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The seminar Genome; Sequencing, Assembly & Annotation will provide deeper insight in what a genome sequence comprises, and explain its dynamic nature. To obtain a genome sequence in general, the orders of base pairs are deduced from fragments of DNA following chemical or physical reactions (sequencing). The orders of the fragments are in turn linked using programs that calculate the most likely linkages based on statistics (assembly). Finally, patterns are searched in and recorded for the assembled fragments (annotation). Together this will result in an approximation of the physical genetic map of the sequenced individual and the encoded information herein.
It is crucial to understand that none of the steps during the generation of a genome sequence are ever without errors and a genome sequence is therefore not absolute, in contrast to what most people think. Also, species-specific properties such as genome complexity, or for example ploidy, limit the maximum possible genome sequence quality, and ‘a genome sequence’ can therefore differ substantially in information content between different species. Finally, the genome sequence of an individual, no matter how high in quality, is never the blueprint of a whole species. The individual of which genomic DNA has been extracted for sequencing will always possess some specific mutations or other unique properties in comparison with other individuals of the same species.
Obtaining a fully complete and error-free genome sequence is virtually impossible, and even a good approximation is often a complicated and costly endeavour. It is therefore wise to select an approach that optimizes those aspects of the genome sequence that are most important for the success of a given project. One should realize that obtaining a genome sequence by itself is seldom the goal, but instead is a mean to achieve a goal. In this seminar we will investigate the currently leading sequencing, assembly and annotation methods, examine their benefits and drawbacks, and explore possibilities for their combination.
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