Reductive dechlorination of 1,2-dichloroethane and chloroethane by cell suspensions of methanogenic bacteria

Concentrated cell suspensions of methanogenic bacteria reductively dechlorinated 1,2-dichloroethane via two reaction-mechanisms: a dihalo-elimination yielding ethylene and two hydrogenolysis reactions yielding chloroethane and ethane, consecutively. The transformation of chloroethane to ethane was inhibited by 1,2-dichloroethane. Stimulation of methanogenesis caused an increase in the amount of dechlorination products formed, whereas the opposite was found when methane formation was inhibited. Cells of Methanosarcina barkeri grown on H₂/CO₂ converted 1,2-dichloroethane and chloroethane at higher rates than acetate or methanol grown cells.Abbreviations BrES 2-bromoethanesulfonic acid - CA chloroethane - 1,2-DCA 1,2-dichloroethane - F₄₃₀ Ni(II)tetrahydro-(12, 13)-corphin with an uroporphinoid (III) ligand skeleton     

Molecular and genetic characterisation of German families with paramyotonia congenita and demonstration of founder effect in the Ravensberg families

Eighteen German families with a history of paramyotonia congenita (PC) were characterised by genetic und mutational analysis at the SCN4A locus, which encodes the -subunit of the adult skeletal muscle sodium channel. We concentrated our analysis primarily on these families to test the hypothesis that a predominance of one common mutation occurs in all German PC families and that this mutation arose in a common ancestor originating in the North-West of the country. The present eighteen PC families exhibit two different mutations (R1448C and R1448H) on various SCN4A dinucleotide repeat haplotypes and therefore the majority of the mutations probably occurred independently. However, the R1448H mutation is extremely frequent in the North-West of Germany (Ravensberger Land) on a specific SCN4A microsatellite haplotype, indicating a founder effect within this subpopulation. Our results suggest that the R1448C/R1448H mutations are by far the most common to be associated with the PC phenotype in the German population.This paper is dedicated to Professor Dr. Dr. Peter Emil Becker on the occasion of this 85th birthday     

Development of a microtargeting device for particle bombardment of plant meristems

A gene transfer system for meristem cells was developed on the basis of a ballistic approach. In order to meet some important prerequisites for an efficient transfer system, such as for example aiming at small tissues and control of penetration of the microprojectiles, we developed an acceleration system fundamentally different from the usual macroprojectile driven approach. Instead of a macroprojectile, microtargeting uses the law of Bernoulli for accleration of highly uniform-sized gold particles. The system is able to deliver 80% of the particles to an area as small as 150 micron in diameter, which corresponds to the size of a meristem. Microtargeting yields gene delivery (measured as number of transiently GUS expressing cells to up to 3% of the cells exposed in the target area or up to 35 × 10³ cells per cm². Stable transformation of tobacco microcolonies with the microtargeting device was shown to have an efficiency up to one stable transformant per 1000 cells exposed to the shot, or up to one transformant per shot. We perform 4 or 5 shots per min. After 30 to 40 shots, reloading can take up to 2 min. Microtargeting is very flexible and allows for the adjustment of the important parameters to fit the requirements of the respective tissue.     

A sensitive RNase protection assay using33P labeled antisense riboprobes

This article presents for the first time a modified protocol for RNase protection analysis that allows the substitution of³²P with³³P without loss of the high sensitivity of this method achieved with³²P. With this protocol, we were able to detect at least 1 pg of specific mRNA. In the RNase protection analysis³³P labeled riboprobes are more advantageous with regard to an easier handling and better resolution.     

A role for fibronectin-leucine-rich transmembrane cell-surface proteins in homotypic cell adhesion

The fibronectin-leucine-rich transmembrane (FLRT) family of leucine-rich repeat (LRR) proteins is implicated in fibroblast growth factor (FGF) signalling, early embryonic development and neurite outgrowth. Here, we have analysed whether FLRTs may also function in cell adhesion. We find that FLRT proteins can physically interact and that FLRT-transfected cultured cells sort out from non-transfected cells, suggesting a change in adhesive properties. A similar sorting effect is also observed in Xenopus embryos and tissue aggregates. FLRT-mediated cell sorting is calcium dependent and substrate independent. Deletion analysis indicates that cell sorting requires the LRR domains, which are dispensable for FLRT-mediated FGF signalling. Conversely, sorting is independent of the cytoplasmic domain, which is essential for FLRT-induced signalling. Therefore, FLRT-mediated FGF signal transduction and homotypic cell sorting can be molecularly uncoupled. The results indicate that FLRT proteins have a dual role, promoting FGF signalling and modulating homotypic cell adhesion.     

Thallium ions can replace both sodium and potassium ions in the glutamate transporter excitatory amino acid carrier 1

The excitatory amino acid carrier EAAC1 belongs to a family of glutamate transporters that use the electrochemical transmembrane gradients of sodium and potassium to mediate uphill transport of glutamate into the cell. While the sites of cation interaction with EAAC1 are unknown, two cation binding sites were observed in the crystal structure of the bacterial glutamate transporter homologue GltPh. Although occupied by Tl(+) in the crystal structure, these sites were proposed to be Na(+) binding sites. Therefore, we tested whether Tl(+) has the ability to replace Na(+) also in the mammalian transporters. Our data demonstrate that Tl(+) can bind to EAAC1 with high affinity and mediate a host of different functions. Tl(+) can functionally replace potassium when applied to the cytoplasm and can support glutamate transport current. When applied extracellularly, Tl(+) induces some behavior that mimics that of the Na(+)-bound transporter, such as activation of the cation-induced anion conductance and creation of a substrate binding site, but it cannot replace Na(+) in supporting glutamate transport current. Moreover, our data show a differential effect of mutations to two acidic amino acids potentially involved in cation binding (D367 and D454) on Na(+) and Tl(+) affinity. Overall, our results demonstrate that the ability of the glutamate transporters to interact with Tl(+) is conserved between GltPh and a mammalian member of the transporter family. However, in contrast to GltPh, which does not bind K(+), Tl(+) is more efficient in mimicking K(+) than Na(+) when interacting with the mammalian protein.     

Gene transfer to inflorescence and flower meristems using ballistic micro-targeting

Direct gene transfer to floral meristems could contribute to cell-fate mapping, to the study of flower-specific genes and promoters, and to the production of transgenic gametes via the transformation of sporogenic tissues. Despite the wide potential of its applications, direct gene transfer to floral meristems has not been achieved so far because of the lack of suitable technology. We show in this paper that ballistic micro-targeting is the technique of choice for this purpose, and in this way, we were able to transfer genes efficiently into excised wheat immature spikes. Particle size was adjusted for optimal penetration into the L1 and L2 cell layers of the spikes with limited cell damage. Spikes at different developmental stages were shot either with a plasmid containing two genes involved in anthocyanin biosynthesis or with a plasmid bearing the uidA (-glucuronidase) gene. The transient expression of these marker genes was observed in the different developmental stages tested and in cells of both the L1 and the L2 layers. The transient expression of the uidA gene was significantly increased when the sucrose concentration in the culture medium was increased from 0.06 to 0.52 M. At the highest concentration, 100% of the targeted spikes expressed the uidA gene, with an average of 69 blue cells per spike. Twelve days after microtargeting, multicellular sectors showing transgene expression and containing up to 17 cells were found in 85% of the shot immature inflorescences. This indicated that targeted cells survived particle bombardment. Sectors were found in primordia of both vegetative and reproductive organs.     

Human METTL16 is a N6‐methyladenosine (m6A) methyltransferase that targets pre‐mRNAs and various non‐coding RNAs

N⁶‐methyladenosine (m⁶A) is a highly dynamic RNA modification that has recently emerged as a key regulator of gene expression. While many m⁶A modifications are installed by the METTL3–METTL14 complex, others appear to be introduced independently, implying that additional human m⁶A methyltransferases remain to be identified. Using crosslinking and analysis of cDNA (CRAC), we reveal that the putative human m⁶A “writer” protein METTL16 binds to the U6 snRNA and other ncRNAs as well as numerous lncRNAs and pre‐mRNAs. We demonstrate that METTL16 is responsible for N⁶‐methylation of A43 of the U6 snRNA and identify the early U6 biogenesis factors La, LARP7 and the methylphosphate capping enzyme MEPCE as METTL16 interaction partners. Interestingly, A43 lies within an essential ACAGAGA box of U6 that base pairs with 5′ splice sites of pre‐mRNAs during splicing, suggesting that METTL16‐mediated modification of this site plays an important role in splicing regulation. The identification of METTL16 as an active m⁶A methyltransferase in human cells expands our understanding of the mechanisms by which the m⁶A landscape is installed on cellular RNAs.