Mitochondria are the product of a long evolutionary history. It is now a well established fact that mitochondria did evolve from free living bacteria being the common ancestor of both, eukaryotic mitochondria and Ip-proteobacteria. Advances in genome sequencing, the establishment of in organello and in vitro assays to name only a few, contributed significantly to advances in plant mitochondrial research. Second generation sequencing and the ability to directly sequence and analyse the whole plant transcriptome certainly will help to develop the research on plant mitochondria to another level in the future. In this book the current knowledge about plant mitochondria is presented in a series of detailed chapters, which have been organized in five main sections: (i) dynamics, genes and genomes; (ii) transcription and RNA processing; (iii) translation and import; (iv) biochemistry, regulation and function; and (v) mitochondrial dysfunction and repair. These sections consist of two to five chapters, each written by well-known specialists in the field. This book thus provides a comprehensive inside in the field of plant mitochondria for the specialist. The addition of a glossary and text boxes to each chapter provides easy access for readers from other subjects and hopefully will attract young scientist to the fascinating and exiting field of plant mitochondria.CRS2 alone does not bind RNA with high affinity. ... have been mapped in detail by researchers who solved the x-ray structure of CRS2 and dissected the CRS2- binding site on the CAF proteins using an ... Although the precise function of CRS2 remains to be determined, it is believed to drive the folding of the intron into its catalytically active conformation. Here, as for most of the chloroplast splicing factors discussed above, future studies should include detailed analyses of the effect ofanbsp;...
|Publisher||:||Springer Science & Business Media - 2010-11-22|