Comment on Altaba (2015): a case of species misidentification?

Previously in this journal, Altaba (2015) presented an original hypothesis on the dispersal of small wetland snails in Central Europe after the Last Glacial Maximum, based on the discovery of rare species of the genus Vallonia at the foot of the Devín Hill (Slovakia). On the basis of the evidence available to us, it is our opinion that the existence of Vallonia declivis, Vallonia suevica, Vallonia enniensis, and Vallonia tenuilabris at Devín Gate has not been established, and that the hypothesis advanced in Altaba (2015) is therefore unsubstantiated by hard evidence.     

Resolving the ‘nitrogen paradox’ of arbuscular mycorrhizas: fertilization with organic matter brings considerable benefits for plant nutrition and growth

Arbuscular mycorrhizal fungi (AMF) can transfer nitrogen (N) to host plants, but the ecological relevance is debated, as total plant N and biomass do not generally increase. The extent to which the symbiosis is mutually beneficial is thought to rely on the stoichiometry of N, phosphorus (P) and carbon (C) availability. While inorganic N fertilization has been shown to elicit strong mutualism, characterized by improved plant and fungal growth and mineral nutrition, similar responses following organic N addition are lacking. Using a compartmented microcosm experiment, we determined the significance to a mycorrhizal plant of placing a ¹⁵N‐labelled, nitrogen‐rich patch of organic matter in a compartment to which only AMF hyphae had access. Control microcosms denied AMF hyphal access to the patch compartment. When permitted access to the patch compartment, the fungus proliferated extensively in the patch and transferred substantial quantities of N to the plant. Moreover, our data demonstrate that allowing hyphal access to an organic matter patch enhanced total plant N and P contents, with a simultaneous and substantial increase in plant biomass. Furthermore, we demonstrate that organic matter fertilization of arbuscular mycorrhizal plants can foster a mutually beneficial symbiosis based on nitrogen transfer, a phenomenon previously thought irrelevant.     

<Superscript>1</Superscript>H, <Superscript>15</Superscript>N and <Superscript>13</Superscript>C backbone and side chain resonance assignments of the RRM domain from human RBM24

Tissue development requires the expression of a regulated subset of genes, and it is becoming clear that the process of alternative splicing also plays an important role in the production of necessary tissue-specific isoforms. However, only a few of these tissue-specific splicing factors in mammals have so far been discovered. One of these factors is the RNA-binding protein RBM24 which has been recently identified as a major regulator of alternative splicing in cardiac and skeletal muscle development. The RBM24 protein contains an RNA recognition motif (RRM) domain that presumably mediates the binding to target pre-mRNA required for regulation of the splicing patterns. Here we report ¹H, ¹⁵N and ¹³C chemical shift assignments of the backbone and sidechain atoms for the RRM domain from human RBM24. Secondary chemical shift analysis and relaxation measurement confirm the canonical architecture of the RRM domain. The data will allow for atomic level studies aimed at understanding splicing regulation of target genes in heart and muscle development and investigation into a separate role of RBM24 in modulating mRNA stability of genes involved in the p53 tumor suppressor pathway.     

Effect of exogenous estrone sulfate on embryonic survival during asynchronous transfers in the pig

The effect of exogenous estrone sulfate (5 mg/day for 10 consecutive days starting on Day 10 after mating) on survival of embryos during asynchronous transfers was studied in Large White x Landrace gilts. Superinduction transfers were conducted by placing Day 4 embryos (younger) into mated Day-5 recipients (older) and vice versa. Treatment with estrone sulfate improved embryo survival in the transfer of younger embryos to recipients with a more developed uterine environment, but it did not affect the survival rate of older embryos in pregnant recipients. The results of the study also showed that when older embryos were transferred to a less developed uterine environment with or without estrone sulfate treatment they were better able to survine than younger embryos transferred to a more developed uterine environment.     

The role of the myoblasts and connective tissue in the regeneration of the limbs in amphibians

A possibility of tissue metaplasia (transformation of one cell type into another) during limb regeneration in lower vertebrates has been a matter of vivid arguments over the last decades. These discussions are rather irreconcilable in character mainly due to the lack of reliable cell markers which permit to follow all the stages of cell transformation during metaplasia. The final conclusions can be made only if any artifacts of cell labelling are excluded. Latest findings obtained using nuclear and cytoplasmic markers are presented which suggest that many data interpreted previously as a convincing proof of metaplasia may be a consequence of the involvement of nondifferentiated cells in regeneration. Molecular biological approaches are believed to be most promising for the solution of disputable problems of tissue metaplasia. However, recent findings about actin gene hypomethylation are insufficient for any final conclusions about the possibility of metaplasia during limb regeneration. The answer to many unsolved questions of developmental biology can be made only when combined use is made of modern methods of cell and molecular biology.