215 research outputs found
Water calcium concentration modifies whole-body calcium uptake in sea bream larvae during short-term adaptation to altered salinities
Whole-body calcium uptake was studied in gilthead sea bream larvae (9–83·mg) in response to changing environmental salinity and [Ca2+]. Calcium uptake increased with increased fish size and salinity. Fish
exposed to calcium-enriched, diluted seawater showed increased calcium uptake compared with fish in diluted seawater alone. Calcium uptake was unchanged in Na+-
enriched, diluted seawater. Overall, [Ca2+], and not salinity/osmolarity per se, appears to be the main factor contributing to calcium uptake. By contrast, drinking was
reduced by a decrease in salinity/osmolarity but was little affected by external [Ca2+]. Calculations of the maximum contribution from drinking-associated calcium uptake
showed that it became almost insignificant (less than 10%) through a strong decrease in drinking rate at low salinities (0–8‰). Diluted seawater enriched in calcium to the
concentration present in full-strength seawater (i.e. constant calcium, decreasing salinity) restored intestinal calcium uptake to normal. Extra-intestinal calcium uptake
also benefited from calcium addition but to a lesser extent
Progress in Time-Dependent Density-Functional Theory
The classic density-functional theory (DFT) formalism introduced by
Hohenberg, Kohn, and Sham in the mid-1960s, is based upon the idea that the
complicated N-electron wavefunction can be replaced with the mathematically
simpler 1-electron charge density in electronic struc- ture calculations of the
ground stationary state. As such, ordinary DFT is neither able to treat
time-dependent (TD) problems nor describe excited electronic states. In 1984,
Runge and Gross proved a theorem making TD-DFT formally exact. Information
about electronic excited states may be obtained from this theory through the
linear response (LR) theory formalism. Begin- ning in the mid-1990s, LR-TD-DFT
became increasingly popular for calculating absorption and other spectra of
medium- and large-sized molecules. Its ease of use and relatively good accuracy
has now brought LR-TD-DFT to the forefront for this type of application. As the
number and the diversity of applications of TD-DFT has grown, so too has grown
our understanding of the strengths and weaknesses of the approximate
functionals commonly used for TD-DFT. The objective of this article is to
continue where a previous review of TD-DFT in this series [Annu. Rev. Phys.
Chem. 55: 427 (2004)] left off and highlight some of the problems and solutions
from the point of view of applied physical chemistry. Since doubly-excited
states have a particularly important role to play in bond dissociation and
formation in both thermal and photochemistry, particular emphasis will be
placed upon the problem of going beyond or around the TD-DFT adiabatic
approximation which limits TD-DFT calculations to nominally singly-excited
states. Posted with permission from the Annual Review of Physical Chemistry,
Volume 63 \c{opyright} 2012 by Annual Reviews, http://www.annualreviews.org
Impact of dietary phosphorus on turbot bone mineral density and content
Fish are largely dependent on dietary phosphorus for skeletal development and mineralization. In aquaculture, commercial diets commonly have higher phosphorus concentration than the basal requirements in most fish species to ensure growth and prevent bone mineral disorders. Excessive phosphorus in feeds is harmful for metabolism and results in an increase of wastes in farm effluents, which impact aquatic ecosystems. Previous studies have shown that depletion/excess of dietary phosphorus cause skeletal malformations and reduced/enhanced mineralization in fish. There is scarce information on dietary phosphorus requirements for optimal bone mineralization in species with different types of bone (cellular vs. acellular bone), which is particularly relevant for sustainable aquaculture. Thus, the aim of our study was to analyse the effect of dietary phosphorus concentrations on bone mineralization of turbot, a demersal acellularâ boned fish and valuable aquaculture species. Our results show that the dietary phosphorus concentration did not cause changes to the bone mineral density and the phosphate/calcium concentrations. No apparent skeletal malformations were detected. Additionally, we did not find an altered expression of genes involved in bone mineral metabolism. Taken together, our data show that the phosphorus requirements for optimum growth and bone mineralization in turbot are below those currently used commercially at least for the time period examined: 55â 195Â days postfertilization (dpf).Spanish Economy
and Competitiveness Ministry project AGL2014-52473R and
AGL2017-89648P to JR. PS-B was supported by AGL2014-52473R
and AGL2017-89648P project contracts
Transient Ectopic Overexpression of Agouti-Signalling
While flatfish in the wild exhibit a pronounced countershading of the dorso-ventral pigment pattern, malpigmentation is
commonly observed in reared animals. In fish, the dorso-ventral pigment polarity is achieved because a melanization
inhibition factor (MIF) inhibits melanoblast differentiation and encourages iridophore proliferation in the ventrum. A
previous work of our group suggested that asip1 is the uncharacterized MIF concerned. In order to further support this
hypothesis, we have characterized asip1 mRNAs in both turbot and sole and used deduced peptide alignments to analyze
the evolutionary history of the agouti-family of peptides. The putative asip precursors have the characteristics of a secreted
protein, displaying a putative hydrophobic signal. Processing of the potential signal peptide produces mature proteins that
include an N-terminal region, a basic central domain with a high proportion of lysine residues as well as a proline-rich region
that immediately precedes the C-terminal poly-cysteine domain. The expression of asip1 mRNA in the ventral area was
significantly higher than in the dorsal region. Similarly, the expression of asip1 within the unpigmented patches in the
dorsal skin of pseudoalbino fish was higher than in the pigmented dorsal regions but similar to those levels observed in the
ventral skin. In addition, the injection/electroporation of asip1 capped mRNA in both species induced long term dorsal skin
paling, suggesting the inhibition of the melanogenic pathways. The data suggest that fish asip1 is involved in the dorsalventral
pigment patterning in adult fish, where it induces the regulatory asymmetry involved in precursor differentiation
into mature chromatophore. Adult dorsal pseudoalbinism seems to be the consequence of the expression of normal
developmental pathways in an inaccurate position that results in unbalanced asip1 production levels. This, in turn,
generates a ventral-like differentiation environment in dorsal regions.Publicado
Identification of genes involved in reproduction and lipid pathway metabolism in wild and domesticated shrimps
The aims of this study were to identify genes involved in reproduction and lipid pathway metabolism in Penaeus monodon and correlate their expression with reproductive performance. Samples of the hepatopancreas and ovaries were obtained from a previous study of the reproductive performance of wild and domesticated P. monodon broodstock. Total mRNA from the domesticated broodstock was used to create two next generation sequencing cDNA libraries enabling the identification of 11 orthologs of key genes in reproductive and nutritional metabolic pathways in P. monodon. These were identified from the library of de novo assembled contigs, including the description of 6 newly identified genes. Quantitative RT-PCR of these genes in the hepatopancreas prior to spawning showed that the domesticated mature females significantly showed higher expression of the Pm Elovl4, Pm COX and Pm SUMO genes. The ovaries of domesticated females had a significantly decreased expression of the Pm Elovl4 genes. In the ovaries of newly spawned females, a significant correlation was observed between hepatosomatic index and the expression of Pm FABP and also between total lipid content and the expression of Pm CYP4. Although not significant, the highest levels of correlation were found between relative fecundity and Pm CRP and Pm CYP4 expression, and between hatching rate and Pm Nvd and Pm RXR expression. This study reports the discovery of genes involved in lipid synthesis, steroid biosynthesis and reproduction in P. monodon. These results indicate that genes encoding enzymes involved in lipid metabolism pathways might be potential biomarkers to assess reproductive performance. 
Environmental DNA (eDNA) for monitoring marine mammals: Challenges and opportunities
Monitoring marine mammal populations is essential to permit assessment of
population status as required by both national and international legislation.
Traditional monitoring methods often rely on visual and/or acoustic detections
from vessels and aircraft, but limitations including cost, errors in the detection
of some species and dependence on taxonomic expertise, as well as good
weather and visibility conditions often limit the temporal and spatial scale of
effective, long-term monitoring programs. In recent years, environmental DNA
(eDNA) has emerged as a revolutionary tool for cost-effective, sensitive, noninvasive
species monitoring in both terrestrial and aquatic realms. eDNA is a
rapidly developing field and a growing number of studies have successfully
implemented this approach for the detection and identification of marine
mammals. Here, we review 21 studies published between 2012 and 2021 that
employed eDNA for marine mammal monitoring including single species
detection, biodiversity assessment and genetic characterization. eDNA has
successfully been used to infer species presence (especially useful for rare,
elusive or threatened species) and to characterize the population genetic
structure, although additional research is needed to support the
interpretation of non-detections. Finally, we discuss the challenges and the
opportunities that eDNA could bring to marine mammal monitoring as a
complementary tool to support visual and acoustic methods
Bases moleculares de las malformaciones pigmentarias en peces: implicación en el cultivo del rodaballo (Scophthalmus maximus L.)
In mammals the colour of skin is due to production of eumelanins (brown-black pigments) and pheomelanins (yellow-brownish pigments) in a specific type cell, the melanocytes. In contrast, in fish, pigmentation patternare determine by three different types of cells, melanophores, xantophores and iridophores. However, in both cases the melanogenesis is controlled by a similar mechanism. The α-MSH which stimulate the synthesis of melanin, and the ASP which antogonize its effects. Flounder (Scophthalmus maximus L.) agouti gen was cloned from skin tissue by using RACE-PCR with degenerated oligos. High expression of agouti gene was found in white epidermis areas compared with the black ones. Furthermore, dermal-injection of capped agouti mRNA produced a striking skin lightening. Thus, suggesting a central role of agouti gene in pigmentation pattern control in fish
Identifikation wirksamer Interventionsmaßnahmen zur Stillförderung Eine differenzierende Betrachtung unter Berücksichtigung des sozioökonomischen Status
Breastfeeding is of great relevance for public health on account of the health advantages for mother and child. Nonetheless, the length of breastfeeding in Germany and other countries is significantly shorter than what the WHO recommends. Data on the determinants for the initialisation of breastfeeding as well as the length of breastfeeding was collected, with consideration given to socio-economic status. The goal of this paper is to generate a database that makes it possible to identify effective and target-group specific measures for promoting breastfeeding. For this, three cross-sectional surveys were conducted by computer-assisted-telephone-interviewing. The results confirm the social gradients: Breastfeeding behaviour is formed in the context of living conditions. Breastfeeding complications limit, especially for socially disadvantaged women, the length of breastfeeding significantly and reduce their willingness to breastfeed another child substantially. The target group specificity of the BFHI is not sufficiently pronounced. The results confirm the need for a target-group specific focus for the promotion of breastfeeding
Comparación de la incidencia de malformaciones morfológicas y esqueléticas entre rodaballos (Scophthalmus maximus l.) diploides y triploides
Triploid fish are sterile and can be grown to the desired size without the problems related to reproduction. This is an interesting option
for the marketing of large fish. Triploidy in some species is associated with morphological and skeletal deformations causing changes
in the appearance of the fish and therefore also in their commercial value. This study compared the incidence of morphological and skeletal malformations in two groups of triploid turbot and diploid controls at 6 and 12 months of age. Morphological alterations were
determined from measurements on external photographs of the upper side of the fish, and skeleton alterations were studied through
X-ray photographs. The incidences of morphological and skeletal malformations were not significantly different (p>0.05) between ploidy
in either of the two groups analyzed. These results suggest that triploidy per se does not induce malformations in turbot, although, it is
possible that in some cases the induction treatment can cause these effects
Influence of pump laser fluence on ultrafast structural changes in myoglobin
High-intensity femtosecond pulses from an X-ray free-electron laser enable pump probe experiments for investigating electronic and nuclear changes during light-induced reactions. On time scales ranging from femtoseconds to milliseconds and for a variety of biological systems, time-resolved serial femtosecond crystallography (TR-SFX) has provided detailed structural data for light-induced isomerization, breakage or formation of chemical bonds and electron transfer. However, all ultra-fast TR-SFX studies to date have employed such high pump laser energies that several photons were nominally absorbed per chromophore. As multiphoton absorption may force the protein response into nonphysiological pathways, it is of great concern whether this experimental approach allows valid inferences to be drawn vis-a-vis biologically relevant single-photon-induced reactions. Here we describe ultrafast pump-probe SFX experiments on photodissociation of carboxymyoglobin, showing that different pump laser fluences yield markedly different results. In particular, the dynamics of structural changes and observed indicators of the mechanistically important coherent oscillations of the Fe-CO bond distance (predicted by recent quantum wavepacket dynamics) are seen to depend strongly on pump laser energy. Our results confirm both the feasibility and necessity of performing TR-SFX pump probe experiments in the linear photoexcitation regime. We consider this to be a starting point for reassessing design and interpretation of ultrafast TR-SFX pump probe experiments such that biologically relevant insight emerges
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