Behavior and Impact of Zirconium in the Soil–Plant System: Plant Uptake and Phytotoxicity

Because of the large number of sites they pollute, toxic metals that contaminate terrestrial ecosystems are increasingly of environmental and sanitary concern (Uzu et al. 2010, 2011; Shahid et al. 2011a, b, 2012a). Among such metals is zirconium (Zr), which has the atomic number 40 and is a transition metal that resembles titanium in physical and chemical properties (Zaccone et al. 2008). Zr is widely used in many chemical industry processes and in nuclear reactors (Sandoval et al. 2011; Kamal et al. 2011), owing to its useful properties like hardness, corrosion-resistance and permeable to neutrons (Mushtaq 2012). Hence, the recent increased use of Zr by industry, and the occurrence of the Chernobyl and Fukashima catastrophe have enhanced environmental levels in soil and waters (Yirchenko and Agapkina 1993; Mosulishvili et al. 1994 ; Kruglov et al. 1996)

Molecular basis of the final step of cell division in Streptococcus pneumoniae

Bacterial cell-wall hydrolases must be tightly regulated during bacterial cell division to prevent aberrant cell lysis and to allow final separation of viable daughter cells. In a multidisciplinary work, we disclose the molecular dialogue between the cell-wall hydrolase LytB, wall teichoic acids, and the eukaryotic-like protein kinase StkP in Streptococcus pneumoniae. After characterizing the peptidoglycan recognition mode by the catalytic domain of LytB, we further demonstrate that LytB possesses a modular organization allowing the specific binding to wall teichoic acids and to the protein kinase StkP. Structural and cellular studies notably reveal that the temporal and spatial localization of LytB is governed by the interaction between specific modules of LytB and the final PASTA domain of StkP. Our data collectively provide a comprehensive understanding of how LytB performs final separation of daughter cells and highlights the regulatory role of eukaryotic-like kinases on lytic machineries in the last step of cell division in streptococci.We thank the staff from the ALBA synchrotron facilities for their help during crystallographic data collection. We gratefully thank Pedro Garcia (CIB, Madrid, Spain) for providing us with the plasmid allowing overproduction of GFP-LytB. This work was supported by grants from the CNRS, the University of Lyon, the Agence National de la Recherche (ANR-18-CE11-0017-02 and ANR-19-CE15-0011-01), and the Bettencourt Schueller Foundation to C.G. The work in Spain was supported by grants BFU2017-90030-P and PID2020-115331GB-100 to J.A.H., funded by MCIN/AEI/10.13039/501100011033. The work in the United States was supported by a grant from the National Institutes of Health (GM131685). J.A.H. and C.G. supervised this work and share last authorship.Peer reviewe

Biodisponibilité du cuivre dans la rhizosphère de différentes plantes cultivées. Cas de sols viticoles contaminés par des fongicides

*INRA UMR Science du Sol de Montpellier Diffusion du document : INRA UMR Science du Sol de Montpellier Diplôme : Dr. d'Universit

Fe-deficiency increases Cu acquisition by wheat cropped in a Cu-contaminated vineyard soil

International audienc

Copper bioavailability and rhizosphere pH changes as affected by nitrogen supply for tomato and oilseed rape cropped on an acidic and a calcareous soil

International audienc

Copper bioavailability and extractability as related to chemical properties of contaminated soils from a vine-growing area

34 ref.International audienc