Ornithine Lipids in Burkholderia spp. Pathogenicity

The genus Burkholderia sensu lato is composed of a diverse and metabolically versatile group of bacterial species. One characteristic thought to be unique for the genus Burkholderia is the presence of two forms each (with and without 2-hydroxylation) of the membrane lipids phosphatidylethanolamine (PE) and ornithine lipids (OLs). Here, we show that only Burkholderia sensu stricto strains constitutively form OLs, whereas all other analyzed strains belonging to the Burkholderia sensu lato group constitutively form the two forms of PE, but no OLs. We selected two model bacteria to study the function of OL in Burkholderia sensu lato: (1) Burkholderia cenocepacia wild-type which constitutively forms OLs and its mutant deficient in the formation of OLs and (2) Robbsia andropogonis (formerly Burkholderia andropogonis) which does not form OL constitutively, and a derived strain constitutively forming OLs. Both were characterized under free-living conditions and during pathogenic interactions with their respective hosts. The absence of OLs in B. cenocepacia slightly affected bacterial growth under specific abiotic stress conditions such as high temperature and low pH. B. cenocepacia lacking OLs caused lower mortality in Galleria mellonella larvae while R. andropogonis constitutively forming OLs triggers an increased formation of reactive oxygen species immediately after infection of maize leaves, suggesting that OLs can have an important role during the activation of the innate immune response of eukaryotes.

Untargeted Metabolomics Reveal Defensome-Related Metabolic Reprogramming in Sorghum bicolor against Infection by Burkholderia andropogonis

Burkholderia andropogonis is the causal agent of bacterial leaf stripe, one of the three major bacterial diseases affecting Sorghum bicolor. However, the biochemical aspects of the pathophysiological host responses are not well understood. An untargeted metabolomics approach was designed to understand molecular mechanisms underlying S. bicolor–B. andropogonis interactions. At the 4-leaf stage, two sorghum cultivars (NS 5511 and NS 5655) differing in disease tolerance, were infected with B. andropogonis and the metabolic changes monitored over time. The NS 5511 cultivar displayed delayed signs of wilting and lesion progression compared to the NS 5655 cultivar, indicative of enhanced resistance. The metabolomics results identified statistically significant metabolites as biomarkers associated with the sorghum defence. These include the phytohormones salicylic acid, jasmonic acid, and zeatin. Moreover, metabolic reprogramming in an array of chemically diverse metabolites that span a wide range of metabolic pathways was associated with the defence response. Signatory biomarkers included aromatic amino acids, shikimic acid, metabolites from the phenylpropanoid and flavonoid pathways, as well as fatty acids. Enhanced synthesis and accumulation of apigenin and derivatives thereof was a prominent feature of the altered metabolomes. The analyses revealed an intricate and dynamic network of the sorghum defence arsenal towards B. andropogonis in establishing an enhanced defensive capacity in support of resistance and disease suppression. The results pave the way for future analysis of the biosynthesis of signatory biomarkers and regulation of relevant metabolic pathways in sorghum.

Diferenciação de bactérias do gênero Pseudomonas patogênicas ao cafeeiro por técnicas serológicas

RESUMO: Há várias bactérias que causam problemas para o cafeeiro, incluindo Pseudomonas cichorii, P. syringae pv. garcae, P. syringae pv. tabaci, Burkholderia andropogonis e Xylella fastidiosa, todas elas já descritas no Brasil. Tentativas de diferenciar essas bactérias por testes serológicos de dupla difusão em ágar (dda), com antissoros produzidos contra células íntegras de P. s. pv. garcae, mostraram reações cruzadas, principalmente entre P. s. pv. garcae e P. s. pv. tabaci. Dessa forma, foram produzidos antissoros contra P. s. pv. garcae (linhagem patotipo IBSBF-248 - Coleção de Culturas de Fitobactérias do Instituto Biológico - IBSBF), obtidos por meio de imunizações de coelhos com antígenos de proteínas do complexo proteico da membrana (CPM). Esses antissoros foram testados por dupla difusão em agarose (dda) contra diversas formas de antígenos extraídos de P. cichorii, P. s. pv. garcae e P. s. pv. tabaci [células autoclavadas, células tratadas com formol, exopolissacarídeos (EPS), glicoproteínas (GP) da cápsula bacteriana, proteínas de membrana e suspensão bacteriana (SB) em NaCl 0,85%]. Os resultados mostraram que, dependendo do antígeno e do meio suporte da dupla difusão (com ou sem MgCl2 e/ou azul de tripano), os antissoros reagem somente com P. s. pv. garcae. Desse modo, esses antígenos podem ser usados para a rápida diagnose da mancha aureolada do cafeeiro nos testes de dda.

Burkholderia andropogonis. [Distribution map].

A new distribution map is provided for Burkholderia andropogonis (Smith) Gillis et al. Bacteria. Main hosts: Sorghum spp., maize (Zea mays), clover (Trifolium spp.), velvet bean (Mucuna spp.) and vetch (Vicia spp.). Information is given on the geographical distribution in Europe (Bulgaria, Hungary, Italy, Poland, Portugal, Russia, Russian Far East), Asia (Brunei Darussalam, China, Henan, Hong Kong, Iraq, Japan, Honshu, Pakistan, Philippines, Taiwan and Thailand), Africa (Egypt, Ethiopia, Kenya, Nigeria, Rwanda, South Africa, Sudan, Togo, Uganda, Zambia and Zimbabwe), North America (Canada, Alberta, British Columbia, Nova Scotia, Ontario, Quebec, Mexico, USA, Arkansas, California, District of Columbia, Florida, Georgia, Hawaii, Indiana, Iowa, Kansas, Louisiana, Maine, Massachusetts, Mississippi, Missouri, Nebraska, New Jersey, New Mexico, New York, North Carolina, North Dakota, Ohio, Oklahoma, Pennsylvania, South Dakota, Texas, Utah, Virginia and Washington), Central America and Caribbean (Costa Rica, Cuba, El Salvador, Haiti and Honduras), South America (Argentina, Brazil, Minas Gerais, Santa Catarina, Sao Paulo, Uruguay and Venezuela) and Oceania (Australia, New South Wales, Northern Territory, Queensland, Victoria, Western Australia, Federated States of Micronesia and New Zealand).