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systems, possibly related with pathogenicity, is the recently identified Type VI secretion system in Gram AZ20 negative bacteria, Analyses revealed one large and one small cluster in E. pyrifoliae. Both clusters are present in E. tasmaniensis and E. billingiae, but show variations in gene content, Most of the still uncharacterized genes are conserved within the clusters. Functions were assigned for the putative regulator Fha, the membrane associated proteins such as Lip, IcmF and DotU, ClpV and Hcp and VgrG, The proteins Hcp and VgrG are secreted, Hcp building a tube like structure for effector delivery, while VgrG may be an effector activator or an effector itself, One CDS, found in E. pyrifoliae and E.
billingiae, of the larger cluster codes for a putative exported protein, which shows similarities of 50 65% to a protein of other plant pathogenic bacteria such as Pectobacterium atrosepticum AZ20 and Pseudomonas syringae pv. tomato. In case this exported protein has an effector function, it would match the previous results, that E. tasmaniensis is missing many other effector proteins, Whether the secretion systems have an influence on pathogenicity is undiscernible so far, since only a rudimentary instrumen tation was found in E. amylovora. Plant invasion, which was not confirmed for E. tasmaniensis, may be an impor tant requirement for the function, For the T6SS essential gene content, function assign ment and structural determination is not I-BET-762 well advanced. Most information exist for animal pathogens, but also plant pathogens may use T6SS, Nevertheless, the intrinsic role of the T6SS beside T3SS and or T4SS has yet to be determined.
Genetics of EPS synthesis by E. pyrifoliae and E. billingiae Several metabolic factors are considered to play an important role for causing disease in Erwinia infected plants including synthesis of exopolysaccharides i. e. amylovoran or related products and levan production as well as metabolism of sorbitol and sucrose, The capsular EPS of E. amylovora Extispicy is amylovoran, which apparently modulates recognition of the bacteria by plant defense mechanisms and is a main pathogenicity factor, The gene cluster for EPS synthesis of pyrifolan by E. pyrifoliae also consists of 12 CDS with two adjacent genes for precursor synthesis. The encoded proteins are at least 85% similar and have a conserved order for E. pyrifoliae and E. amylovora.
The repeating units of amylovoran and pyrifolan have the same sugar composition and identical linkages except a missing sec ond side chain of glucose for pyrifolan, I-BET-762 No EPS has been identified so far for E. tasmaniensis, but there is a gene cluster for synthesis of capsular poly saccharide on the chromosome, E. billingiae pos sesses similar genes but produces an EPS. In alignments of Cps proteins from E. pyrifoliae and E. billingiae, CpsF have a remarkable divergence, which may indi cate specific functions for processing and assembly of the repeating units of capsular EPS for both species. E. amylovora produces another EPS, levan, which serves as quickly generated shield against recognition by plant defence reactions, The secreted levansucrase, encoded by lsc, cleaves sucrose into glucose and fructose, which is subsequently polymerized to levan, Levan is not strictly necessary for virulence of E.
amylovora, Also the non pathogenic E. tasmaniensis possesses an lsc AZ20 gene and produces levan, E. pyrifoliae lacks the lsc gene, but an orf coding for a protein similar to levanase was identified, Levanase belongs to the B D fructofuranosidases and can also cleave inulin and sucrose, Therefore, the enzyme I-BET-762 could provide nutri ents by cleavage of fructans in plant tissue, and may degrade levan from synthesizing bacteria, if it is secreted by E. pyrifoliae. Sorbitol and sucrose AZ20 metabolism A dominant carbohydrate in rosaceous plants is the transport sugar alcohol sorbitol. In case of E. amylovora the proteins for its metabolization are encoded by the genes srlAEBDMR, which could I-BET-762 also be identified f