EC:3.2.1.26 - FACTA Search

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Query: EC:3.2.1.26 (invertase)
4,927 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

From field investigation and laboratory analysis, the relationships among soil enzyme activities, vegetation state and soil chemical properties of coal cinder yard in thermal power station were studied. The results showed that vegetation on coal cinder yard was distributed in scattered patch mainly with single species of plant, and herbs were the dominant species. At the same time, the activity of three soil enzymes had a stronger relativity to environment conditions, such as vegetation state and soil chemical properties. The sensitivity of three soil enzymes to environmental stress was in order of urease > sucrase > catalase. The relativity of three soil enzymes to environmental factor was in order of sucrase > urease > catalase. Because of urease being the most susceptible enzyme to environmental conditions, and it was marked or utmost marked interrelated with vegetation state and soil chemical properties, urease activity could be used as an indicator for the reclamation of wasteland.
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PMID:[Relationship among soil enzyme activities, vegetation state, and soil chemical properties of coal cinder yard]. 1272 51

From the open investigation and laboratory analysis, this paper studied the vegetation state and soil enzyme activities of copper tailing yard of Tongguan mountain. The results showed that there were 34 species of natural colonized plants on copper tailing yard, subordinated to 16 families and 33 genera, and regard herbs as principle, and many for 1-2 years old. The main families were compositae (10 species), gramineae (9 species) and legumineceae (2 species). Hippochaete ramosissimum, which belonged to equisetaceae, had and significant dominant. There were some microcoenses such as Hippochaete ramosissimum + Imperata cylindraca community, Cynodon dactylon + Imperata cylindraca community and Phragmites australis community. But, the vegetation on copper tailing yard was distributed in spot piece and scattered mainly with single species. The activities of three soil enzymes had a stronger sensitivity to the vegetation state, and their relativity to the vegetation state was in order of urease > sucrase > catalase. It's suggested that unrease activity could be used as an indicator index for the reclamation of wasteland.
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PMID:[Vegetation state and soil enzyme activities of copper tailing yard on Tongguan mountain]. 1292 35

The main effects of pollutions including acid rain, Cu2+, atrazine and their combined products on the activities of urease, invertin, acid phosphatase and catalase were studied by means of orthogonal test. The results showed that H+ and Cu2+ had significant influence on the activities of four enzymes and the ability of their inhibiting followed the order: H+ > Cu2+. Al3+ and atrazine only had litter effects on the activity of urease and phosphatase, respectively. Furthermore, interaction analysis revealed that Cu2+ -H+ affected on the activity of acid phosphatase significantly and antagonism on invertin and urease, Cu2+ -atrazine only exhibited the synergism on the activity of acid phosphatase. But atrazine-H+ had non-interaction within the investigated concentration range. Among four enzymes, acid phosphatase was the most sensitive one to the contaminations.
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PMID:Effect of organic/inorganic compounds on the enzymes in soil under acid rain stress. 1513 33

The main parameters of growth and glucose oxidase production by the mutant Penicillium funiculosum strains BIM F-15.3, NMM95.132, and 46.1 were studied. The synthesis of extracellular glucose oxidase by these strains was constitutive and occurred following the phase of exponential growth. The mutant strains also synthesized extracellular invertase and cell-associated catalase and glucose oxidase. The syntheses of invertase, the cell-associated enzymes, and extracellular glucose oxidase were found to be maximum between 14 and 18 h, between 48 and 52 h, and by the 96th h of cultivation, respectively. Among the mutants studied, P. funiculosum 46.1 showed the maximal rates of growth and glucose oxidase synthesis.
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PMID:[Growth characteristics and glucose oxidase production by mutant Penicillium funiculosum strains]. 1531 27

One year-old second generation stand and 14 year- and 34 year-old first generation stands in larch plantations were studied at the Maoershan Mt. Experimental Forest Farm. The forestland of these three stands was treated with various fertilizations. The results showed that fertilization could promote or restrain soil enzyme activity and microbial amount with different degrees, and its effect on soil physiological activity was more apparent. The effect of the same fertilization treatments on soil enzyme activity and microbial amount was different at different development stages of the stands. For one year-old stand, the best fertilization scheme was treatment 9, its soil enzyme activities (catalase, proteinase, polyphenoloxidase, urease, and saccharase), total microbial amount, and amount of bacteria, actinomyces and fungus being increased by 413.49%, 22.10%, 20.56%, 220.00%, 49.46%, 238.88%, 247.24%, 106.70%, and 366.67%, respectively, as compared with the control. For 34 year-old stand, the best fertilization scheme was treatment 5, its soil enzyme activities (catalase, proteinase, polyphenoloxidase, urease, and saccharase), total microbial amount, and amount of bacteria and fungus was increased by 30.44%, 16.91%, 0.22%, 43.06%, 124.18%, 119.92%, 87.66%, and 17.57%, respectively in rhizosphere soil, and by 24.55%, 77.01%, 168.62%, 251.85%, 183.33%, 250.0%, 38.24% and 128.57%, respectively in non-rhizosphere soil. For 14 year-old young stand, it needed a proper amount of nitrogen fertilizer and organic mineral fertilizers, and the better fertilization schemes were treatments 2 and 9. The soil enzyme activities (catalase, proteinase, and urease) in treatment 2 was increased by 44.39%, 94.83%, and 4.62%, respectively in rhizosphere soil, and by 13.98%, 10.70% and 129.76%, respectively in non-rhizosphere soil. Total soil microbial amount and the amount of bacteria and fungus in treatment 9 was increased by 176.49%, 266.63%, and 198.04%, respectively in rhizosphere soil, and by 275.56%, 66.67% and 143.75%, respectively in non-rhizosphere soil.
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PMID:[Effect of fertilization on soil enzymes and microbes in Larix gemlinii plantations]. 1536 23

This paper studied the effects of replacing natural secondary broad-leaved forest with Cunninghamia lanceolata plantation in the south, central and upstate areas of subtropical China on the changes of soil chemical and biological properties. The results showed that after replacing with Cunninghamia lanceolata plantation, the total organic carbon (TOC) content in surface soil decreased by 31.51% - 58.24%, and the contents of soil total N and P, pH value, C/N and C/P also decreased to different degree. Soil microbial amount was less than that under natural secondary broad-leaved forest, soil urease, invertase, catalase and dehydrogenase activities decreased, while soil polyphenol oxidase activity increased by 8% - 40%. The respiration rate of Cunninghamia lanceolata soil was 51.15% - 54.48% lower than that of natural secondary broad-leaved forest soil. The correlation between soil TOC and polyphenol oxidase activity was negative (R = - 0.723, n = 18), while those between soil TOC, N, P and other enzyme activities were positive. It could be concluded that replacing natural secondary broad-leaved forest with Cunninghamia lanceolata plantation worsened soil quality, and the loss of soil organic matter in Cunninghamia lanceolata plantation ecosystem might be one of the important factors resulted in the decrease of soil nutrients and enzyme activities.
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PMID:[Effects of replacing natural secondary broad-leaved forest with Cunninghamia lanceolata plantation on soil biological activities]. 1626 50

Correlation and cluster analyses on the enzyme activities and chemical-biological properties of eight red soils showed that soil urease, invertase, phosphatase and catalase activities correlated significantly with soil organic carbon, total nitrogen and total phosphorous. Similar results of soil fertility evaluation were obtained by using soil enzyme activities and by using soil chemical-biological properties, indicating that soil enzyme activity could be used as an index of evaluating red soil fertility. The enzyme activities of fresh soil were generally greater than those of air-dried sample, and more closely correlated with soil fertility.
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PMID:[Relationships between red soil enzyme activity and fertility]. 1626 58

Internal breakdown in mango fruits has become a major concern in recent years. This disorder renders the fruits unfit for human consumption. The overall loss due to this disorder is about 35-55%. Environmental and physiological factors like high temperature, humidity, respiration and low transpiration rates have been attributed to cause spongy tissue due to reduced loss of heat from fruits. Biochemical studies have shown that there is a reduction in pH, total soluble solids, ascorbic acid, total sugars and carotenoids, low reducing and non-reducing sugar contents, lower amylase and invertase activities and high acid and starch content in spongy tissue affected pulp. There are no reports on molecular studies to determine changes in gene expression in these tissues. The present study was conducted using PCR based subtractive hybridization and RNA gel blot analysis of a few selected genes. The latter showed a higher expression of catalase, ubiquitin, alcohol dehydrogenase, coproporphyrinogen oxidase and keratin associated protein. A lower expression of ribosomal gene, fructose bisphosphate aldolase and cysthathionine gamma synthase was also noticed in spongy tissue. Biochemical studies indicated a lower amylase activity and a lower content of the total and reducing sugars in spongy tissue as compared to healthy tissue. Analyses of results indicate that oxidative stress may be one of the causes for formation of spongy tissue, which affects the expression of many genes. The role of these genes in spongy tissue formation is discussed.
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PMID:Cloning and characterization of differentially expressed genes of internal breakdown in mango fruit (Mangifera indica). 1630 21

The study with high yield cotton-wheat double cropping system showed that soil urease, invertase, protease and catalase activities in intercropped cotton field had the same changing trends with those in mono-cultured cotton field, but were significantly higher in intercropped than in mono-cultured cotton rhizosphere and non-rhizosphere at all development stages of cotton. During the intergrowth period of wheat and cotton, soil nutrient contents in intercropped cotton rhizosphere and non-rhizosphere were lower than or had little difference with those in mono-cultured cotton rhizosphere and non-rhizosphere, but became significantly higher after wheat harvested. The changing trends of soil nutrient contents in intercropped cotton field had little difference from those in mono-cultured cotton field, but the nutrient absorption peak appeared late. The soil enzyme activities and nutrient contents were generally higher in rhizosphere than in non-rhizosphere of both intercropped and mono-cultured cotton. Soil nutrient contents had significant (P < 0.05, n = 32) or very significant (P < 0.01, n = 32) correlation with the activities of soil urease, invertase and protease, but had little correlation with soil catalase activity.
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PMID:[Dynamics of soil enzyme activity and nutrient content in intercropped cotton rhizosphere and non-rhizosphere]. 1647 42

The study with pot experiment showed that with increasing Cu concentration, soil urease, invertase, catalase and polyphenol oxidase activities decreased gradually. There was a significant correlation between Cu concentration and soil enzyme activities, with the correlated degree followed the order of invertase > polyphenol oxidase > urease > catalase. Under a fixed Cu concentration, soil enzyme activities changed with time, and the changes were different between high and low Cu concentrations, being increased slightly under low Cu concentration (< 500 mg x kg(-1)), but decreased gradually as Cu concentration increased (500-3000 mg x kg(-1)). Statistical analysis indicated that within the range of test Cu concentrations, the activities of test soil enzymes were significantly different among different Cu concentration (P < 0.01), which was accorded with the seedlings growth status. Soil pH was decreased, while electric conductivity was increased with increasing Cu concentration (500-3000 mg x kg(-1)), but they were increased with time under a fixed Cu concentration, with significant difference among different Cu concentration (P < 0.01) . Soil pH and electric conductivity were highly related to soil enzyme activities, with the order of polyphenol oxidase > invertase > catalase > urease. The test soil enzyme activities could be used as the indices of soil environment quality.
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PMID:[Effects of copper pollution on Trifolium repens growth and soil enzyme activities]. 1651 99

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