568 research outputs found
Solid-in-Oil-in-Water Emulsions for Delivery of Lactase To Control <i>in Vitro</i> Hydrolysis of Lactose in Milk
There is an established
need to deliver lactase in milk to retain
activity during storage and hydrolyze lactose after ingestion. In
this work, spray-dried lactase powder was encapsulated in solid-in-oil-in-water
(S/O/W) emulsions to fabricate delivery systems. The adoption of Span
80 in milk fat and lecithin in protein solution enabled the encapsulation
of ∼76% lactase and <400 nm droplets. Additional cross-linking
of proteins on droplets by transglutaminase and addition of sodium
caseinate effectively reduced the amount of free lactase after spray
drying emulsions. Compared to the data for free lactase, encapsulation
significantly improved the thermal stability of lactase, reduced the
level of lactose hydrolysis during a 14 day refrigeration (from ∼70
to <20%), enabled the gradual release of lactose during the simulated
gastric and intestinal digestions, and resulted in the hydrolysis
of most lactose during the simulated digestions. Therefore, the studied
S/O/W emulsions have the potential to deliver lactase in milk for
lactose-intolerant consumers
Table_1_Global patterns of plant and microbial biomass in response to CO2 fumigation.XLS
IntroductionThe stimulation of plant and microbial growth has been widely observed as a result of elevated CO2 concentrations (eCO2), however, this stimulation could be influenced by various factors and their relative importance remains unclear.MethodsA global meta-analysis was performed using 884 lines of observations collected from published papers, which analyzed the eCO2 impact on plant and microbial biomass.ResultsA significant positive impact of eCO2 was observed on various biomass measures, including aboveground biomass (20.5%), belowground biomass (42.6%), soil microbial biomass (10.4%), fungal biomass (11.0%), and bacterial biomass (9.2%). It was found that eCO2 levels above 200 ppm had a greater impact on plant biomass compared to concentrations at or below 200 ppm. On the other hand, studies showed that positive effects on microbial biomass were more prominent at lower eCO2 levels (≤200 ppm) than at higher levels (>200 ppm), which could be explained by soil nitrogen limitations. Importantly, our results indicated that aboveground biomass was controlled more by climatic and experimental conditions, while soil properties strongly impacted the stimulation of belowground and microbial biomass.DiscussionOur results provided evidence of the eCO2 fertilization effect across various ecosystem types, experimental methods, and climates, and provided a quantitative estimate of plant and soil microbial biomass sensitivity to eCO2. The results obtained in this study suggest that ecosystem models should consider climatic and edaphic factors to more accurately predict the effects of global climate change and their impact on ecosystem functions.</p
Spruce distribution and climate data
Spruce distribution and climate data (LAN, latitude; LON, longitude; AL, altitude) and climatic variables for the 10 spruce taxa. MAT, mean annual air temperature; TCM, mean temperature of the coldest month; TWM, mean temperature of the warmest month; GDD5, growing degree days on a 5˚ C basis; GDD0, growing degree days on a 0˚ C basis; MAP, mean annual precipitation; AET, actual evapotranspiration; PET, potential evapotranspiration; α (AET/PET), aridity index
Sequences used for 10 spruce species in China
Source information and GenBank accession numbers all sequences used for 10 spruce species in China
Crystal Nucleation and Crystal Growth and Mass Transfer in Internally Mixed Sucrose/NaNO<sub>3</sub> Particles
Secondary
organic aerosols (SOA) can exist in a glassy or semisolid
state under low relative humidity (RH) conditions, in which the particles
show nonequilibrium kinetic characteristics with changing ambient
RH. Here, we selected internally mixed sucrose/NaNO<sub>3</sub> droplets
with organic to inorganic molar ratios (OIRs) of 1:8, 1:4, 1:2, and
1:1 as a proxy for multicomponent ambient aerosols to study crystal
nucleation and growth processes and water transport under a highly
viscous state with the combination of an RH-controlling system and
a vacuum Fourier transform infrared (FTIR) spectrometer. The initial
efflorescence RH (ERH) of NaNO<sub>3</sub> decreased from ∼45%
for pure NaNO<sub>3</sub> droplets to ∼38.6 and ∼37.9%
for the 1:8 and 1:4 sucrose/NaNO<sub>3</sub> droplets, respectively,
while no crystallization of NaNO<sub>3</sub> occurred for the 1:2
and 1:1 droplets in the whole RH range. Thus, the addition of sucrose
delayed the ERH and even completely inhibited nucleation of NaNO<sub>3</sub> in the mixed droplets. In addition, the crystal growth of
NaNO<sub>3</sub> was suppressed in the 1:4 and 1:8 droplets most likely
due to the slow diffusion of Na<sup>+</sup> and NO<sub>3</sub><sup>‑</sup> ions at low RH. Water
uptake/release of sucrose/NaNO<sub>3</sub> particles quickly arrived
at equilibrium at high RH, while the hygroscopic process was kinetically
controlled under low RH. The half-time ratio between the liquid water
content and the RH was used to describe the mass transfer behavior.
For the 1:1 droplets, no mass limitation was observed with the ratio
approaching to 1 when the RH was higher than 53%. The ratio increased
1 order of magnitude under an ultraviscous state with RH ranging from
53 to 15% and increased a further 1 order of magnitude at RH <
15% under a glassy state
Extremely Abundant Antimicrobial Peptides Existed in the Skins of Nine Kinds of Chinese Odorous Frogs
Peptide agents are regarded as hopeful candidates to solve life-threatening resistance of pathogenic microorganisms to classic antibiotics due to their unique action mechanisms. Peptidomic and genomic investigation of natural antimicrobial peptides (AMPs) from amphibian skin secretions can provide a large amount of structure–functional information to design peptide antibiotics with therapeutic potential. In the present study, we identified a large number of AMPs from the skins of nine kinds of Chinese odorous frogs. Eighty AMPs were purified from three different odorous frogs and confirmed by peptidomic analysis. Our results indicated that post-translational modification of AMPs rarely happened in odorous frogs. cDNAs encoding precursors of 728 AMPs, including all the precursors of the confirmed 80 native peptides, were cloned from the constructed AMP cDNA libraries of nine Chinese odorous frogs. On the basis of the sequence similarity of deduced mature peptides, these 728 AMPs were grouped into 97 different families in which 71 novel families were identified. Out of these 728 AMPs, 662 AMPs were novel and 28 AMPs were reported previously in other frog species. Our results revealed that identical AMPs were widely distributed in odorous frogs; 49 presently identified AMPs could find their identical molecules in different amphibian species. Purified peptides showed strong antimicrobial activities against 4 tested microbe strains. Twenty-three deduced peptides were synthesized and their bioactivities, including antimicrobial, antioxidant, hemolytic, immunomodulatory and insulin-releasing activities, were evaluated. Our findings demonstrate the extreme diversity of AMPs in amphibian skins and provide plenty of templates to develop novel peptide antibiotics
Extremely Abundant Antimicrobial Peptides Existed in the Skins of Nine Kinds of Chinese Odorous Frogs
Peptide agents are regarded as hopeful candidates to solve life-threatening resistance of pathogenic microorganisms to classic antibiotics due to their unique action mechanisms. Peptidomic and genomic investigation of natural antimicrobial peptides (AMPs) from amphibian skin secretions can provide a large amount of structure–functional information to design peptide antibiotics with therapeutic potential. In the present study, we identified a large number of AMPs from the skins of nine kinds of Chinese odorous frogs. Eighty AMPs were purified from three different odorous frogs and confirmed by peptidomic analysis. Our results indicated that post-translational modification of AMPs rarely happened in odorous frogs. cDNAs encoding precursors of 728 AMPs, including all the precursors of the confirmed 80 native peptides, were cloned from the constructed AMP cDNA libraries of nine Chinese odorous frogs. On the basis of the sequence similarity of deduced mature peptides, these 728 AMPs were grouped into 97 different families in which 71 novel families were identified. Out of these 728 AMPs, 662 AMPs were novel and 28 AMPs were reported previously in other frog species. Our results revealed that identical AMPs were widely distributed in odorous frogs; 49 presently identified AMPs could find their identical molecules in different amphibian species. Purified peptides showed strong antimicrobial activities against 4 tested microbe strains. Twenty-three deduced peptides were synthesized and their bioactivities, including antimicrobial, antioxidant, hemolytic, immunomodulatory and insulin-releasing activities, were evaluated. Our findings demonstrate the extreme diversity of AMPs in amphibian skins and provide plenty of templates to develop novel peptide antibiotics
Extremely Abundant Antimicrobial Peptides Existed in the Skins of Nine Kinds of Chinese Odorous Frogs
Peptide agents are regarded as hopeful candidates to solve life-threatening resistance of pathogenic microorganisms to classic antibiotics due to their unique action mechanisms. Peptidomic and genomic investigation of natural antimicrobial peptides (AMPs) from amphibian skin secretions can provide a large amount of structure–functional information to design peptide antibiotics with therapeutic potential. In the present study, we identified a large number of AMPs from the skins of nine kinds of Chinese odorous frogs. Eighty AMPs were purified from three different odorous frogs and confirmed by peptidomic analysis. Our results indicated that post-translational modification of AMPs rarely happened in odorous frogs. cDNAs encoding precursors of 728 AMPs, including all the precursors of the confirmed 80 native peptides, were cloned from the constructed AMP cDNA libraries of nine Chinese odorous frogs. On the basis of the sequence similarity of deduced mature peptides, these 728 AMPs were grouped into 97 different families in which 71 novel families were identified. Out of these 728 AMPs, 662 AMPs were novel and 28 AMPs were reported previously in other frog species. Our results revealed that identical AMPs were widely distributed in odorous frogs; 49 presently identified AMPs could find their identical molecules in different amphibian species. Purified peptides showed strong antimicrobial activities against 4 tested microbe strains. Twenty-three deduced peptides were synthesized and their bioactivities, including antimicrobial, antioxidant, hemolytic, immunomodulatory and insulin-releasing activities, were evaluated. Our findings demonstrate the extreme diversity of AMPs in amphibian skins and provide plenty of templates to develop novel peptide antibiotics
The numerical verification of (21), the expectation of in Theorem 1.
<p>The number of samples is chose as . In the vertically up direction, is decreasing following respectively; whereas corresponds to a increasing trend in the horizontally right direction, following respectively. It shows a good agreement between the simulation result (circles) and the theoretical computation (solid lines) in each subplot. As a reference, the contamination-free version (49) is also posted together (see dashed curves).</p
DataSheet_1_Decadal intensified and slantwise Subpolar Front in the Japan/East Sea.zip
The Subpolar Front in the Japan/East Sea (JES) could far-reaching influence the atmospheric processes over the downstream regions. However its variability on decadal timescale remains less understood. In this study, the decadal trends in the intensity and position of the SPF in the JES during the time period 1985−2020 are analyzed by using four categories of satellite observed high-resolution sea surface temperature products. The results show that there is a significant intensification trend of the SPF at a rate of 0.37°C/100km/decade. The SPF is further divided into three regions based on the meridional sea surface temperature gradient (MSSTG): the eastern (135−138°E), central (130−135°E) and western (128−130°E) regions, respectively. These three regions showed different meridional movements with the eastern SPF moving poleward by 0.08°/decade, the central SPF moving equatorward by −0.11°/decade and the western SPF showing no significant displacements. The reverse meridional movements between the central and eastern SPF increased its skewness. The frontogenesis rate equation is employed to identify the mechanisms of these decadal trends. Results show that the geostrophic advection term, especially its zonal component, had a crucial role in the decadal trends of the intensity and position of the central and eastern SPF. The decadal trend of the central SPF was mainly attributed to the zonal geostrophic advection of the MSSTG associated with the enhancement of the Subpolar Front Current (SFC) in the upstream region, whereas the decadal trend in the eastern SPF was mainly driven by the zonal geostrophic shear advection controlled by the shear of the SFC in the downstream region. Before 2002, the eastern SPF moved poleward at a rate of 0.27°/decade, whereas there was no obvious trend after 2002. Further decomposition showed that this shift was caused by meridional Ekman advection of the MSSTG.</p
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