Chemistry of the Putative Metabolite of a Model Anti-tumor Drug

Chakraborty, Mrinal

07 August 2012

No description available.

Chemistry

Benzothiazole

Anti-tumor drug

Nitrenium ion

Oxenium ion

ns-LFP

Azide adduct

Bromide adduct

Quinols

Development of selective DprE1 inhibitors: Design, synthesis, crystal structure and antitubercular activity of benzothiazolylpyrimidine-5-carboxamides

Chikhale, R., Menghani, S., Babu, R., Bansode, Ratnadeep V., Bhargavi, G., Karodia, Nazira, Rajasekharan, M.V., Paradkar, Anant R, Khedekar, Pramod

26 May 2015

No / Decaprenylphosphoryl-b-d-ribose 20-epimerase (DprE1) is a potential drug target for development of antitubercular agents. Structure based drug discovery approach yielded twenty novel derivatives of benzothiazolylpyrimidine-5-carboxamides (7a–t) which were synthesised by three component one pot reaction involving benzothiazolyl oxobutanamide, thiourea and substituted aromatic benzaldehydes. These derivatives were evaluated for antitubercular activity to determine MIC and compound 7a, 7e, 7f and 7o were found to be potentially active against Mycobacterium tuberculosis (H37Rv). Log P of these compounds was found to be between 2.0 and 3.0 making them suitable for oral dosing. DprE1 selectivity and pharmacokinetic studies were carried out for these compounds of which 7a and 7o were found to be highly selective and bioavailability was found to be above 52% by oral dose. Crystal structure of 7a was studied and molecular packing was determined, it exhibited a triclinic crystal lattice arrangement having hydrogen bonded dimeric arrangement. Drug receptor interactions were studied which exhibited docking in the active site of receptor with hydrogen bonding, hydrophobic interactions, vdW interactions with amino acid residues such as Cys387, Asn385, Lys418, Tyr314, Gln334 and Lys367 respectively. 3D QSAR analysis was carried out by kNN-MFA method to determine and develop theoretical model, best suitable model was found to be based on Simulated Annealing k-Neariest Neighbour Molecular Field Analysis (SA kNN-MFA). The model provided with hydrophobic descriptors in positive side indicating the need of bulky groups, steric and electronegative descriptors in negative coordinates hints with contribution by the electronegative substitutions as favourable and desirable moieties for enhancing the activity. The q2, q2_se and Pred_r2se were found to be 0.5000, 0.6404 and 1.0094 respectively. A pharmacophore model was generated which suggested for necessity of aromatic, aliphatic carbon centre and hydrogen bond donor for development of newer DprE1 selective inhibitors. / Council of Scientific and Industrial Research

DprE1 inhibitors

Crystal structure

Molecular docking

3D-QSAR

Pharmacphore modelling

Antitubercular activity

Benzothiazole

Synthesis and Anticancer Evaluation of Novel Pyrazolo[1,5-a]pyrimidines: Discovery of a Novel Lead Compound with Selective Activities Against VPS34 and JAK1-JH2 Pseudokinase

Dass, Reuben

10 August 2022

A library of 25 novel 3,6-disubstituted and 3-substituted pyrazolo[1,5-a]pyrimidines were synthesized using a microwave chemical reactor in 3 steps with a total reaction time of 1 hour. The products were obtained in good to excellent yields (20-93%, ave. = 62%). The synthesis began with the reaction of aryl acetonitriles with dimethylformamide-dimethylacetal (120C, 20 min), followed by treatment of the resulting 2-arylacrylonitrile with H2NNH2 • HBr (120C, 20 min). The intermediate 4-arylpyrazol-5-amine obtained was finally reacted with either 2-aryl-substituted malondialdehydes or 1,1,3,3-tetramethoxypropane (120C, 20 min) to give the final products. The products were either collected directly on a Buchner funnel or purified via flash chromatography. The compounds were screened for anti-cancer activity against the A2780 Ovarian cancer cell line in vitro at 10 µM. The most active compound was the 2-(pyrazolo[1,5-a]pyrimidin-3-yl)benzothiazole, herein referred to as RD-I-53, which had an EC50 value of 0.9 µM nearly mirroring the experimental control, Dorsomorphin, which had an EC50 of 1.1 µM. RD-I-53 was screened against a panel of 453 kinases by DiscoverX in a KinomeScan™, a competitive binding inhibition assay wherein RD-I-53 selectively inhibited VPS34 kinase and JAK1-JH2 pseudokinase (Kd VPS34 = 0.4µM, Kd JAK-1 JH2 = 0.5µM). NCI-60 data revealed selective anticancer activity of RD-I-53 against the MCF-7 and MDA-MB-468 breast cancer cell lines. Virtual docking studies of RD-I-53 against the VPS34 active site and its derivatives resulted in the creation of a virtual library of new compounds with potentially improved anticancer activity. A highly convergent route was developed to facilitate the ease of access to derivatives of RD-I-53. In the process, new methodologies for the synthesis of 2-aminobenzothiazoles and the thiocyanation of non-C4-substituted anilines and heterocycles were investigated and reported. A library of derivatives of RD-I-53 has been synthesized to be screened for potentially improved kinase inhibitory and anti-cancer activity.

Microwave

Dorsomorphin

2-(pyrazolo[1

5-a]pyrimidin-3-yl)benzothiazole

anticancer

kinase inhibition

selectivity

Physical Sciences and Mathematics

Développement de nouveaux inhibiteurs d'uréases et de la nitrification à des fins phytosanitaires

Pro, Danièle

04 November 2011

L'urée, apportée dans les engrais, fournit aux plantes l'azote nécessaire à leur croissance. Dans le sol, elle est convertie en ammoniac par les uréases, puis, via le procédé de nitrification, est oxydée en nitrites, puis en nitrates, éléments essentiels pour la nutrition des plantes. Mais, cet apport artificiel conduit à de nombreux déséquilibres écologiques dus à d'importants rejets d'azote au niveau atmosphérique et aquatique. C'est pourquoi les inhibiteurs d'uréases et de la nitrification, qui régulent la présence des différentes formes de l'azote dans le sol, sont d'un intérêt majeur en agriculture. Dans le cadre du projet AZOSTIMER, nous avons voulu améliorer l'efficacité du MBT, inhibiteur de la nitrification, et du NBPT, inhibiteur d'uréases. Nous avons tout d'abord souhaité améliorer l'hydrosolubilité, et ainsi la biodisponibilité du MBT et d'un homologue, le MBI, par mise à profit du concept de prodrogue. Ces molécules ont été conjuguées à des sucres par synthèse glycosidique et une famille d'inhibiteurs glycosylés a été préparée. Par la suite, les propriétés physico-chimiques (solubilité, stabilité), biologiques (écotoxicité, activité) et le comportement dans les sols (dégradabilité, mobilité) ont été évalués. Dans un second temps, nous avons voulu prolonger l'activité du NBPT dans les sols acides en limitant sa dégradation, soit par encapsulation dans une formulation, soit par modulations chimiques. De nombreuses formulations du NBPT ont été développées puis évaluées (stabilité en milieu acide, activité dans les sols). Des phosphoramides ont été synthétisés et évalués afin de mettre en évidence des relations structure-stabilité chimique et structure-activité.

[CHIM:ORGA] Chimie/Chimie organique

Inhibiteurs de la nitrification

2-mercapto-benzothiazole (MBT)

2-mercapto-benzimidazole (MBI)

Glycosylation

Inhibiteurs d'uréases

n-butyl-phosphotriamide (NBPT)

stabilisation

phosphoramide

2,2-Dithiobis(benzothiazole) complexes (Cd and Ni): Precursors to nanoparticles and electrochemical properties and interactions with Rhodamine B

Mabaso, Busisiwe Dagracia

13 October 2021

M. Tech. (Department of Chemistry, Faculty of Applied and Computer Sciences), Vaal University of Technology. / The ligand 2, 2-dithiobisbenzothiazole and it metal complexes have been a subject of interest in various fields but they have found to exhibit remarkable and prevalent biological and pharmacological activities. The ligand tends to coordinate to complexes through the sulfur atom and hence the metal-sulphide bond are good precursor to generate metal sulfide nanoparticles using single-source precursor route. The complexes are generally prepared by reflux for 1 to 2 hours depending on the solvent used to produce very stable solid products and some form in crystalline form. All the prepared nickel and cadmium complexes were characterized using techniques such as elemental analyzer, IR, 13C NMR spectroscopy and thermogravimatric analysis. The data obtained from the spectroscopic analysis was consistent of the coordination of the ligand with the metal ions through the sulphur atoms of the 2,2-dithiobisbenzothiazole moiety. The thermal analysis of the prepared complexes gave a final residue of metal sulphide for both metal complexes. Characterization techniques showed the formation of bidentate complexes for both nickel complex and cadmium complex. The prepared complexes were then used to synthesize metal sulphide nanoparticles .The nanoparticles were prepared by thermal decomposition method of the single source precursor in a solution of oleylamine (OLA). Two different parameters were investigated temperature and time to study their effect on the size and shape of the nanoparticles. The synthesized nanoparticles were characterized using techniques such as UV-Vis spectroscopy, photoluminescence spectroscopy, and X-ray diffraction analysis and transmission electron microscopy. The temperatures of the reaction have a significant effect on the rate of the reaction that will affect the size and shape of the nanoparticles. This effect was confirmed by the optical properties of the synthesized nanoparticles prepared at different reaction temperatures. The spectra shows that absorption maximum and band edge shift to lower wavelength as the temperature of reaction was progressively increased. This trend is associated to the decrease in particles size of the prepared nanoparticles. TEM images further confirmed that the particles size of the prepared nanoparticles was progressively decreased as the temperature was increased. The time of the reaction is one of the most significant factors in the synthesis of the nanoparticles. The investigation of the time of the reaction yield results that depicted that with increase in time of the reaction, the band edge increases, but relatively at short wavelength to the bulk. Hence, the band edges of the nanoparticles were blue shifted significantly to the bulk. The results show that with an increase in the time of the reaction, the nanoparticles increases in their size due to Ostwald ripening. The optimum complexes and optimum nanoparticles were used to further study their electrochemical properties using cyclic voltammetry and electrochemical impedance spectroscopy (EIS) graphs were fitted using the randles circuit and they confirm that the NiS nanoparticles GCE greatly increase the electron transfer rate, probably due to the nanostructured surface property of the NiS nanoparticles. Differential pulse voltammetry (DPV) was used to study the electrochemical behavior and the DPV showed that the current response of Rhb was higher for the optimum temperature NiS nanoparticles compared to all the materials used. There was an increase in the Rhb current response with an increase in pH and pH 7 was used as the optimum pH when Ni- complex was used as a modifier and pH 8 was used as optimum when NiS nanoparticles were used as a modifier. Effect of concentration showed that the NiS nanoparticles for the optimum temperature had a wide linear range and a low detection limit. The method has good accuracy, acceptable precision, and reproducibility. This method provides a novel electrochemical method for determination of RhB.

Rhodamine B

2,2-Dithiobis (benzothiazole)

Nanoparticles

Electrochemical properties

Elemental analyzer

Ligand

Ostwald ripening

Electrochemical properties

Biochemistry

Dissertations, Academic -- South Africa

Nanoparticles

Biochemistry

Development of Tau-Selective Imaging Agents for Improved Diagnosis of Alzheimer’s Disease and Other Tauopathies

Jensen, Jordan Royce

25 July 2011

No description available.

Biomedical Research

tau

amyloid beta

alpha-synuclein

alzheimer's disease

polarizability

dispersion

selectivity

PET

radioligand

diagnosis

thioflavin T

polymethine

dementia

oxindole

benzothiazole

Synthese neuer tri- und hexadentater Stickstoffbasen für Eisen(II) Spin Crossover Komplexe / Synthesis of novel tri- and hexadentate nitrogen bases for Iron(II) Spin Crossover complexes

Heider, Silvio

29 August 2013

Die vorliegende Arbeit thematisiert Eisen(II)-Komplexe mit Spinübergangseigenschaften. Dafür wurden neue hexadentate Liganden auf Basis von N,N'-Bis(2,2'-bipyridin-6-ylmethyl)-2,2'-biphenylendiamin entwickelt. Die in Kapitel 3.1 vorgestellten Systeme variieren dabei in den jeweiligen Substituenten der 6,6‘-Positionen der Biphenyleinheit. Es wird der Einfluss dieser Gruppen auf die magnetischen Eigenschaften der resultierenden Komplexe gezeigt. Im darauffolgenden Kapitel 3.2 wird ein variiertes Ligandensystem vorgestellt, in welchem anstelle einfacher Substituenten Donorfunktionen eingeführt wurden, sodass ein symmetrischer dinuklearer Eisen(II)-Komplex zugänglich war. In diesem sind die beiden Spin Crossover (SCO) Zentren erstmalig durch eine Biphenyleinheit verbrückt. Die durchgeführten Untersuchungen geben Hinweise auf eine allostere Wechselwirkung. Weiterhin wurde der Ligand durch N-Methylierung in ein tertiäres Amin überführt und die entsprechenden Komplexe mit Fe(II), Co(II) und Zn(II) synthetisiert (Kapitel 3.3). Diese wurden strukturell und elektrochemisch untersucht und hinsichtlich ihrer Redoxeigenschaften und Magnetismus mit den Komplexen der sekundären Amine verglichen. Ebenfalls wurde das Grundgerüst des auf sekundären Aminen basierenden Liganden so variiert, dass der terminale Donor durch stickstoffhaltige Fünfringheterocyclen – anstelle von Pyridin – verkörpert wurde (Kapitel 3.4). So konnten Eisen(II)-SCO Komplexe erhalten werden, welche eine wesentlich niedrigere Übergangstemperatur aufwiesen und somit magnetische Untersuchungen im Festkörper sowie des Photomagnetismus ermöglichten. Schließlich wurden neue tridentate Amine (2-(6-R-Pyridin-2-yl)-1,10-phenanthrolin) und deren Eisen(II)-Komplexe synthetisiert (Kapitel 3.5). Für einige dieser Komplexe konnte bereits das Spin Crossover Verhalten in Lösung untersucht werden. / The present thesis addresses iron(II) complexes with spin transition properties. For this purpose new hexadentate ligands were developed on the basis of N,N’-bis(2,2’-bipyridine-6-ylmethyl)-2,2’-biphenylenediamine. The systems introduced in chapter 3.1 vary in respect to the substituents in the 6,6’-positions of the biphenyl unit. The influence of these varying moieties on the magnetic behavior of the resulting complexes is shown. In the following chapter 3.2 a tuned ligand system is introduced, in which the substituents are donor functions so that a symmetrical dinuclear iron(II) complex was feasible. In this the two Spin Crossover (SCO) centers are for the first time connected by a biphenyl core. The executed experiments give hints to an allosteric interaction in this dinuclear compound. Moreover the ligand was reacted by N-methylation yielding a tertiary amine and the corresponding complexes with Fe(II), Co(II) and Zn(II) were synthesized (chapter 3.3). Those were investigated structurally and electrochemically and were then compared with the complexes with secondary amines in respect to their redox and magnetic properties. The ligand motif based on secondary amines was also modified in a way that the terminal donor was represented by nitrogen based five-ring heterocycles instead of pyridine (chapter 3.4). So iron(II) SCO complexes were available which showed much lower thermal transition temperatures and thus magnetic investigations in the solid state as well as investigations on the photomagnetic properties became possible. Ultimately, novel tridentate amines (2-(6-R-pyridine-2-yl)-1,10-phenanthroline) and the corresponding iron(II) complexes were synthesized (chapter 3.5). For some of those complexes the spin transition could already be monitored in solution.

Eisen(II)

Stickstoff-Heterocyclen

Bipyridin

Pyrazol

Koordinationsverbindungen

Spin Crossover

magnetische Untersuchungen

räumliche Effekte

Iron(II)

Nitrogen heterocycles

Bipyridine

Pyrazole

Benzothiazole

coordination compounds

Spin Crossover

magnetic investigations

steric effects

ddc:546

ddc:547

Eisen

Pyrazole

Benzothiazol

Σύνθεση μη-πρωτεϊνικών αμινοξέων για εφαρμογές τους στην πεπτιδική σύνθεση σε στερεή φάση / Synthesis of unnatural amino acids for applications in solid phase peptide synthesis

Αντωνίου, Αντωνία

07 June 2013

Στην παρούσα διατριβή παρουσιάζεται μια νέα μεθοδολογία σύνθεσης μη-πρωτεϊνικών αμινοξέων (ΜΠΑ) κατάλληλων για εφαρμογές στην πεπτιδική σύνθεση με χρήση του ασπαραγινικού οξέος ως χειρόμορφου εκμαγείου. Η μεθοδολογία αυτή βασίζεται στην επιτυχή και σε καλές αποδόσεις σύνθεση της β-αλδεΰδης του Ν-τριτυλοασπαραγινικού τριτ-βουτυλεστέρα, η οποία αποτελεί την ένωση «κλειδί». Αυτή στη συνέχεια έδωσε μια ποικιλία νέων ΜΠΑ μέσω αντιδράσεων Wittig, Horner-Emmons ή με επίδραση οργανοψευδραργυρικών αντιδραστηρίων. Ανάλογες μελέτες με σκοπό την σύνθεση των αντίστοιχων ομολόγων τους με έναν άνθρακα λιγότερο ή περισσότερο στην πλευρική αλυσίδα, ξεκινώντας από σερίνη ή γλουταμινικό οξύ δεν απέδωσαν τα αναμενόμενα αποτελέσματα ή ήταν ανεπιτυχείς. / In the present dissertation a new methodology is reported for the synthesis of novel non-proteinogenic amino acids (NPAAs) suitable for applications in solid phase peptide synthesis. This methodology involves aspartic acid as chiral template and relies on the successful and in good yields pepraration of the key N-tritylaspartic tert-butyl ester’s β-aldehyde, which when followed by Wittig, Horner-Emmons or Grignard type reactions may result in a variety of new NPAAs. Furthermore unsuccessful attempts towards the application of the present methodology for the synthesis of NPAA homologues bearing one carbon atom less or more in the side chain by using as chiral templates serine or glutamic acid, respectively, are also reported.

Ασπαραγινικό οξύ

Αναγωγή Fukuyama

Αντίδραση Wittig

Αντίδραση HWE

Βενζοθειαζόλιο

γ-κετο-α-αμινοξέα

572.65

Non-proteinogenic amino acids

Aspartic acid

Fukuyama reduction

Wittig reaction

HWE reaction

Benzothiazole

Organozinc reagents

γ-keto-α-amino acids

Design And Synthesis Of Donor-Acceptor (D-A) Organic Semiconductors : Applications In Field Effect Transistors And Photovoltaics

Dutta, Gitish Kishor

06 1900

The present thesis is focused on rational design and synthesis of π-conjugated donor-acceptor (D-A) type oligomers and polymers. It is organized in six different chapters and a brief discussion on the content of the individual chapter is provided below. Chapter 1 briefly describes the charge transport properties of organic semiconductors followed by recent development of different organic semiconducting materials mainly for applications in OFET and solar cells have been highlighted. Chapter 2 explores the synthesis and characterization of two new liquid crystalline, D-A type bithiophene-benzothiazole derivatives. The liquid crystalline properties of the materials have been studied in detail with optical polarizing microscopic images and differential scanning calorimetry and found that these materials possess highly ordered smectic A liquid crystalline phase. Their charge transport properties have also been investigated by fabricating OFET devices. Chapter 3 describes the photophysical properties and OFET performance of quinoxaline based donors-acceptor-donor (D-A-D) type molecules. Depending on the flexibility and rigidity of the conjugated backbone these materials show liquid crystalline behaviour. Investigation of their OFET performance indicated that these molecules exhibit p-type mobility up to 9.7 x 10-4 cm2V-1s-1 and on/ off ratio of 104. Chapter 4 investigates excited state properties and OFET behavior of D-A-D type diketopyrrolopyrrole (DPP) derivatives end-capped with alkoxynaphthalene group. UV-Visible spectroscopy measurement shows strong intramolecular charge transfer (ICT) between donor and acceptor unit. Steady-state and time-resolved fluorescence measurements confirm the formation of excimer. The excited state interactions, the interchromophore separation and geometry of the molecules influence the extent of excimer formation. Finally, the OFET behavior of these DPP based materials has been studied using different dielectric layers. Chapter 5 discusses the synthesis, characterization and properties of two new thieno[3,2-b]thiophene-DPP based donor-acceptor (D-A) type low band gap polymers (PTTDPP-BDT and PTTDPP-BZT). Investigation of OFET performance indicated that polymers exhibited ambipolar behaviour with hole mobility upto 1.0 x 10-3 cm2/Vs and electron mobility upto 8 x 10-5 cm2/Vs. Using polymer PTTDPP-BDT with electron acceptor C70PCBM, power conversion efficiency (PCE) around 3.26% in bulk heterojunction solar cell has been achieved. Chapter 6 describes the approach to tailor the energy levels of conjugated polymers (PTDPP-IDT and PTTDPP-IDT) based on Indacenodithiophene (IDT) coupled with DPP moieties. We have studied the photovoltaic performance of these conjugated polymers by blending with PCBM and P3HT. The importance of these materials in polymer/polymer blend solar cell has been emphasized. The photovoltaic devices with polymer/polymer blend solar cell exhibit high open-circuit voltages (VOC) of ~ 0.8 V. In summary, the work presented in this thesis describes synthesis, characterization and photophysical properties of new organic semiconductors and their importance in optoelectronic devices. This work also describes a general design principle of nonfullerene organic solar cell. The results described here show that these materials have potential application as active components in plastic electronics.

Organic Semiconductors

Photovoltaics

Organic Field Effect Transistors

Organic Solar Cells

Donor-Acceptor Organic Semiconductors

Donor-Acceptor Oligomers - Synthesis

Donor-Acceptor Polymers - Synthesis

Diketopyrrolopyrrole (DPP)

Benzothiazole

Materials Science

Gene Vectors with Fluorescence Tracking Capabilities

Angelopoulos, Sophia Despina

01 June 2022

No description available.

Chemistry

Biology

Physical Chemistry

Organic Chemistry

Polymers

Polymer Chemistry

gene vectors

gene therapy

TADF

thermally activated delayed fluorescence

poly(ethylenimine)

benzothiazole

blue emitting

polymers

lower critical solution temperature

dual-stimuli responsiveness