Mini-Reviews in Organic Chemistry

ISSN: 1570-193X

Mini-Reviews in Organic Chemistry
Volume 4, Number 3, August 2007

Contents


Selected Recent Developments in the Enantioselective Reduction of Imines by Asymmetric Transfer Hydrogenation Pp. 190-200
Piotr Roszkowski and Zbigniew Czarnocki
[Abstract]


Synthesis of Carbasugars Based on Ring Closing Metathesis: 2000-2006 Pp. 201-216
Joaquín Plumet, Ana M. Gómez and J. Cristóbal López
[Abstract]


Recent Examples of Divergent Catalysis in Organic Reactions: Unexpected Findings or Rational Design? Pp. 217-230
Li-Wen Xu, Li Li and Guo-Qiao Lai
[Abstract]


β-Cyclodextrin as a Catalyst in Organic Synthesis Pp. 231-242
Sheshanath Vishwanath Bhosale and Sidhanath Vishwanath Bhosale
[Abstract]


Two-Phase Systems with Solidified Water Phases – Tools for Technical Use of Sensitive Catalysts Pp. 243-245
M.B. Ansorge-Schumacher
[Abstract]


Siderotyping of Fluorescent Pseudomonads - Problems in the Determination of Molecular Masses by Mass Spectrometry Pp. 246-253
H. Budzikiewicz, M. Schäfer and J.-M. Meyer
[Abstract]


Electron-Transfer Processes Mediated by Alkalides: A Critical Approach Pp. 254-267
Zbigniew Grobelny, Andrzej Stolarzewicz, Andrzej Swinarew, Marcin and Adalbert Maercker
[Abstract]




Abstracts
[Back to top]
Selected Recent Developments in the Enantioselective Reduction of Imines by Asymmetric Transfer Hydrogenation
Piotr Roszkowski and Zbigniew Czarnocki

Aqueous-organic two-phase systems are important tools in organic synthesis to enable reactions that employ compounds with incompatible solubilities. For technical application, different strategies have been developed to prevent coalescence without vast energy input and deactivation of sensitive compounds. A particularly promising one is the solidification of the aqueous phase by forming small distinguished compartments with polymers. The respective systems are assessed with special emphasis on the utility for enzyme catalysed synthesis in organic solvents.


[Back to top]
Synthesis of Carbasugars Based on Ring Closing Metathesis: 2000-2006
Joaquín Plumet, Ana M. Gómez and J. Cristóbal López

Carbasugars (a term coined for the carbocyclic analogues of carbohydrates) play a prominent role within the broad field of carbohydrate mimetics. Natural carbasugars, either as single molecules or as subunits of more complex molecules, have shown to display interesting biological activities. On the other hand, synthetic carbasugars have also shown similar biological activities. Normally, the construction of the carbocyclic framework is regarded as the key step in the synthesis of carbasugars. In this context, the use of ring closing metathesis (RCM) has proven to be of great value in recent synthetic approaches to carbasugars, owing to the discovery of easy to handle, robust, well defined, recyclable catalysts compatible with multiple functionalities. In this manuscript, we have focused on synthetic approaches to carbasugars and more complex derivatives that illustrate the usefulness of RCM reactions in the preparation of carbocyclic frameworks from sugar dienes.


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Recent Examples of Divergent Catalysis in Organic Reactions: Unexpected Findings or Rational Design?
Li-Wen Xu, Li Li and Guo-Qiao Lai

The term ‘divergent catalysis’ describes different catalytic chemical reactions that occur with the same substrates (reactants) under controllable conditions, especially using different catalysts. Various substrates were found to work with versatile reactivity under different catalytic conditions, resulting in the formation of different products. However, the examples of rationally designed divergent catalysis are still few. This review is focused on the achievements of divergent catalysis with the simplest substrates in the past decades. It includes divergent catalysis of one-component and two-component reactions with the same and simple reagents, ranging from carbon-carbon-forming pinacol coupling, benzoin condensation, Ullmann coupling, C-H homocoupling or activation, ring-closing metathesis, cyclization, Stetter reaction, Baylis-Hillman reaction, Friedel-Crafts reaction, C-H Heck coupling, 1,2-additon reaction and Michael addition, to the carbon-heteroatom bond-forming C-N cross coupling, hydroamination reaction, aza-Michael reaction, C-H oxidative amination, acetalization, and esterification.


[Back to top]
β-Cyclodextrin as a Catalyst in Organic Synthesis
Sheshanath Vishwanath Bhosale and Sidhanath Vishwanath Bhosale

This mini-review outlines recent (until the end of 2006) key developments in the use of β-cyclodextrin as a catalyst in organic synthesis. β-cyclodextrin is a water soluble supramolecular catalyst especially useful for transformations such as oxirane ring-opening, aziridine oxidation of alcohols, hydrolysis of phosphate esters and amidation of acids. It has been used for the selective synthesis of 2,6-naphthalene dicarboxylic acid, introduction of protecting groups and for ester cleavage. Interestingly, it has also been used in the aza-Michael addition of amines to conjugated alkenes, in photo-Reimer-Tiemann reactions and as a phase transfer catalyst.


[Back to top]
Two-Phase Systems with Solidified Water Phases – Tools for Technical Use of Sensitive Catalysts
M.B. Ansorge-Schumacher

Aqueous-organic two-phase systems are important tools in organic synthesis to enable reactions that employ compounds with incompatible solubilities. For technical application, different strategies have been developed to prevent coalescence without vast energy input and deactivation of sensitive compounds. A particularly promising one is the solidification of the aqueous phase by forming small distinguished compartments with polymers. The respective systems are assessed with special emphasis on the utility for enzyme catalysed synthesis in organic solvents.


[Back to top]
Siderotyping of Fluorescent Pseudomonads - Problems in the Determination of Molecular Masses by Mass Spectrometry
H. Budzikiewicz, M. Schäfer and J.-M. Meyer

Species and even subspecies of fluorescent members of the Pseudomonadaceae can be identified by determining the nature of their main siderophores (iron chelating metabolites), the pyoverdins. This can be done by establishing their electrophoretic behavior and by uptake studies using ⁵⁹Fe³⁺ labeled comparison compounds ("siderotyping"). Siderotyping requires a large collection of comparison material. Search could be facilitated and siderotyping results could be substantiated by a mass spectrometric determination of the molecular mass of the respective pyoverdin. Problems and strategies will be discussed.


[Back to top]
Electron-Transfer Processes Mediated by Alkalides: A Critical Approach
Zbigniew Grobelny, Andrzej Stolarzewicz, Andrzej Swinarew, Marcin and Adalbert Maercker

The objectives of this review are mainly reactions of alkalides with various classes of organic compounds. Mechanisms of these processes are discussed taking into account our present stage of knowledge. A new method for the preparation of crystalline nanomaterials via homogeneous reduction of transition and post-transition metal salts is also presented.