Prof. C P Rao

Areas Of Expertise

• Bioinorganic chemistry
• Co-ordination chemistry
• Molecular recognition
• Fluroscence emmision
• Glycoconjugates
• lectins
• glycosidases
• Protein-carbohydrate interactions
• Glycobiology
• Calixarenes
• Iron Complexes
• Electrochemical studies
• EXAFS spectra
• Iron-saccharide complexes
• Magnetic studies
• Putative bio-relevant studies
• Solution stability
• Transition metal saccharide
• 4,6-O-Ethylidene-?-D-glucopyranosylamine
• 4,6-O-Ethylidine-N-(2-hydroxybenzylidene)-glucopyranosylamine
• N-(5-Bromo-2-hydroxybenzylidene-4,6-O-ethylidine--D- glucopyranosylamine
• X-ray diffraction study
• Zn(II) complex
• Molybdenum
• Schiff bases
• Structure elucidation
• Uranium
• Vanadium
• 4,6-O-Benzylidene-N-(o-carboxyphenyl)-D-glucopyranosylamine
• Alkali metal ions
• Alkaline earth metal ions
• Anthranilic acid
• Metal-ion interaction
• Channel structure
• FAB mass spectrometry
• Saccharide-Schiff bases
• Single crystal XRD
• Tridentate binding core
• ? and ? anomers
• 2-(o-Aminophenyl)benzimidazole
• 4,6-O-Benzylidene-D-glucopyranose
• 4,6-O-Butylidene-D-glucopyranose
• Hydrogen-bonding interaction
• N-Glycosyl amines
• Optical rotation
• Mono-
• di- and tri-nuclear Ni(II) complexes
• N-
• O-donor molecules
• Pyridine bound mononuclear Ni(II) complex
• Urea adduct
• 4,6-O-Butylidene-?-D-glucopyranose
• 4,6-O-Butylidene-- D-glucopyranosylamine
• 4,6-O-Butylidene-N-(2-hydroxybenzylidene)- D-glucopyranosylamine
• Glycosyl amines
• Single-crystal X-ray diffraction
• 1,2-Di-(o-salicylaldiminophenylthio)ethane
• Activation by Co(Il) salts
• Crystal structure of Co(III) complex
• Oxidative cleavage of C-S bond
• Hydrogen bonds
• Metalloenzymes
• N,O ligands
• X-ray diffraction
• Zinc
• Catechol oxidation by Cu(II) complexes
• Inter-conversion
• Pseudodouble-cubane
• Tetranuclear cubane core
• ? Anomer
• Anomeric mixture
• Benzothiazoline derivatives
• Bonding and structural group parameters
• Inversion of conformation
• Levorotatory
• Simulated spectrum
• 4,6-O-Butylidene-N- (o-chlorophenyl)-D-glucopyranosylamine
• Glycosylamines
• 1H NMR studies
• Lattice structure
• Saccharide moiety
• D-Ribopyranosylamine
• Bis-{N-(2-hydroxynaphthyl-1-methylimine)} anchored 1,3-di-derivative of p-tert-butyl-calix[4]arene
• Chemo-sensor
• Fluorescence quenching
• Fluorescence restoration
• Fluorescence-on
• Selective detection of Zn(II)
• Calix[4]arene-imine conjugate
• Catecholase activity
• Crystal structure of the Cu(II) complex
• Agglutination of cells
• Carbohydrate recognition domain (CRD)
• Con-canavalin A (Con A)
• Isothermal titration calorimetry (ITC)
• Lectin - carbohydrate interaction
• Legume lectins
• Metal ion binding core
• Surface plasmon resonance imaging (SPR)
• Hematological parameters
• Hepatic and renal soft tissue
• p-tert-Butyl-calix[4]arene-1,3-diacid
• Reversal of lead toxicity in Wistar rats
• Tetranuclear tin complexes
• Anthracene-imine derivative
• Chemosensor
• Fluorescence enhancement
• p-tert-Butyl-calix[4]arene
• Photo-induced electron transfer
• 1,3-Bis(aminoethoxy)-calix[4]arene derivative
• Arene cavity bound species
• Fluorescence quench
• Lower rim of calix[4]arene
• Recognition of Hg2+
• Ab initio calculations
• Dual fluorescence sensor
• Fluorescence switch-off by Ni2+
• Fluorescence switch-on by Zn2+
• Lower rim 1,3-di-amide-derivative of calix[4]arene
• N4-coordination core
• Alkali and alkaline earth ions
• Mono-anion of p-tert-butyl-calix[4]arene
• O-alkylation at the lower rim of calix[4]arene
• Template action of K ⁺
• Coordination chemistry
• Calix[4]arene-imine conjugates
• Iron
• Cobalt
• Nickel
• Copper
• Magnetic susceptibility
• Electron paramagnetic resonance
• Mossbauer spectroscopy
• State interconversion
• Electron-paramagnetic resonance
• Schiff-base
• Selective recognition
• Molecular recognition
• Crossover complexes
• Equilibrium system
• Crystal-structure
• Ferric complexes
• Solid-state
• Ion-selective electrodes
• Phosphate diester transesterification
• Basic-amino-acids
• Silver ion
• Binding-properties
• L-lysine
• Water
• Recognition
• Cysteine
• Calixarenes
• Tetranuclear copper(ii) complexes
• Proton-transfer reaction
• Fluorescent chemosensor
• Metal-ions
• Cu(ii) complex
• Base ligand
• Oxygen-atom
• Hinge sugar
• Cu2+ Ion
• Sensors
• 4,4-Methylene-bis (3-hydroxy-2-naphthalene carboxylic acid)
• Dimeric Ti(IV) complex
• Helical structure
• Octahedral Ti(IV) center
• Calix[4]arene-iminc conjugates
• Calixarencs
• Triazole-linked Schiff&#146
• s base appended 1,3-di-derivatives of calix[4]arene
• Selective recognition of Zn2+
• Augmentation of fluorescence response by -CH2OH
• Transition-metal ions
• Intracellular zinc
• Biological-systems
• Electron-transfer
• In-vivo
• Sensor
• Design
• Zn(ii)
• Probe
• Cchemosensor
• Cu2+ Sensor
• Fluorescence switch-on
• Calix[4]arene appended with bis-(2-picolyl)amine
• Nano structure
• 4 Dansyl groups
• Bifunctional fluorescent
• Copper deficiency
• Optical sensor
• Metal-ion
• Bearing
• Calixarene
• CALIX<4>ARENES
• Di-derivatives of 1,1 &#146
• -methylene-bis(2-naphthol)
• Bis{2-[(pyridin-2-yl)methoxy] naphthalen-1-yl}methane
• Monomeric Cu2+ complex
• Axially elongated octahedral Cu2+ center
• Dinuclear copper(ii) complexes
• Catecholase-like activity
• DNA cleavage
• Mononuclear
• Oxidation
• Ligands
• C1-/C2-aromatic-imino-glyco-conjugates
• Glycosidase inhibition
• Pure alpha-mannosidase
• Rigid docking
• Glycosidases from soybean and jack bean
• 5-Membered iminocyclitol
• Alpha-galactosidase
• Beta-glucosidase
• Emerging class
• Potent
• Mannosidase
• Derivatives
• Complex
• Amino(hydroxymethyl)cyclopen-tanetriols
• 1,1 &#146
• -Methylene-bis(2-naphthoxy-methyl-2
• -pyridine)
• Cu2+ selective recognition
• Job&#146
• s plot
• Stoichiometry by ESI-MS
• NMR titration
• Lower rim
• Hg2+ Ion
• Complexes
• Fluorescence
• Cu(ii)
• Fluoroionophore
• Mercury(ii)
• Absorption
• 1-naphthol
• 1-(D-Glucopyranosyl-2 &#146
• -Deoxy-2 &#146
• -iminomethyl)-2-hydroxynaphthalene
• Calorimetric detection
• Naked-eye sensor for Fe3+
• Aqueous buffer medium
• HF/6-31G calculations
• Fluorescent sensor
• Sensing probe
• 4,6-o-Ethylidene-beta-d-glucopyranosylamine
• Cu2+ Sensor
• Augmentation of fluorescence response by -CH2OH
• Selective recognition of Zn2+
• Axially elongated octahedral Cu2+ center
• Di-derivatives of 11-methylene-bis(2-naphthol)
• Monomeric Cu2+ complex
• Pure-mannosidase
• 1-Methylene-bis(2-naphthoxy-methyl-2-pyridine)
• Cu2+ selective recognition
• 1-(d-Glucopyranosyl-2???-deoxy-2???-iminomethyl)-2-hydroxynaphth alene
• Colorimetric detection
• Naked-eye sensor for Fe3+
• Peptido-conjugates of calix[4]arene
• HMQC
• binding core
• conformational mobility
• phosphate binding
• Amino-acid
• RIM
• 1-(D-Glucopyranosyl-2 &#146
• -iminomethyl)-2-hydroxy-benzene amphiphile
• Nanofibers
• pi ... pi interactions
• Maldi
• Microscopy
• Molecular mechanics (MM plus )
• Alpha-helical albumins
• Beta-sheet lectins
• Peptide-amphiphile nanofibers
• Amyloid polypeptide iapp
• Self-assembling peptide
• Amino-acids
• Binding
• oligonucleotide
• Nanostructures
• Human albumin
• Binding site
• Zinc ions
• Cells
• Chemosensors
• Luminescence
• binding core
• conformational mobility
• phosphate binding
• Protein structures
• Anion recognition
• Zinc
• Complexation
• Deficiency
• ??-helical albumins
• ??-sheet lectins
• 1-(D-glucopyranosyl-2???-deoxy-2???-iminomethyl)-2-hydroxy-benzene amphiphile
• molecular mechanics (MM+)
• nanofibers interactions
• Calix[4]arene based Schiff base
• Metal complex
• EPR spectroscopy
• Magnetic exchange
• Catalysts
• Coordination
• Pendants
• Imine
• Ion
• -Iminomethyl)-2-hydroxybenzene
• Recognition of aromatic amino acids
• Switch-on fluorescence
• Computational calculations
• H-bonded 1:1 complex
• pi-pi interactions
• Homocysteine
• Histidine
• Receptors
• Disease
• M?ssbauer spectroscopy
• ??-?? interactions
• 1-(d-Glucopyranosyl-2???-deoxy-2???-iminomethyl)-2-hydroxybenzene