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961.
Grasses and browsers reinforce landscape heterogeneity by excluding trees from ecosystem hotspots 总被引:1,自引:0,他引:1
Spatial heterogeneity in woody cover affects biodiversity and ecosystem function, and may be particularly influential in savanna
ecosystems. Browsing and interactions with herbaceous plants can create and maintain heterogeneity in woody cover, but the
relative importance of these drivers remains unclear, especially when considered across multiple edaphic contexts. In African
savannas, abandoned temporary livestock corrals (bomas) develop into long-term, nutrient-rich ecosystem hotspots with unique
vegetation. In central Kenya, abandoned corral sites persist for decades as treeless ‘glades’ in a wooded matrix. Though glades
are treeless, areas between adjacent glades have higher tree densities than the background savanna or areas near isolated
glades. The mechanisms maintaining these distinctive woody cover patterns remain unclear. We asked whether browsing or interactions
with herbaceous plants help to maintain landscape heterogeneity by differentially impacting young trees in different locations.
We planted the mono-dominant tree species (Acacia drepanolobium) in four locations: inside glades, far from glades, at edges of isolated glades and at edges between adjacent glades. Within
each location, we assessed the separate and combined effects of herbivore exclusion (caging) and herbaceous plant removal
(clearing) on tree survival and growth. Both caging and clearing improved tree survival and growth inside glades. When herbaceous
plants were removed, trees inside glades grew more than trees in other locations, suggesting that glade soils were favorable
for tree growth. Different types of glade edges (isolated vs. non-isolated) did not have significantly different impacts on
tree performance. This represents one of the first field-based experiments testing the separate and interactive effects of
browsing, grass competition and edaphic context on savanna tree performance. Our findings suggest that, by excluding trees
from otherwise favorable sites, both herbaceous plants and herbivores help to maintain functionally important landscape heterogeneity
in African savannas. 相似文献
962.
G protein-coupled receptors (GPCRs) are transmembrane proteins, which transduce signals from extracellular ligands to intracellular
G protein. Automatic classification of GPCRs can provide important information for the development of novel drugs in pharmaceutical
industry. In this paper, we propose an evolutionary approach, GPCR-MPredictor, which combines individual classifiers for predicting
GPCRs. GPCR-MPredictor is a web predictor that can efficiently predict GPCRs at five levels. The first level determines whether
a protein sequence is a GPCR or a non-GPCR. If the predicted sequence is a GPCR, then it is further classified into family,
subfamily, sub-subfamily, and subtype levels. In this work, our aim is to analyze the discriminative power of different feature
extraction and classification strategies in case of GPCRs prediction and then to use an evolutionary ensemble approach for
enhanced prediction performance. Features are extracted using amino acid composition, pseudo amino acid composition, and dipeptide
composition of protein sequences. Different classification approaches, such as k-nearest neighbor (KNN), support vector machine (SVM), probabilistic neural networks (PNN), J48, Adaboost, and Naives Bayes, have been used to classify GPCRs. The proposed hierarchical GA-based ensemble classifier exploits
the prediction results of SVM, KNN, PNN, and J48 at each level. The GA-based ensemble yields an accuracy of 99.75, 92.45, 87.80, 83.57, and 96.17% at the five levels, on
the first dataset. We further perform predictions on a dataset consisting of 8,000 GPCRs at the family, subfamily, and sub-subfamily
level, and on two other datasets of 365 and 167 GPCRs at the second and fourth levels, respectively. In comparison with the
existing methods, the results demonstrate the effectiveness of our proposed GPCR-MPredictor in classifying GPCRs families.
It is accessible at . 相似文献
963.
ABSTRACT: Macroautophagy (commonly abbreviated as autophagy) is an evolutionary conserved lysosome-directed vesicular trafficking pathway in eukaryotic cells that mediates the lysosomal degradation of intracellular components. The cytoplasmic cargo is initially enclosed by a specific double membrane vesicle, termed the autophagosome. By this means, autophagy either helps to remove damaged organelles, long-lived proteins and protein aggregates, or serves as a recycling mechanism for molecular building blocks. Autophagy was once invented by unicellular organisms to compensate the fluctuating external supply of nutrients. In higher eukaryotes, it is strongly enhanced under various stress conditions, such as nutrient and growth factor deprivation or DNA damage. The serine/threonine kinase Atg1 was the first identified autophagy-related gene (ATG) product in yeast. The corresponding nematode homolog UNC-51, however, has additional neuronal functions. Vertebrate genomes finally encode five closely related kinases, of which UNC-51-like kinase 1 (Ulk1) and Ulk2 are both involved in the regulation of autophagy and further neuron-specific vesicular trafficking processes. This review will mainly focus on the vertebrate Ulk1/2-Atg13-FIP200 protein complex, its function in autophagy initiation, its evolutionary descent from the yeast Atg1-Atg13-Atg17 complex, as well as the additional non-autophagic functions of its components. Since the rapid nutrient- and stress-dependent cellular responses are mainly mediated by serine/threonine phosphorylation, it will summarize our current knowledge about the relevant upstream signaling pathways and the altering phosphorylation status within this complex during autophagy induction. 相似文献
964.
965.
Goang-Won Cho Seung Min Shin Hyun Kee Kim Seon-Ah Ha Sanghee Kim Joo-Hee Yoon Soo Young Hur Tae Eung Kim Jin Woo Kim 《BMC cell biology》2007,8(1):50
Background
The Human cervical cancer oncogene (HCCR-1) has been isolated as a human oncoprotein, and has shown strong tumorigenic features. Its potential role in tumorigenesis may result from a negative regulation of the p53 tumor suppressor gene. 相似文献966.
967.
Nam Jin Noh Yowhan Son Rae Hyun Kim Kyung Won Seo Jin Woo Koo In Hyeop Park Young Jin Lee Kyeong Hak Lee Yeong Mo Son 《Journal of Plant Biology》2007,50(4):461-466
Above- and belowground biomass and nitrogen (N) and phosphorus (P) distribution within threeQuercus acutissima stands were investigated in central Korea. The average age (year) and diameter at breast height (DBH, cm) were 10.8 and 7.9
for Stand 1, 38.2 and 17.1 for Stand 2, and 44.0 and 20.7 for Stand 3, respectively. Fifteen trees were destructively harvested
for dimension analysis of component biomass (stem wood, stem bark, foliage, branches, and roots) plus N and P concentrations.
Total biomass (t ha-1) was 88.7 for Stand 1, 154.9 for Stand 2, and 278.1 for Stand 3 while N and P contents in all tree components (kg ha-1) were 483.3 and 52.2, 697.1 and 55.0, and 1113.9 and 83.7. Nitrogen concentrations were highest in the foliage, followed
by the stem bark, branches or roots, and stem wood. In contrast, P concentrations were greatest in the roots, then foliage,
branches, stem bark, and stem wood. In general, N and P concentrations in these components significantly decreased with tree
age and DBH, while N and P contents significantly increased with age and size. These relationships were stronger for size
than for age. Our current data could be utilized to estimate N and P budgets for silvicultural practices, including fertilization,
thinning, and harvesting. 相似文献
968.
Monica R. Canelhas Anne C. Barbosa Adriana O. Medeiros Ching-Fu Lee Li-Yin Huang Marc-André Lachance Carlos A. Rosa 《Antonie van Leeuwenhoek》2011,99(2):241-247
Two novel ascomycetous yeast species, Saturnispora serradocipensis and Saturnispora gosingensis, were isolated from leaf detritus in a tropical stream of Southeastern Brazil and a mushroom collected in Taiwan, respectively.
Analysis of the D1/D2 domains of the large-subunit of the rRNA gene of these strains showed that these species are related
to Saturnispora hagleri, their closest relative. Saturnispora serradocipensis and S. gosingensis differed from S. hagleri, respectively, by seven nucleotide substitutions and two indels and three nucleotide substitutions and three indels in D1/D2
rRNA sequences. The two new species differ from each another by four nucleotide substitutions and one indel in D1/D2 rRNA
sequences. However, the ITS sequences of S. serradocipensis, S. gosingensis and S. hagleri were quite divergent, showing that they are genetically separate species. The type strain of S. serradocipensis is UFMG-DC-198T (=CBS 11756T = NRRL Y-48717T), and of S. gosingensis GA4M05T is (CBS 11755T = NRRL Y-48718T). 相似文献
969.
Plants infected with vertically transmitted fungal endophytes carry their microbial symbionts with them during dispersal into
new areas. Yet, whether seed-borne endophytes enhance the host plant’s ability to overcome colonisation barriers and to regenerate
within invaded sites remains poorly understood. We examined how symbiosis with asexual endophytic fungi (Neotyphodium) affected establishment and seed loss to predators in the invasive annual grass Lolium multiflorum (Italian ryegrass) across contrasting successional plots. Italian ryegrass seeds with high and low endophyte incidence were
sown into three communities: a 1-year-old fallow field, a 15-year-old grassland, and a 24-year-old forest, which conformed
to an old-field chronosequence in the eastern Inland Pampa, Argentina. We found that endophyte infection consistently increased
host population recruitment and reproductive output. Endophyte presence also enhanced aerial biomass production of ryegrass
in a low recruitment year but not in a high recruitment year, suggesting that symbiotic effects on growth performance are
density dependent. Endophyte presence reduced seed removal by rodents, although differential predation may not account for
the increased success of infected grass populations. Overall, there was no statistical evidence for an endophyte-by-site interaction,
indicating that the fungal endosymbiont benefitted host establishment regardless of large differences in biotic and abiotic
environment among communities. Our results imply that hereditary endophytes may increase the chances for host grass species
to pass various ecological filters associated with invasion resistance across a broad range of successional habitats. 相似文献
970.