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pecial ization as a plant pathogen. The genetic distance between the pathogenic Erwinia species and E. tasmaniensis is small, and larger to E. billingiae, SKI II which SKI II has a tendency to invade necrotic tissue of plants. Several differences in genes and their expression apparently restrict E. tas maniensis to exist as an epiphyte on plant surfaces. This enables the species to survive especially on flowers and supports its potential to compete with pathogens such as E. amylovora and possibly E. pyrifoliae. The comparative analysis of E. billingiae strain Eb661, E. tasmaniensis strain Et1 99 and E. pyrifoliae strain Ep1 96 highlights the different genome organization within this genus driven by recombination events.

The genomes of these epiphytic and pathogenic bacteria show high accor dance of single genes and gene clusters, which are poten tial virulence factors in pathogenic species. The difference in lifestyle may depend on protein NSC 14613 secretion and invasion into plants. E. billingiae lacks any T3SS in contrast to E. tasmaniensis and E. pyrifoliae. Differences between both pathogenic E. amylovora and E. pyrifoliae and the non pathogenic E. tasmaniensis include a lack of the HAE region in the hrp hrc T3SS, of the SopA and PagC proteins and the presence of a VirK protein and putatively of Type I fimbriae. E. billingiae shows much larger variations, e. g. apparently more possibilities for biofilm formation and adhesion, no synthesis or utiliza tion of levan, the absence of a non ribosomal peptide synthetase similar to EppT and a T3SS with the HAE region, the SopA protein and possesses a VirK protein.

Therefore, those components probably represent factors to describe pathogenic and non pathogenic Erwinia spe cies. Factors such as synthesis of EPS and levan, utiliza tion of sugar and sugar alcohols as well as expression of proteases Haematopoiesis and siderophores may be related to nutrient acquisition and to modulate plant defence. The role of the NRPS in the pathogenic strain Ep1 96 remains unclear. A phytotoxin could be an advantage in weakening the plant during the colonization and can explain differences in the habitat of Erwinia species. Virulence for E. pyrifoliae may depend on the factors summarized in this section. Accumulation in the genome of E. pyrifoliae NSC 14613 could be interpreted as the result of an Methods Genome determination E. pyrifoliae strain Ep1 96 and E.

billingiae strain Eb661 were cultured as described previously, DNA was isolated SKI II with the Genomic DNA kit according to the manufacturers instructions. The genomic sequences were determined by whole genome shotgun sequencing using Sanger based sequencing technology and pyrose quencing. The genomes of E. pyrifoliae strain Ep1 96 and E. billingiae strain Eb661 were covered by short insert shot gun libraries with NSC 14613 1. 5 and 2. 5 kb inserts and fosmid librar ies with 37 kb inserts, End sequencing was performed on recombinant plasmids using BigDye 3. 1 chemistry and 3730XL capillary sequencers resulting in a 9 fold sequencing coverage for strain Ep1 96 and a 11 fold sequencing coverage for strain Eb661.

The high number of fosmid reads resulted in one uncov ered chromosomal region for strain Ep1 96 and a com plete physical coverage by fosmid clones of the chromosome of strain Eb661. To reduce finishing experi ments pyrosequencing was performed using the GS20 SKI II sequencer for strain Ep1 96 and the GS FLX platform for strain Eb661 resulting in an additional 25 fold and 8 fold sequencing coverage, respectively. Data assembly was performed for strain Ep1 96 within two steps. GS20 data were initially assembled by Newbler and the resulting contigs were fragmented using PERL scripts resulting in overlapping sequence fragments, which were assigned as forward and reverse reads in fasta format and the corresponding fasta quality files. The NSC 14613 thus obtained faked reads were assem bled together with the Sanger derived processed reads using PhredPhrap. GS FLX data and Sanger derived reads for strain Eb661 were assem bl