Molecular genetics of Erwinia amylovora involved in the development of fire blight.
about
Genetic islands in pome fruit pathogenic and non-pathogenic Erwinia species and related plasmidsFire Blight Control: The Struggle Goes On. A Comparison of Different Fire Blight Control Methods in Switzerland with Respect to Biosafety, Efficacy and DurabilityCommonalities and differences of T3SSs in rhizobia and plant pathogenic bacteriaIdentification of harpins in Pseudomonas syringae pv. tomato DC3000, which are functionally similar to HrpK1 in promoting translocation of type III secretion system effectorsGenome comparison of the epiphytic bacteria Erwinia billingiae and E. tasmaniensis with the pear pathogen E. pyrifoliae.Systems level analysis of two-component signal transduction systems in Erwinia amylovora: role in virulence, regulation of amylovoran biosynthesis and swarming motility.Complete genome sequence of the fire blight pathogen Erwinia pyrifoliae DSM 12163T and comparative genomic insights into plant pathogenicity.Differential expression of biphenyl synthase gene family members in fire-blight-infected apple 'Holsteiner Cox'.Erwinia amylovora novel plasmid pEI70: complete sequence, biogeography, and role in aggressiveness in the fire blight phytopathogen.Erwinia amylovora expresses fast and simultaneously hrp/dsp virulence genes during flower infection on apple trees.AmyR is a novel negative regulator of amylovoran production in Erwinia amylovora.Virulence Factors of Erwinia amylovora: A ReviewSmall-molecule inhibitors suppress the expression of both type III secretion and amylovoran biosynthesis genes in Erwinia amylovora.The bacterial alarmone (p)ppGpp activates the type III secretion system in Erwinia amylovora.Comparative Secretome Analysis of Ralstonia solanacearum Type 3 Secretion-Associated Mutants Reveals a Fine Control of Effector Delivery, Essential for Bacterial PathogenicityEnhanced antibiotic multi-resistance in nasal and faecal bacteria after agricultural use of streptomycin.Fire blight disease reactome: RNA-seq transcriptional profile of apple host plant defense responses to Erwinia amylovora pathogen infection.The RNA-binding protein CsrA plays a central role in positively regulating virulence factors in Erwinia amylovora.Type Three Secretion System in Pseudomonas savastanoi Pathovars: Does Timing Matter?Comparative Genomics of Erwinia amylovora and Related Erwinia Species-What do We Learn?Insects as alternative hosts for phytopathogenic bacteria.Genomics of iron acquisition in the plant pathogen Erwinia amylovora: insights in the biosynthetic pathway of the siderophore desferrioxamine E.Characterization of the zinc-containing metalloprotease encoded by zpx and development of a species-specific detection method for Enterobacter sakazakii.Role of the type VI secretion systems during disease interactions of Erwinia amylovora with its plant host.Signaling requirements for Erwinia amylovora-induced disease resistance, callose deposition, and cell growth in the nonhost Arabidopsis thaliana.Virulence of Erwinia amylovora, a prevalent apple pathogen: Outer membrane proteins and type III secreted effectors increase fitness and compromise plant defenses.A biosynthetic gene cluster for the acetyl-CoA carboxylase inhibitor andrimid.HopX1 in Erwinia amylovora functions as an avirulence protein in apple and is regulated by HrpL.Analyses of the secretomes of Erwinia amylovora and selected hrp mutants reveal novel type III secreted proteins and an effect of HrpJ on extracellular harpin levels.Structural Characterization of Core Region in Erwinia amylovora LipopolysaccharideHost exopolysaccharide quantity and composition impact Erwinia amylovora bacteriophage pathogenesis.Disturbance of Arabidopsis thaliana microRNA-regulated pathways by Xcc bacterial effector proteins.Gene-for-gene relationship in the host-pathogen system Malus × robusta 5-Erwinia amylovora.Control of plant defense mechanisms and fire blight pathogenesis through the regulation of 6-thioguanine biosynthesis in Erwinia amylovora.Comparative transcriptome analysis of a lowly virulent strain of Erwinia amylovora in shoots of two apple cultivars - susceptible and resistant to fire blight.Conservation of Erwinia amylovora pathogenicity-relevant genes among Erwinia genomes.Role of electron transport chain of chloroplasts in oxidative burst of interaction between Erwinia amylovora and host cells.Erwinia amylovora modifies phenolic profiles of susceptible and resistant apple through its type III secretion system.Mutability in Pseudomonas viridiflava as a programmed balance between antibiotic resistance and pathogenicity.Genetic characterization of the HrpL regulon of the fire blight pathogen Erwinia amylovora reveals novel virulence factors.
P2860
Q26784495-ECFE3AB4-32FA-4675-BC8F-458354B945BCQ26785954-7427F166-40F0-4525-A2BF-875774BA162EQ27023604-B010930A-0579-4799-8B65-24601EB3351EQ28492424-0FB51BE9-7321-4DA7-B8B0-FF3DD4CE9A70Q30984768-371D9344-57B3-4B65-94C3-00722D175752Q33452876-CBB6D75D-7A6E-4095-8D01-0393519BC1CDQ33521772-0A617C6D-4289-4879-8DF5-5F040D0116E3Q34096596-E00F84CB-E98D-4C03-9D69-A941F675B2F8Q34103257-A8A63DE4-519B-4083-8DD2-34D0BDB0748DQ34193230-7088F257-050A-428A-B1BA-6D546BDF788AQ34427928-34605587-21C4-4E22-B63E-431F739288B8Q34479913-6B10E907-B524-4E24-86C4-0DBDCB910425Q34893460-81FD6394-9F7F-4D92-B95B-E36F50C120A6Q35214799-3BA9A189-20BB-45AE-A236-A3AE1B9A51A5Q36539493-FA29D3D5-EA39-407E-AEAF-79FE3732555DQ36573137-D6202655-7A88-48E4-A30C-C9E85EA5A4FCQ36587725-FDEF96AA-71C4-43D4-8CF9-6203B1892A34Q37413879-638C4F96-856D-46F3-B934-9768BBADD948Q37590470-DA630C71-AD3E-40D8-B41A-FA581F1B4CA5Q37590506-5728AADB-78ED-4611-9838-646E7B7FB074Q37830741-058AF597-3A5B-4C49-B184-F9D1048B97EDQ37911358-2F85783F-7F2B-4B24-A88B-4A89B747EC03Q38302044-6702027C-727D-428D-8A9C-E68A562BE076Q38619660-CF00FF37-963C-44B9-A852-5A84261AD5A4Q38653229-B9243B8C-211C-4984-828E-02B1F212A1C4Q39654298-A2454F76-A2A4-46C8-ADD1-C81541FE948AQ40297667-3F6FAC14-1FDB-480F-BE4D-F611CBCA99A0Q40596580-CB0FE17F-191A-4904-8756-3E2AAF353CFEQ41450750-210E75D1-0239-4485-8486-ABC0CFD0D92FQ42096747-446D0363-A28F-4714-87A8-499A375D641EQ42119430-E283D6F7-2A85-4331-B123-C8F4CAB6A612Q42245577-1F91FE31-59CB-4CBD-A8E8-3DC4B3DA4D70Q43723272-FB324766-0BA8-4B0C-ADDE-59B5BC288011Q43775955-CADDB47F-D96E-4BA1-A49C-96B08CB5C9E6Q44315986-DB4AECB3-D0CA-4794-A426-D8B05468FCE8Q46037755-474F2D94-5839-415F-B936-E8667B011BD9Q46751808-815B4A14-9D56-4779-8DCE-3786B4831E6BQ46753437-2452CFCA-02E9-4244-85EB-33EB776B63DFQ46777863-D23E82FB-7168-43DF-9CCE-F3984E3C0638Q46852771-2022717E-9232-4A02-8110-E602B7A9BBE6
P2860
Molecular genetics of Erwinia amylovora involved in the development of fire blight.
description
2005 nî lūn-bûn
@nan
2005年の論文
@ja
2005年学术文章
@wuu
2005年学术文章
@zh-cn
2005年学术文章
@zh-hans
2005年学术文章
@zh-my
2005年学术文章
@zh-sg
2005年學術文章
@yue
2005年學術文章
@zh
2005年學術文章
@zh-hant
name
Molecular genetics of Erwinia amylovora involved in the development of fire blight.
@ast
Molecular genetics of Erwinia amylovora involved in the development of fire blight.
@en
type
label
Molecular genetics of Erwinia amylovora involved in the development of fire blight.
@ast
Molecular genetics of Erwinia amylovora involved in the development of fire blight.
@en
prefLabel
Molecular genetics of Erwinia amylovora involved in the development of fire blight.
@ast
Molecular genetics of Erwinia amylovora involved in the development of fire blight.
@en
P2860
P1476
Molecular genetics of Erwinia amylovora involved in the development of fire blight.
@en
P2093
Chang-Sik Oh
Steven V Beer
P2860
P304
P356
10.1016/J.FEMSLE.2005.09.051
P577
2005-10-13T00:00:00Z