A new look at an old visual system: structure and development of the compound eyes and optic ganglia of the brine shrimp artemia salina linnaeus, 1758 (branchiopoda,anostraca)

Compared to research carried out on decapod crustaceans, the development of the visual system in representatives of the entomostracan crustaceans is poorly understood. However, the structural evolution of the arthropod visual system is an important topic in the new debate on arthropod relationships, and entomostracan crustaceans play a key role in this discussion. Hence, data on structure and ontogeny of the entomostracan visual system are likely to contribute new aspects to our understanding of arthropod phylogeny. Therefore, we explored the proliferation of neuronal stem cells (in vivo incorporation of bromodeoxyuridine) and the developmental expression of synaptic proteins (immunohistochemistry against synapsins) in the developing optic neuropils of the brine shrimp Artemia salina Linnaeus, 1758 (Crustacea, Entomostraca, Branchiopoda, Anostraca) from hatching to adulthood. The morphology of the adult visual system was examined in serial sections of plastic embedded specimens. Our results indicate that the cellular material that gives rise to the visual system (compound eyes and two optic ganglia) is contributed by the mitotic activity of neuronal stem cells that are arranged in three band‐shaped proliferation zones. Synapsin‐like immunoreactivity in the lamina ganglionaris and the medulla externa initiated only after the anlagen of the compound eyes had already formed, suggesting that the emergence of the two optic neuropils lags behind the proliferative action of these stem cells. Neurogenesis in A. salina is compared to similar processes in malacostracan crustaceans and possible phylogenetic implications are discussed. © 2002 Wiley Periodicals, Inc. J Neurobiol 52: 117–132, 2002     

Trends in cation, nitrogen, sulfate and hydrogen ion concentrations in precipitation in the United States and Europe from 1978 to 2010: a new look at an old problem

Industrial emissions of SO₂ and NO_x, resulting in the formation and deposition of sulfuric and nitric acids, affect the health of both terrestrial and aquatic ecosystems. Since the mid-late 20th century, legislation to control acid rain precursors in both Europe and the US has led to significant declines in both SO₄–S and H⁺ in precipitation and streams. However, several authors noted that declines in streamwater SO₄–S did not result in stoichiometric reductions in stream H⁺, and suggested that observed reductions in base cation inputs in precipitation could lessen the effect of air pollution control on improving stream pH. We examined long-term precipitation chemistry (1978–2010) from nearly 30 sites in the US and Europe that are variably affected by acid deposition and that have a variety of industrial and land-use histories to (1) quantify trends in SO₄–S, H⁺, NH₄–N, Ca, and NO₃–N, (2) assess stoichiometry between H⁺ and SO₄–S before and after 1990, and (3) examine regional synchrony of trends. We expected that although the overall efforts of developed countries to reduce air pollution and acid rain by the mid-late 20th century would tend to synchronize precipitation chemistry among regions, geographically varied patterns of fossil fuel use and pollution control measures would produce important asynchronies among European countries and the United States. We also expected that control of particulate versus gaseous emission, along with trends in NH₃ emissions, would be the two most significant factors affecting the stoichiometry between SO₄–S and H⁺. Relationships among H⁺, SO₄–S, NH₄–N, and cations differed markedly between the US and Europe. Controlling for SO₄–S levels, H⁺ in precipitation was significantly lower in Europe than in the US, because (1) alkaline dust loading from the Sahara/Sahel was greater in Europe than the US, and (2) emission of NH₃, which neutralizes acidity upon conversion to NH₄ ⁺, is generally significantly higher in Europe than in the US. Trends in SO₄–S and H⁺ in precipitation were close to stoichometric in the US throughout the period of record, but not in Europe, especially eastern Europe. Ca in precipitation declined significantly before, but not after 1990 in most of the US, but Ca declined in eastern Europe even after 1990. SO₄–S in precipitation was only weakly related to fossil fuel consumption. The stoichiometry of SO₄–S and H⁺ may be explained in part by emission controls, which varied over time and among regions. Control of particulate emissions reduces alkaline particles that neutralize acid precursors as well as S-containing particulates, reducing SO₄–S and Ca more steeply than H⁺, consistent with trends in the northeastern US and Europe before 1990. In contrast, control of gaseous SO₂ emissions results in a stoichiometric relationship between SO₄–S and H⁺, consistent with trends in the US and many western European countries, especially after 1991. However, in many European countries, declining NH₃ emissions contributed to the lack of stoichiometry between SO₄–S and H⁺.Recent reductions in NO_x emissions have also contributed to declines in H⁺ in precipitation. Future changes in precipitation acidity are likely to depend on multiple factors including trends in NO_x and NH₃ emission controls, naturally occurring dust, and fossil fuel use, with significant implications for the health of both terrestrial and aquatic ecosystems.     

From cleavage to primitive streak formation: A complementary normal table and a new look at the first stages of the development of the chick: II. Microscopic anatomy and cell population dynamics

The microscopic anatomy of uterine and freshly laid unincubated and briefly incubated chick germs is described. Special attention is paid to the difference between the three developmental periods involved: cleavage, area pellucida formation, and primary hypoblast formation. During cleavage the cytoplasm of the germinal disc divides into blastomeres, which become constantly smaller, and the subgerminal cavity is formed. The germ is accumulating extensive glycogen reserves for utilization during the next period. The most fascinating period is the formation of the area pellucida, which arises as a result of a polarized cell-shedding process. During this process all the subepithelial cells round up and fall into the subblastodermic cavity, where they assemble beneath the future anterior side of the blastoderm. The cell-shedding process is presumably energy consuming and the glycogen reserves are utilized as cell shedding progresses, starting at the posterior and terminating at the anterior side of the germ. The germ loses about one-fifth of its initial cytoplasmic mass during this process. The formation of the primary hypoblast is again polarized, posterioanteriorly. The onset of the process of polyinvagination takes place concomitantly with the shedding of the last subepithelial cells.     

A review on the stem cell therapy and an introduction to exosomes as a new tool in reproductive medicine

Stem cell therapy and exosome therapy are the two experimental methods that are now at the center of attention. Various types of stem cells, especially mesenchymal stem cells and spermatogonial stem cells have been widely administrated in reproductive medicine. However, due to the limitation of injecting living cells, using their paracrine secretions such as exosomes seems to be a better option. Exosomes show regenerative, pro-angiogenic, anti-apoptotic, anti-inflammatory, anti-hypoxic, and anti-fibrotic characteristics. They can induce cell proliferation, cell viability, migration, oogenesis, spermatogenesis, capacitation, acrosome reaction, and embryonic implantation. Exosomes have shown promising results in regenerative medicine such as liver fibrosis, stroke, cardiac ischemia, and skin injuries. Exosomes have been used to treat reproductive diseases such as erectile dysfunction and primary ovarian insufficiency. However, the study of exosomes in reproductive medicine is limited. In this article, we are going to review some of the researches on the use of stem cells and exosomes in reproductive medicine and suggest administration of a combination of exosomes for alleviating the symptoms of endometriosis and asthenozoospermia based on previous studies.     

An unusual colon atresia in a calf: at the junction of the distal loop and transverse colon. A brief overview

Congenital defects are those abnormalities present at birth. During embryogenesis, many anomalies can occur. The primitive gut tube lengthens quickly and rotates, allowing the gastrointestinal tract acquire its final position and orientation. Because the colon of large animals is complex, most changes occur in this segment. Thus, in ruminants, colon atresia is the most frequent malformation, affecting mainly ascending colon, at the level of the spiral loop. There are no previous references about a very atypical colon atresia at the junction of distal loop and transverse colon, such we have described in a 5-day-old calf, after a history of abdominal distention and absence of feces at birth, even with a patent anal opening. Atresia coli was detected at distal position of the typical colon atresia, at the junction of distal loop and transverse colon. In addition, the distal blind end was bent into a U-shape supported by the mesocolon. Besides the anatomical findings of this worthwhile atresia coli we discuss its possible etiology, in which local factors, such as a compromised blood supply during embryogenesis, are more consistent than genetic factors. Finding out the causes of atresia coli would help to reduce its incidence, lessen animal suffering and economic loss.     

An unusual colon atresia in a calf: at the junction of the distal loop and transverse colon. A brief overview

Congenital defects are those abnormalities present at birth. During embryogenesis, many anomalies can occur. The primitive gut tube lengthens quickly and rotates, allowing the gastrointestinal tract acquire its final position and orientation. Because the colon of large animals is complex, most changes occur in this segment. Thus, in ruminants, colon atresia is the most frequent malformation, affecting mainly ascending colon, at the level of the spiral loop. There are no previous references about a very atypical colon atresia at the junction of distal loop and transverse colon, such we have described in a 5-day-old calf, after a history of abdominal distention and absence of feces at birth, even with a patent anal opening. Atresia coli was detected at distal position of the typical colon atresia, at the junction of distal loop and transverse colon. In addition, the distal blind end was bent into a U-shape supported by the mesocolon. Besides the anatomical findings of this worthwhile atresia coli we discuss its possible etiology, in which local factors, such as a compromised blood supply during embryogenesis, are more consistent than genetic factors. Finding out the causes of atresia coli would help to reduce its incidence, lessen animal suffering and economic loss.     

A new species and three new combinations in Cyphellophora, with a note on the taxonomic affinities of the genus, and its relation to Kumbhamaya and Pseudomicrodochium.

Cyphellophora guyanensis sp. nov., isolated from leaf litter in French Guyana, is described and illustrated. This fungus is characterized by ampulliform to flask-shaped phialides, with a conspicuous, funnel-shaped collarette, and nearly straight to falcate or slightly sigmoid, (2−)3–6 septate conidia. Cyphellophora guyanensis is compared to the other Cyphellophora species, and the latter genus is compared to Kumbhamaya and Pseudomicrodochium. Kumbhamaya indica, P. fusarioides, and P. suttonii are transferred to Cyphellophora. The phylogenetic relationships of Cyphellophora with other genera of ascomycetes and related mitosporic fungi were inferred from the analysis of the partial nuclear ribosomal DNA SSU sequences data. The analysis supports a placement of Cyphellophora in Chaetothyriales, and probably in the Herpotrichiellaceae This revised version was published online in August 2006 with corrections to the Cover Date.     

A novel main-chain anion-binding site in proteins: the nest. A particular combination of phi,psi values in successive residues gives rise to anion-binding sites that occur commonly and are found often at functionally important regions.

Main-chain conformations where one amino acid residue can be described as gamma(R) (or alpha(R)) and an adjacent one as gamma(L) (or alpha(L)) mostly result in the three main-chain NH groups (of the two residues and the one following) forming a depression that can accommodate an atom with a whole or partial negative charge. We propose the name nest for this feature. The negatively charged atom, when present, is also stabilized by hydrogen-bonding with the NH groups. In an average protein, 8 % of residues are involved in a nest. The anion, or partially negatively charged atom, that often occupies the nest may be a main-chain carbonyl oxygen atom as in the paperclip, also called the Schellman loop, and the oxyanion hole of serine proteases. It can be a phosphate group, as in the P-loop superfamily that binds ATP and GTP. Overlapping, compound, nests are observed often, as in the P-loop, which has five successive NH groups that bind the beta phosphate group of nucleotide triphosphate. The longest compound nests are found surrounding cysteine-bound [2Fe2S] and [4Fe4S] iron-sulfur centers, which are also anionic; nests may encourage binding of the more reduced forms. The nest is a novel feature in the sense of not having been described as a unique motif with anion-binding potential before, although some of the situations where it occurs are familiar.