Laura Casiraghi scite author profile

[reactions: see text] Two complementary and efficient strategies have been developed for the regiospecific synthesis of unsymmetrical indolopyrrolocarbazoles (IPCs) mono-N-substituted with a pentacycle. A halogen in position 2 of the intermediate bisindolylmaleimides 3a-e allows a selective Mitsunobu coupling by exploiting the increased acidity of the 2-chloro-substituted indole nitrogen. It also promotes an easier cyclization of bisindolylmaleimides 4a-e and 7b-e to IPCs. Alkylation of the 2-unsubstituted indole-3-carboxamides 2a,b and further processing to the corresponding IPCs gives access to the opposite regioisomers.

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New polymer-bound haloarene chromium dicarbonyl isocyanide complexes: a successful study validating their use in solid-phase chemistry

Maiorana¹,

Baldoli²,

Licandro³

et al. 2000

Tetrahedron Letters

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Deactivation and unfolding are uncoupled in a bacterial lipase exposed to heat, low pH and organic solvents

Invernizzi

Casiraghi

Grandori

et al. 2009

Journal of Biotechnology

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Technical aspects of biocatalysis in non‐CO₂‐based supercritical fluids

Karmee

Casiraghi

Greiner

2008

Biotechnology Journal

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The number of biotransformation processes is increasing rapidly. Part of this success is based on the inherent properties of enzymes as chemo-, regio-, and enantioselective catalysts. Supercritical fluids (scF) are superior solvents inheriting adjustable and partly unique physical properties. These can be advantageously combined with biotransformations, as solvent power responds to pressure and temperature changes according to the reaction requirements. Among the scF, supercritical carbon dioxide has undoubtedly gained the highest attention. However, other scF are also recognized to enlarge the possibilities. Among these CH(4), C(2)H(6), C(2)H(4), C(3)H(8), CHF(3), and SF(6) are used as scF for biocatalysis. This review focuses on the use of non-CO(2) based scF for biotransformations. Wherever possible, special emphasis is given on the industrial viability of different biocatalytic processes.

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Polymer-Supported Haloarene Chromium Dicarbonyl Isonitrile Complexes: A Study of Their Synthesis and Reactivity

et al. 2003

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Different arene Cr(CO)(3) complexes were supported on a polystyrene isonitrile resin by photochemical-promoted replacement of a chromium carbonyl ligand by the NC group. The supported complexes proved to be stable and were successfully used for further transformations. In particular, the reactivity of dichlorobenzene complexes to different nucleophiles was investigated and found to be comparable with that of the parent Cr(CO)(3) complexes.

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Laura Casiraghi

Regiospecific Synthesis of Mono-N-substituted Indolopyrrolocarbazoles

New polymer-bound haloarene chromium dicarbonyl isocyanide complexes: a successful study validating their use in solid-phase chemistry

Deactivation and unfolding are uncoupled in a bacterial lipase exposed to heat, low pH and organic solvents

Technical aspects of biocatalysis in non‐CO₂‐based supercritical fluids

Polymer-Supported Haloarene Chromium Dicarbonyl Isonitrile Complexes: A Study of Their Synthesis and Reactivity

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Laura Casiraghi

Regiospecific Synthesis of Mono-N-substituted Indolopyrrolocarbazoles

New polymer-bound haloarene chromium dicarbonyl isocyanide complexes: a successful study validating their use in solid-phase chemistry

Deactivation and unfolding are uncoupled in a bacterial lipase exposed to heat, low pH and organic solvents

Technical aspects of biocatalysis in non‐CO2‐based supercritical fluids

Polymer-Supported Haloarene Chromium Dicarbonyl Isonitrile Complexes: A Study of Their Synthesis and Reactivity

Contact Info

Product

Resources

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Technical aspects of biocatalysis in non‐CO₂‐based supercritical fluids