/o OIM). We have examined the osteoinductivity of scaffolds with the activity of alkaline phosphatase (ALP) content, and significant changes in the ALP activity was observed with the stiffness of developed materials. The extent osteogenic differentiation was observed by alizarin red staining and reverse transcription PCR analysis. Elevated levels of ALP, RUNX2 and COL1 gene expression has been observed in without OIM samples on week 1 and week 3. Further, our study showed that the synthesized alginate methacrylate (AMA) without osteoinduction supplement with young's modulus of 0.34 MPa has a significant difference in ALP quantity and gene expression over the other reported literature. Thus, this work plays a pivotal role in the development of 3D bioprintable and photo-cross-linkable hydrogels in osteogenic differentiation of mesenchymal stem cells., (Copyright © 2021 Elsevier B.V. All rights reserved.)

Published
2021
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41. A gold(I) 1,2,3-triazolylidene complex featuring the interaction between gold and methine hydrogen.

Author

Narayana MA, Vaddamanu M, Sathyanarayana A, Siddhant K, Sugiyama S, Ozaki K, Rengan AK, Velappan K, Hisano K, Tsutsumi O, and Prabusankar G

Abstract

A mesoionic N-heterocyclic carbene-gold(I) complex with a unique Au⋯H-C(methine) intramolecular hydrogen bonding interaction has been investigated in the solid state. The structure of this new neutral gold(I)-carbene was characterized by FT-IR and NMR spectroscopy, TGA, and X-ray diffraction techniques. Density functional theory (DFT) and atoms-in-molecule (AIM) analysis revealed that the gold-hydrogen bonding situation is more favored. Besides, the photophysical properties of the gold(I) complex were also investigated.

Published
2021
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42. Antimony(III) Halide-Assisted Stereospecific Coordination of Thione.

Author

Adinarayana M and Prabusankar G

Abstract

The antimony halide-aided stereospecific coordination of a cyclic thiourea-type of ligand is observed for the first time. The antimony(III) imidazole thione complexes syn-[(L 1 )SbCl 3 ] (syn-1) and anti-[(L 1 )SbBr 3 ] (anti-2) have been synthesized in very good yield by the reaction between the spatially defined steric impact ligand [(IPaul)S] (L 1 ) ([(IPaul)S]=1,3-bis(2,4-methyl-6-diphenyl phenyl)imidazole thione) and corresponding antimony halide. The stereoselective formation of complexes syn-1 and anti-2 has been confirmed by both NMR and single-crystal X-ray diffraction studies. Interestingly the stereospecific nature of syn-1 and anti-2 remains intact in solution. Furthermore, the thermal stability of antimony(III) imidazole thione complexes were examined by TGA analysis., (© 2021 Wiley-VCH GmbH.)

Published
2021
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43. Acridine N-Heterocyclic Carbene Gold(I) Compounds: Tuning from Yellow to Blue Luminescence.

Author

Vaddamanu M, Sathyanarayana A, Masaya Y, Sugiyama S, Kazuhisa O, Velappan K, Nandeshwar M, Hisano K, Tsutsumi O, and Prabusankar G

Abstract

The synthesis and the luminescence features of three gold(I)-N-heterocyclic carbene (NHC) complexes are presented to study how the n-alkyl group can influence the luminescence properties in the crystalline state. The mononuclear gold(I)-NHC complexes, [(L 1 )Au(Cl)] (1), [(L 2 )Au(Cl)] (2), and [(L 3 )Au(Cl)] (3) were isolated from the reactions between [(tht)AuCl] and corresponding NHC ligand precursors, [N-(9-acridinyl)-N'-(n-butyl)-imidazolium chloride, (L 1 .HCl)], [N-(9-acridinyl)-N'-(n-pentyl)-imidazolium chloride, (L 2 .HCl)] and [N-(9-acridinyl)-N'-(n-hexyl)-imidazolium chloride, (L 3 .HCl)]. Their single-crystal X-ray analysis reveals the influence of the n-alkyl groups on solid-state packing. A comparison of the luminescence features of 1-3 with n-alkyl substituents is explored. The molecules 1-3 depicted blue emission in the solution state, while the yellow emission (for 1), greenish-yellow emission (for 2), and blue emission (for 3) in the crystalline phase. This paradigm emission shift arises from n-butyl to n-pentyl and n-hexyl in the crystalline state due to the carbon-carbon rotation of the n-alkyl group, which tends to promote unusual solid packing. Hence n-alkyl group adds a novel emission property in the crystalline state. Density Functional Theory and Time-Dependent Density Functional Theory calculations were carried out for monomeric complex, N-(9-acridinyl)-N'-(n-heptyl)imidazole-2-ylidene gold(I) chloride and dimeric complex, N-(9-acridinyl)-N'-(n-heptyl)imidazole-2-ylidene gold(I) chloride to understand the structural and electronic properties., (© 2021 Wiley-VCH GmbH.)

Published
2021
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44. Rare antimony(III) imidazole selone complexes: steric controlled structural and bonding aspects.

Author

Nandeshwar M, Adinarayana M, Srinivas K, Velappan K, and Prabusankar G

Abstract

Novel antimony(iii) imidazole selone complexes in a super crowded environment are reported for the first time. The super bulky selone antimony complexes, [{IPr*Se}(SbCl3)2] (1) and [{IPr*Se}(SbBr3)2] (2), were isolated from the reactions between IPr*Se (IPr*Se = [1,3-bis(2,6-diphenylmethylphenyl)imidazole selone]) and suitable antimony(iii) halides. 1 and 2 are dinuclear complexes with a Sb : Se ratio of 1 : 0.5 with an unusual coordination mode of selone. The molecules 1 and 2 consist of both Menshutkin-type Sbπaryl interactions and a Sb-Se coordination bond. However, the reaction between antimony(iii) halides and [(IPaul)Se] ([(IPaul)Se] = [1,3-bis(2,4-methyl-6-diphenyl phenyl)imidazole selone]) with a spatially defined steric impact gave the dinuclear complex [{(IPaul)Se}(SbCl3)]2 (3) and the mononuclear complex [{(IPaul)Se}(SbBr3)] (4) without Menshutkin-type interactions. The Sb : Se ratio in 3 and 4 is 1 : 1. Interestingly, the Menshutkin-type interaction was absent in 3 and 4 due to the efficient coordinating ability of the ligand [(IPaul)Se] with the Sb(iii) center compared to that of the super bulky ligand IPr*Se. The thermal property of these antimony selone complexes was also investigated. Density functional theory (DFT) calculations were carried out on the model systems [L(SbCl3)2] (1A), [L(SbCl3)] (1B), [L'(SbCl3)2] (1C), and [L'(SbCl3)] (1D), where L = [1,3-bis(2,6-diisopropyl-4-methyl phenyl)imidazole selone] and L' = [1,3-bis(phenyl)imidazole selone], to understand the nature of orbitals and bonding situations. The computed metrical parameters of 1A are in good agreement with the experimental values. Natural population analysis of the model system reveals that the natural charge and total population of antimony(iii) are comparable. The unequal interaction between selenium and antimony obtained using Wiberg bond indices (WBIs) is fully consistent with the findings of the single-crystal X-ray studies.

Published
2020
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45. Catalytically active coordination polymer with a tiny Zn 2 Se 2 ring bridged by bis-selone.

Author

Maruthupandi M and Prabusankar G

Abstract

The unprecedented architecture of a one-dimensional coordination polymer with a tiny Zn 2 Se 2 ring system incorporated in the hydrogen-bonded array has been prepared, where the di-selone ligand functions as a unique neutral bridging ligand. The coordination polymer shows excellent catalytic activity in substituted 8-hydroxy-2-quinolinyl synthesis through Knoevenagel condensation reaction., Competing Interests: There are no conflicts to declare., (This journal is © The Royal Society of Chemistry.)

Published
2020
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46. Computational insights into mechanism of AIM4-mediated inhibition of aggregation of TDP-43 protein implicated in ALS and evidence for in vitro inhibition of liquid-liquid phase separation (LLPS) of TDP-43 2C -A315T by AIM4.

Author

Girdhar A, Bharathi V, Tiwari VR, Abhishek S, Deeksha W, Mahawar US, Raju G, Singh SK, Prabusankar G, Rajakumara E, and Patel BK

Subjects
Humans, Ligands, Molecular Docking Simulation, Mutant Proteins chemistry, Protein Conformation, Protein Stability, Thermodynamics, Acridines chemistry, Amyotrophic Lateral Sclerosis metabolism, Computer Simulation, DNA-Binding Proteins chemistry, Protein Aggregates
Abstract

TDP-43 is an RNA/DNA-binding protein which is also implicated in the pathogenesis of amyotrophic lateral sclerosis (ALS) disease. TDP-43's cytoplasmic mis-localization, liquid-liquid phase separation (LLPS) due to RNA depletion and aggregation, are proposedly important TDP-43-toxicity causing mechanisms. So far, therapeutic options for ALS are extremely ineffective hence, multi-faceted approaches such as targeting the oxidative stress and inhibiting the TDP-43's aggregation, are being actively pursued. Recently, we have identified an acridine derivative, AIM4, as an anti-TDP-43 aggregation molecule however, its mechanism is not deciphered. Here, we have utilized computational tools to examine binding site(s) of AIM4 in the TDP-43 structure and compared with other relevant compounds. We find that AIM4 has a binding site in the C-terminal amyloidogenic region (aa: 288-319), with Gly-288 & Phe-289 residues which are also important for TDP-43's LLPS. Importantly, alike to previously reported effects of RNA, AIM4 could also inhibit the in vitro LLPS of a C-terminal fragment TDP-43 2C bearing an A315T familial mutation. Furthermore, isothermal titration calorimetry (ITC) data also support the binding of AIM4 to TDP-43 2C -A315T. This antagonism of AIM4 towards TDP-43's LLPS and presence of binding site of AIM4 on TDP-43 support AIM4's potential to be an important molecule towards ALS therapeutic research., Competing Interests: Declaration of competing interest Authors declare no competing interests., (Copyright © 2020 Elsevier B.V. All rights reserved.)

Published
2020
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47. Luminescent zinc(ii) selone macrocyclic ring.

Author

Prabusankar G, Raju G, Vaddamanu M, Muthukumaran N, Sathyanarayana A, Nakamura SY, Masaya Y, Hisano K, Tsutsumi O, Biswas C, and Kumar Raavi SS

Abstract

The synthesis and photophysical properties of macrocyclic Zn(ii) selone molecule have been reported. The structural property of Zn(ii) selone was elucidated using single crystal X-ray diffraction study. The solid-state structure of zinc(ii) selone molecule exhibits a perfect zinc(ii) selone 28 membered ring system with tetra coordination geometry around zinc(ii) center. The zinc(ii) selone ring system can be considered as the largest zinc(ii) ring system known without any non-interacting centered guest moiety. Detailed trends in photophysical as well as thermal properties were probed. In photoluminescence study, the solid-state sample of zinc(ii) selone ring system emits the bluish-yellow color with considerable quantum yields, while the solution state sample of zinc(ii) selone ring system in DMSO emits bluish-yellow. The luminescence lifetime of zinc(ii) selone was measured using standard time-correlated single photon counting (TCSPC) technique., Competing Interests: There are no conflicts to declare., (This journal is © The Royal Society of Chemistry.)

Published
2019
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48. Blue-emitting acridine-tagged silver(i)-bis-N-heterocyclic carbene.

Author

Prabusankar G, Muthukumaran N, Vaddamanu M, Raju G, Velappan K, Sathyanarayana A, Masaya Y, Sugiyama S, Hisano K, and Tsutsumi O

Abstract

Herein, the photophysical properties of an acridine derivative of a bis-N-heterocyclic carbene silver complex were investigated. The HOMO and LUMO energy differences between 9-[( N -methyl imidazol-2-ylidene)]acridine and 4,5-bis[( N -methyl-imidazol-2-ylidene)methyl]acridine were theoretically compared. Based on the calculation, the 4,5-bis N-heterocyclic carbene-tethered acridine type of ligand was found to be a potential source for tuning the fluorescent nature of the resultant metal derivatives. Thus, a 4,5-bis N-heterocyclic carbene (NHC)-tethered acridine silver(i) salt was synthesized, and its photophysical properties were investigated. The 4,5-bis[( N -isopropylimidazol-2-ylidene)methyl]acridine silver(i) hexafluorophosphate complex was obtained from the reaction between [4,5-bis{( N -isopropylimidazolium)methyl}acridine] hexafluorophosphate and Ag 2 O in very good yield; this molecule was characterized by elemental analysis and FTIR, multinuclear ( 1 H and 13 C) NMR, UV-Vis, and fluorescence spectroscopic techniques. The molecular structure has been confirmed by single-crystal X-ray diffraction analysis, which has revealed that the complex is a homoleptic mononuclear silver(i) cationic solid. The charge of the Ag(i)-NHC cation is balanced by the hexafluorophosphate anion. The cationic moieties are closely packed in the chair and inverted chair forms where silver(i) possesses a quasi-linear geometry. Moreover, the silver complex provided blue emission from all the three excitations with good fluorescence quantum yield. The fluorescence lifetime of the silver(i) complex has been determined using the time-correlated single photon counting technique. Interestingly, the fluorescence decay pattern and the fluorescence lifetimes of the silver complex are largely different from those of the parent ligand acridine imidazolium salt. Moreover, the theoretical predictions have been found to be in good agreement with the experimental results., Competing Interests: There are no conflicts to declare., (This journal is © The Royal Society of Chemistry.)

Published
2019
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49. Role of C, S, Se and P donor ligands in copper(i) mediated C-N and C-Si bond formation reactions.

Author

Srinivas K and Prabusankar G

Abstract

The first comparative study of C, S, Se and P donor ligands-supported copper(i) complexes for C-N and C-Si bond formation reactions are described. The syntheses and characterization of eight mononuclear copper(i) chalcogenone complexes, two polynuclear copper(i) chalcogenone complexes and one tetranuclear copper(i) phosphine complex are reported. All these new complexes were characterized by CHN analysis, FT-IR, UV-vis, multinuclear NMR and single crystal X-ray diffraction techniques. The single crystal X-ray structures of these complexes depict the existence of a wide range of coordination environments for the copper(i) center. This is the first comparative study of metal-phosphine, metal-NHC and metal-imidazolin-2-chalcogenones in C-N and C-Si bond formation reactions. Among all the catalysts, mononuclear copper(i) thione, mononuclear copper(i) N-heterocyclic carbene and tetranuclear copper(i) phosphine are exceedingly active towards the synthesis of 1,2,3-triazoles as well as for the cross-dehydrogenative coupling of alkynes with silanes. The cross-dehydrogenative coupling of terminal alkynes with silanes represents the first report of a catalytic process mediated by metal-imidazolin-2-chalcogenones., Competing Interests: There are no conflicts to declare., (This journal is © The Royal Society of Chemistry.)

Published
2018
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50. An acridine derivative, [4,5-bis{(N-carboxy methyl imidazolium)methyl}acridine] dibromide, shows anti-TDP-43 aggregation effect in ALS disease models.

Author

Prasad A, Raju G, Sivalingam V, Girdhar A, Verma M, Vats A, Taneja V, Prabusankar G, and Patel BK

Subjects
Amyloid chemistry, Amyotrophic Lateral Sclerosis genetics, Circular Dichroism, Drug Evaluation, Preclinical, Escherichia coli, Humans, Microscopy, Atomic Force, Microscopy, Fluorescence, Motor Neurons pathology, Muscular Atrophy pathology, Mutation, Neurons metabolism, Prions chemistry, Protein Domains, Protein Structure, Secondary, Recombinant Proteins chemistry, Saccharomyces cerevisiae metabolism, Ultraviolet Rays, Acridines chemistry, Amyotrophic Lateral Sclerosis drug therapy, Bromides chemistry, DNA-Binding Proteins chemistry, Imidazoles chemistry, Saccharomyces cerevisiae drug effects
Abstract

Amyotrophic lateral sclerosis (ALS) is a fatal neurodegenerative disease associated with aggregation of TAR DNA-binding protein-43 (TDP-43) in neuronal cells and manifests as motor neuron dysfunction &muscle atrophy. The carboxyl-terminal prion-like domain of TDP-43 can aggregate in vitro into toxic β-sheet rich amyloid-like structures. So far, treatment options for ALS are very limited and Riluzole, which targets glutamate receptors, is the only but highly ineffective drug. Therefore, great interest exists in developing molecules for ALS treatment. Here, we have examined certain derivatives of acridine containing same side chains at position 4 &5, for inhibitory potential against TDP-43 aggregation. Among several acridine derivatives examined, AIM4, which contains polar carboxyl groups in the side arms, significantly reduces TDP-43-YFP aggregation in the powerful yeast model cell and also abolishes in vitro amyloid-like aggregation of carboxyl terminal domain of TDP-43, as observed by AFM imaging. Thus, AIM4 can be a lead molecule potentiating further therapeutic research for ALS.

Published
2016
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