The writing is superb... each (Nelles) guide is delightfully comprehensive, a solid source of reliable information for the traveller... All travel guides claim to be comprehensive, but we found Nelles Guides superior". -- Arizona Senior World "(The Nelles Guides are) . . . beautifully photographed . . . the maps are better than Insight's, and practical information is integrated with the text, not relegated to the end". -- National Geographic Traveller -- Quality writing, often by native writers -- Detailed sections on the history, culture, special features and festivals -- Accommodations, restaurant guides, sights to see, places to shop, how to get around
The writing is superb... each (Nelles) guide is delightfully comprehensive, a solid source of reliable information for the traveller... All travel guides claim to be comprehensive, but we found Nelles Guides superior". -- Arizona Senior World "(The Nelles Guides are) . . . beautifully photographed . . . the maps are better than Insight's, and practical information is integrated with the text, not relegated to the end". -- National Geographic Traveller -- Quality writing, often by native writers -- Detailed sections on the history, culture, special features and festivals -- Accommodations, restaurant guides, sights to see, places to shop, how to get around
This work is a showcase for the integration of systems biology and bioinformatics tools, algorithms and models for deciphering biological phenomena. More specifically, it integrates (i) prediction algorithms for identifying and characterizing molecular interactions, (ii) structural modelling of molecule complexes, (iii) network analysis approaches, and (iv) mathematical modelling and simulation. Two comprehensive workflows are implemented for the analysis of collective target gene regulation by microRNAs and for the prediction of cooperating microRNA pairs and their mutual target genes. In two case studies mechanisms of fine-tuned target gene regulation are revealed for different cellular processes and the phenomenon of cooperative target regulation is identified as frequent mechanism of gene regulation in humans.
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