26 research outputs found
Long-term dynamic patterns and diversity of phytoplankton communities in a large eutrophic river (the case of River Danube, Hungary)
In this paper we present the composition, seasonal dynamics and fluctuations in diversity of the
phytoplankton in the Danube River over 24 years. Weekly samplings were conducted at one section of
the river at Göd, in the 1669 river kilometer segment. The change in the phytoplankton community
structure was analyzed in relation of water temperature and discharge means. Our findings support the
opinion that the Danube is very rich in species, although many of the species are rare and could be
described only as coloring species. Results indicate trends in the phytoplankton abundance, which are
only detectable in long-term studies. By the help of diversity indices we have observed an increase in the
phytoplankton community diversity. With the relevant information, an explanation of the significant
changes in diversity and richness was formed. Our goals were a construction of a solid database of the
phytoplankton, examining the seasonal dynamics of the phytoplankton through a 24 year long study and
to see the most important changing factors of the community. The results of this study are to assist and
help future model developments to predict the phytoplankton seasonal dynamic patterns
NRF2-ome: An integrated web resource to discover protein interaction and regulatory networks of NRF2
NRF2 is the master transcriptional regulator of oxidative and xenobiotic stress responses. NRF2 has important roles in carcinogenesis, inflammation, and neurodegenerative diseases. We developed an online resource, NRF2-ome, to provide an integrated and systems-level database for NRF2. The database contains manually curated and predicted interactions of NRF2 as well as data from external interaction databases. We integrated NRF2 interactome with NRF2 target genes, NRF2 regulating TFs, and miRNAs. We connected NRF2-ome to signaling pathways to allow mapping upstream NRF2 regulatory components that could directly or indirectly influence NRF2 activity totaling 35,967 protein-protein and signaling interactions. The user-friendly website allows researchers without computational background to search, browse, and download the database. The database can be downloaded in SQL, CSV, BioPAX, SBML, PSI-MI, and in a Cytoscape CYS file formats. We illustrated the applicability of the website by suggesting a posttranscriptional negative feedback of NRF2 by MAFG protein and raised the possibility of a connection between NRF2 and the JAK/STAT pathway through STAT1 and STAT3. NRF2-ome can also be used as an evaluation tool to help researchers and drug developers to understand the hidden regulatory mechanisms in the complex network of NRF2. © 2013 Dénes Türei et al
A klímaváltozás közösségökológiai hatásainak elemzései
A klímaváltozás ökológiai hatásainak elemzésével kapcsolatos tudományos eredményeink megközelítési módjukat tekintve az alábbi hat fő csoportba oszthatók:
1. Az elméleti várakozások tisztázása stratégiai modellezéssel.
2. Lehetséges hatások mértékének behatárolása Magyarország vonatkozásában,
földrajzi analógiai megközelítéssel.
3. Nagy monitoring adatbázisok elemzései a már bekövetkezett változási tendenciák
feltárására.
4. Természetközeli populációk és ökoszisztémák várható változásainak elemzése
taktikai modellezéssel és statisztikai elemzésekkel.
5. A klímaváltozás agroökoszisztémákra gyakorolt hatásai
6. Új, hatékony és a korábbiaknál általánosabban használható bioindikátor-rendszer
kidolgozása.
A továbbiakban eredményeinket ezen felosztás szerinti csoportosításban ismertetjük
Fűvetés hatása a parlagfű (Ambrosia artemisiifolia L.) tömegességére egy tiszaalpári fiatal parlagon
A felhagyott szántóföldek regenerációjának elősegítésére egyre növekvő területen alkalmaznak valamilyen gyeprekonstrukciós technikát. Ez gyakran alacsony diverzitású fűmagkeverék vetését jelenti. A vetett füvek között általában kompetitív fajok is vannak, ezek vetése hatékony eszköz lehet a gyomnövények megfékezésére. Vizsgálatainkat egy Tiszaalpárhoz közeli fiatal parlagon végeztük, melyet másodlagos szikes rétek illetve homoki- és lösz- sztyeprétek vesznek körül. A kísérlet során veresnadrág-csenkesz (Festuca pseudovina Hack.), - mely az adott társulásban természetes társulásalkotó lehet - és társulásidegen angolperje (Lolium perenne L.) magokat vetettünk. Megvizsgáltuk, hogy a fűvetés milyen hatással van a szántók felhagyását követően gyakran nagy tömegben megjelenő parlagfű borítására, és összehasonlítottuk a különböző vetések diverzitását. Az eredmények szerint a fűvetés az első két évben visszaszorította parlagfüvet, az angolperje jobban, mint a veresnadrág-csenkesz. Három év után a parlagfű borítása a teljes területen elenyésző volt. A csenkeszes-vetés diverzitása magasabb volt, és szerkezete nem volt erősen hierarchikus, mint az angolperjés kezelésé. Ezért restaurációs célokra inkább a természetes társulásalkotó faj vetését javasoljuk a hagyományos extenzív művelési módok fenntartása mellett
Weed species composition of small-scale farmlands bears a strong crop-related and environmental signature
Weed species loss due to intensive agricultural land use has raised the need to understand how traditional cropland management has sustained a diverse weed flora. We evaluated to what extent cultivation practices and environmental conditions affect the weed species composition of a small-scale farmland mosaic in Central Transylvania (Romania). We recorded the abundance of weed species and 28 environmental, management and site context variables in 299 fields of maize, cereal and stubble. Using redundancy analysis, we revealed 22 variables with significant net effects, which explained 19.2% of the total variation in species composition. Cropland type had the most pronounced effect on weed composition with a clear distinction between cereal crops, cereal stubble and maize crops. Beyond these differences, the environmental context of croplands was a major driver of weed composition, with significant effects of geographic position, altitude, soil parameters (soil pH, texture, salt and humus content, CaCO3, P2O5, K2O, Na and Mg), as well as plot location (edge vs. core position) and surrounding habitat types (arable field, road margin, meadow, fallow, ditch). Performing a variation partitioning for the cropland types one by one, the environmental variables explained most of the variance compared with crop management. In contrast, when all sites were combined across different cropland types, the crop-specific factors were more important in explaining variance in weed community composition
SignaLink 2 - a signaling pathway resource with multi-layered regulatory networks
ABSTRACT: BACKGROUND: Signaling networks in eukaryotes are made up of upstream and downstream subnetworks. The upstream subnetwork contains the intertwined network of signaling pathways, while the downstream regulatory part contains transcription factors and their binding sites on the DNA as well as microRNAs and their mRNA targets. Currently, most signaling and regulatory databases contain only a subsection of this network, making comprehensive analyses highly time-consuming and dependent on specific data handling expertise. The need for detailed mapping of signaling systems is also supported by the fact that several drug development failures were caused by undiscovered cross-talk or regulatory effects of drug targets. We previously created a uniformly curated signaling pathway resource, SignaLink, to facilitate the analysis of pathway cross-talks. Here, we present SignaLink 2, which significantly extends the coverage and applications of its predecessor.Description: We developed a novel concept to integrate and utilize different subsections (i.e., layers) of the signaling network. The multi-layered (onion-like) database structure is made up of signaling pathways, their pathway regulators (e.g., scaffold and endocytotic proteins) and modifier enzymes (e.g., phosphatases, ubiquitin ligases), as well as transcriptional and post-transcriptional regulators of all of these components. The user-friendly website allows the interactive exploration of how each signaling protein is regulated. The customizable download page enables the analysis of any user-specified part of the signaling network. Compared to other signaling resources, distinctive features of SignaLink 2 are the following: 1) it involves experimental data not only from humans but from two invertebrate model organisms, C. elegans and D. melanogaster; 2) combines manual curation with large-scale datasets; 3) provides confidence scores for each interaction; 4) operates a customizable download page with multiple file formats (e.g., BioPAX, Cytoscape, SBML). Non-profit users can access SignaLink 2 free of charge at http://SignaLink.org CONCLUSIONS: With SignaLink 2 as a single resource, users can effectively analyze signaling pathways, scaffold proteins, modifier enzymes, transcription factors and miRNAs that are important in the regulation of signaling processes. This integrated resource allows the systems-level examination of how cross-talks and signaling flow are regulated, as well as provide data for cross-species comparisons and drug discovery analyses
SignaLink 2 - a signaling pathway resource with multi-layered regulatory networks.
BACKGROUND
Signaling networks in eukaryotes are made up of upstream and downstream subnetworks. The upstream subnetwork contains the intertwined network of signaling pathways, while the downstream regulatory part contains transcription factors and their binding sites on the DNA as well as microRNAs and their mRNA targets. Currently, most signaling and regulatory databases contain only a subsection of this network, making comprehensive analyses highly time-consuming and dependent on specific data handling expertise. The need for detailed mapping of signaling systems is also supported by the fact that several drug development failures were caused by undiscovered cross-talk or regulatory effects of drug targets. We previously created a uniformly curated signaling pathway resource, SignaLink, to facilitate the analysis of pathway cross-talks. Here, we present SignaLink 2, which significantly extends the coverage and applications of its predecessor.
DESCRIPTION
We developed a novel concept to integrate and utilize different subsections (i.e., layers) of the signaling network. The multi-layered (onion-like) database structure is made up of signaling pathways, their pathway regulators (e.g., scaffold and endocytotic proteins) and modifier enzymes (e.g., phosphatases, ubiquitin ligases), as well as transcriptional and post-transcriptional regulators of all of these components. The user-friendly website allows the interactive exploration of how each signaling protein is regulated. The customizable download page enables the analysis of any user-specified part of the signaling network. Compared to other signaling resources, distinctive features of SignaLink 2 are the following: 1) it involves experimental data not only from humans but from two invertebrate model organisms, C. elegans and D. melanogaster; 2) combines manual curation with large-scale datasets; 3) provides confidence scores for each interaction; 4) operates a customizable download page with multiple file formats (e.g., BioPAX, Cytoscape, SBML). Non-profit users can access SignaLink 2 free of charge at http://SignaLink.org.
CONCLUSIONS
With SignaLink 2 as a single resource, users can effectively analyze signaling pathways, scaffold proteins, modifier enzymes, transcription factors and miRNAs that are important in the regulation of signaling processes. This integrated resource allows the systems-level examination of how cross-talks and signaling flow are regulated, as well as provide data for cross-species comparisons and drug discovery analyses
Comparative analysis of the relationship between phenological phenomena and meteorological indicators based on insect and plant monitoring
Climate change is one of the biggest environmental problems of the 21st century. The most
sensitive indicators of the effects of the climatic changes are phenological processes of the biota. The
effects of climate change which were observed the earliest are the remarkable changes in the phenology
(i.e. the timing of the phenophases) of the plants and animals, which have been systematically monitored
later. In our research we searched for the answer: which meteorological factors show the strongest
statistical relationships with phenological phenomena based on some chosen plant and insect species (in
case of which large phenological databases are available). Our study was based on two large databases:
one of them is the Lepidoptera database of the Hungarian Plant Protection and Forestry Light Trap
Network, the other one is the Geophytes Phenology Database of the Botanical Garden of Eötvös Loránd
University. In the case of butterflies, statistically defined phenological dates were determined based on
the daily collection data, while in the case of plants, observation data on blooming were available. The
same meteorological indicators were applied for both groups in our study. On the basis of the data series,
analyses of correlation were carried out and a new indicator, the so-called G index was introduced,
summing up the number of correlations which were found to be significant on the different levels of
significance. In our present study we compare the significant meteorological factors and analyse the
differences based on the correlation data on plants and butterflies. Data on butterflies are much more
varied regarding the effectiveness of the meteorological factors