Tackling functional redundancy of Arabidopsis fatty acid elongase complexes

Very-long-chain fatty acids (VLCFA) are precursors for various lipids playing important physiological and structural roles in plants. Throughout plant tissues, VLCFA are present in multiple lipid classes essential for membrane homeostasis, and also stored in triacylglycerols. VLCFA and their derivatives are also highly abundant in lipid barriers, such as cuticular waxes in aerial epidermal cells and suberin monomers in roots. VLCFA are produced by the fatty acid elongase (FAE), which is an integral endoplasmic reticulum membrane multi-enzymatic complex consisting of four core enzymes. The 3-ketoacyl-CoA synthase (KCS) catalyzes the first reaction of the elongation and determines the chain-length substrate specificity of each elongation cycle, whereas the other three enzymes have broad substrate specificities and are shared by all FAE complexes. Consistent with the co-existence of multiple FAE complexes, performing sequential and/or parallel reactions to produce the broad chain-length-range of VLCFA found in plants, twenty-one KCS genes have been identified in the genome of Arabidopsis thaliana. Using CRISPR-Cas9 technology, we established an expression platform to reconstitute the different Arabidopsis FAE complexes in yeast. The VLCFA produced in these yeast strains were analyzed in detail to characterize the substrate specificity of all KCS candidates. Additionally, Arabidopsis candidate proteins were transiently expressed in Nicotiana benthamiana leaves to explore their activity and localization in planta. This work sheds light on the genetic and biochemical redundancy of fatty acid elongation in plants

Candida glabrata : a review of its features and resistance

Candida species belong to the normal microbiota of the oral cavity and gastrointestinal and vaginal tracts, and are responsible for several clinical manifestations, from mucocutaneous overgrowth to bloodstream infections. Once believed to be non-pathogenic, Candida glabrata was rapidly blamable for many human diseases. Year after year, these pathological circumstances are more recurrent and problematic to treat, especially when patients reveal any level of immunosuppression. These difficulties arise from the capacity of C. glabrata to form biofilms and also from its high resistance to traditional antifungal therapies. Thus, this review intends to present an excerpt of the biology, epidemiology, and pathology of C. glabrata, and detail an approach to its resistance mechanisms based on studies carried out up to the present.The authors are grateful to strategic project PTDC/SAU-MIC/119069/2010 for the financial support to the research center and for Celia F. Rodrigues' grant

The Arabidopsis cer26 mutant, like the cer2 mutant, is specifically affected in the very long chain fatty acid elongation process

Plant aerial organs are covered by cuticular waxes, which form a hydrophobic crystal layer that mainly serves as a waterproof barrier. Cuticular wax is a complex mixture of very long chain lipids deriving from fatty acids, predominantly of chain lengths from 26 to 34 carbons, which result from acyl-CoA elongase activity. The biochemical mechanism of elongation is well characterized; however, little is known about the specific proteins involved in the elongation of compounds with more than 26 carbons available as precursors of wax synthesis. In this context, we characterized the three Arabidopsis genes of the CER2-like family: CER2, CER26 and CER26-like . Expression pattern analysis showed that the three genes are differentially expressed in an organ- and tissue-specific manner. Using individual TDNA insertion mutants, together with a cer2 cer26 double mutant, we characterized the specific impact of the inactivation of the different genes on cuticular waxes. In particular, whereas the cer2 mutation impaired the production of wax components longer than 28 carbons, the cer26 mutant was found to be affected in the production of wax components longer than 30 carbons. The analysis of the acyl-CoA pool in the respective transgenic lines confirmed that inactivation of both genes specifically affects the fatty acid elongation process beyond 26 carbons. Furthermore, ectopic expression of CER26 in transgenic plants demonstrates that CER26 facilitates the elongation of the very long chain fatty acids of 30 carbons or more, with high tissular and substrate specificity

Plant-microorganisms interactions for quarry revegetalization in Algeria

To face rapid city extension and building demand in Algeria more and more dunes are exploited for sand extraction just behind beaches on the sea border, breaking the whole littoral ecosystem equilibrium. After exploitation damaged landscape, no soil, no plant cover, neighbour fertile soils covered with sand. Our French-Algerian Tassili bilateral project 2010 (CMEP 10MDU791) is devoted to land restoration in two reference quarries in West Algeria. Several research groups, two private companies and Ministry service of quarries and mines are involved for multidisciplinary actions. After local plant occurrence survey, we focused on several adapted legume species, Retama monosperma, Ononis natrix, Ononis natrix ssp ramossissima, Lotus creticus, Calicotome sp. and collected seeds, nodules and roots for further rhizobial and mycorrhizal fungi. Rhizobia were isolated and characterized phenotypically and by 16S sequencing. Roots were observed for qualitative and quantitative mycorrhizal infection. Acacia cyanophylla and some Casuarinaceae spp. tree species such as C. equisetifolia have already been introduced for degraded areas rehabilitation in Algeria. These species are also included in our study. Soil mycorrhizogenous potential is evaluated in a forest adjacent to the quarry, along a degradation gradient. Legume and non-legume candidate species will be evaluated for their effectiveness for nitrogen and phosphorous acquisition, their response to bacterial/fungal inoculation, their growth rate, their ability to persist in the soil after planting, their contribution to soil fertilization. Soil reconstitution and physico-chemical characteristics will be followed in time, especially fixed nitrogen, organic matter and C/N ratio. (Texte intégral

Suspensions cellulaires embryogènes de bananiers et bananiers plantain

This guideline presents two protocols to produce embryogenic cell suspensions by using scalps or immature male flowers. The protocols have been developed by the Laboratory of Tropical Crop Improvement of Katholieke Universiteit Leuven (KULeuven) and the cellular biology laboratory of the Centre de coopération internationale en recherche agronomique pour le développement (Cirad)

Banana and plantain embryogenic cell suspensions

This guideline presents two protocols to produce embryogenic cell suspensions by using scalps or immature male flowers. The protocols have been developed by the Laboratory of Tropical Crop Improvement of Katholieke Universiteit Leuven (KULeuven) and the cellular biology laboratory of the Centre de coopération internationale en recherche agronomique pour le développement (Cirad)

Suspensiones de células embriogénicas de banano y plátano

This guideline presents two protocols to produce embryogenic cell suspensions by using scalps or immature male flowers. The protocols have been developed by the Laboratory of Tropical Crop Improvement of Katholieke Universiteit Leuven (KULeuven) and the cellular biology laboratory of the Centre de coopération internationale en recherche agronomique pour le développement (Cirad)