蔗糖酶

The enzyme activity in the chrysanthemum alp and couch grass is higher than the one in spruce forest.

总体上看，绣线菊茅草灌丛群落、茅草群落的过氧化氢酶、脲酶和蔗糖酶的酶活性均高于云杉针叶林群落；而云杉针叶林群落的过氧化氢酶活性很高，脲酶和蔗糖酶活性较低。

It was seen that strain 6055 generated three kinds of dextransucrases whose molecular weights were 151 kDa,142kDa and 117kDa,respectively.Among them,the former two ones were found both in supematants and cell wall,while the later was only found in the fermentation liquor.Strain DM 1-2 synthesized two kinds of dextransucrases,and their molecular weights were 183kDa and 142kDa,respectively.The former existed both in cell wall and out of cell,but the later only was located on cell surface.Strain PC 13 produced three kinds of dextransucrases,and their molecular weights were 148kDa, 138kDa and 115kDa,respectively.The former two ones were ectoenzyme while the later was linked to cell.Resembled to strain 6055,strain L4 produced two types of dextransucrases coexisting in supernatants and cell wall with molecular weights of 145 kDa and 136kDa,respectively,but the dextransucrase of 115kDa was only found in free-cells supernatants.

结果显示，菌株6055可产生分子量分别为151kDa、142kDa和117kDa的三种葡聚糖蔗糖酶，其中前两者同时存在于上清液中和细胞表面，而后者只存在于上清液当中；菌株DM1-2可以产生两种葡聚糖蔗糖酶，分子量分别为183kDa和142kDa，前者同时存在于上清液中和细胞表面，而后者仅能存在于细胞表面；菌株PC13可以产生分子量分别为148 kDa、138 kDa和115kDa的三种葡聚糖蔗糖酶，前两者属于胞外酶，而后者与细胞相连；与菌株6055相似，菌株L4可以产生两种同时存在于上清液和细胞表面的葡聚糖蔗糖酶，分子量分别为145 kDa和136kDa，而分子量为115kDa的葡聚糖蔗糖酶只存在于上清液中。

The reducing sugar content of potatoes also increase during the sun drying of grapes and dates, sucrose is converted to d-glucose and d-fructose; accordingly, the color of the dried products is deepened by nonenzymic browning reactions.

马铃薯在冷藏间还原糖含量也会增加。葡萄和海枣在晒干期间，随其内源蔗糖酶活性的不同，会不同程度地使蔗糖转化d-葡萄糖和d-果糖。因此，其干制品的颜色也会因非酶褐变而加深。

The reducing sugar content of potatoes also increase during the sun drying of grapes and dates, sucrose is converted to D-glucose and D-fructose; accordingly, the color of the dried products is deepened by nonenzymic browning reactio .

马铃薯在冷藏间还原糖含量也会增加。葡萄和海枣在晒干期间，随其内源蔗糖酶活性的不同，会不同程度地使蔗糖转化D-葡萄糖和D-果糖。因此，其干制品的颜色也会因非酶褐变而加深。

Among the 5 enzymes, the increase of activity of saccharase was most significant, whose measurements in 0~10 cm soil of 5, 10 and 22 age plantations were 76.80, 167.27 and 261.63 times respectively of the semi-moving sand dune. The soil biological activities in 22-year plantation were already close to that in the natural community.

土壤酶中蔗糖酶的活性增加最为迅速，5、10和22年生群落0~10cm土层中蔗糖酶的活性分别是半流动沙丘的76.80， 167.27和261.63倍。22年生群落的土壤生物活性己接近于天然群落，处于相对稳定的状态。

The activity of Urase and Sucrase in different degradation stages showed significant variance (P.05); the activity of Urase in different soil layers were significant P.

草甸退化使土壤脲酶和蔗糖酶活性出现了显著变化(P.05)，脲酶活性在不同土层间差异显著(P.05)，蔗糖酶没有表现出土体层次性差异；相关分析表明，高寒草甸的土壤酶活性与营养成分含量之间相关不显著。

The Simpson and Shannon-Weiner indices of aquatic plant diversity were both significantly positively correlated with catalase, protease and invertase, and negatively correlated with urase, soil organic matter and total nitrogen. Similarly, soil organic matter and total nitrogen were negatively correlated with catalase, protease and invertase but positively correlated with urase.

植物α多样性指数(辛普森、香浓-维纳指数)与湿地土壤有机质、全氮含量呈负相关，与土壤过氧化氢酶、蛋白酶、蔗糖酶活性呈正相关，与脲酶活性呈负相关；土壤有机质、全氮含量与过氧化氢酶、蛋白酶、蔗糖酶活性呈一致负相关，与脲酶活性则成正相关。

Straw returned to field played a positive role in increasing soil insect communities with the largest contribution, primarily the amounts of individuals and dominant species of macro and meso/micro soil animal, especially Neanuridae and Isotomidae animals individual amounts increased by nearly 10 times.(3) Soil nutrien had a positive correlation with soil bacteria, azotobacter, ammonifying bacteria, cellulose decomposing bacteria and denitrifying bacteria. Straw returned to field could stimulate effective microorganisms growth and population quantity in the soil. The increase of microbe community amount is 15%~44% more than that of CK.(4) Soil nutrien had a positive correlation with soil phosphatase, urease and sucrase activities, and a negative correlation with catalase.

研究发现：(1)长期配施秸秆能提高土壤速效氮、磷、钾含量，平均分别提高15%、48%和22%；(2)配施秸秆对土壤昆虫群落呈正向作用且贡献最大，主要增加了大型、中小型农田土壤动物的个体总数和优势类群数量，尤其是疣跳科和等节跳科动物个体数量增加近10倍；(3)土壤养分与土壤细菌、固氮菌、氨化细菌、纤维分解菌和反硝化细菌呈正相关，秸秆还田激发土壤有益微生物的生长和类群数量，使土壤微生物类群数量比对照增加15%~44%；(4)土壤养分与土壤磷酸酶、脲酶、蔗糖酶活性呈正相关，与过氧化氢酶呈负相关，秸秆还田增强土壤蔗糖酶、磷酸酶和脲酶活性，特别是脲酶和蔗糖酶活性平均提高26.5%。

Comparing with traditional cultivation system (two seasons planting cucumber with fallowing in summer), planting leafy vegetable anti garlic in summer increased the yields of the two crops anti the soil microbial biomass carbon content, total microbial population, and sucrase activity, decreased the amounts of soil nematode and root-knot nematode, and maintained a relative high Shannon-Weaver index. Planting crown daisy, garlic, and spinach in summer increased soil sucrase activity by 8.9%, 89.5%, and 36.9%, and the planting of crown daisy and garlic also increased the Shannon-Weaver index by 7.7% and 9.4%, respectively.

结果表明：夏茬休闲期种植速生叶菜和青蒜增加了土壤微生物量碳含量、微生物总量和蔗糖酶活性，维持了较高的Shannon-Weaver指数，减少了线虫和根结线虫的数量，增加了各茬作物产量，夏茬种植茼蒿、菠菜、青蒜后土壤蔗糖酶活性分别增加了8.9%、36.9%和89.5%，夏茬种植茼蒿和青蒜后Shannon-Weaver指数分别提高了7.7%和9.4%。

Sucrase An enzyme that breaks down sucrose into glucose and fructose.

蔗糖酶：使蔗糖分解成为葡萄糖和果糖的酶。

invertase：转化酶

但由于不同地区的工作者,多是根据各自的习惯方式给众多的酶命名,因此同一酶可能有不同的名字,如催化H2O2水解的过氧化氢酶又称为触酶(catalase);转化酶(invertase)又称蔗糖酶(sucrase);对催化β-酮脂肪酰辅酶A与辅酶A进行基团转移的酶有称为硫解酶(thiolase),

invertase：蔗糖酶

invert sugar 转化糖 | invertase 蔗糖酶 | invertebrates 无脊椎动物

saccharase;sucrase;invertase：蔗糖酶

代状的 saccate;bag-shaped,pouchy | 蔗糖酶 saccharase;sucrase;invertase | 糖酶 saccharidase

sucrase;saccharase;invertase：蔗糖酶

分株 suckering;division | 蔗糖酶 sucrase;saccharase;invertase | 蔗糖 sucrose

saccharase：蔗糖酶

黄土还含有大量活性酵母-过氧化氢酶(过氧化氢酶活性酵母菌可以对造成人体老化的活性氧和过酸化脂质进行还原、分解和解毒作用,是一种对人体有益的生理活性物质). 另外,它还含有除过氧化氢酶之外的苯二酚氧化酶 (Diphenol Oxydase)、蔗糖酶(Saccharase)、蛋白酶(Protease)等酵素.

saccharate：糖质酸盐;蔗糖酸盐

saccharase 转化酶;蔗糖酶 | saccharate 糖质酸盐;蔗糖酸盐 | saccharate cake 糖液滤饼

invertin：蔗糖酶,转化酶

invertible matrix 可逆矩阵 | invertin 蔗糖酶,转化酶 | inverting 换向

invertin：转化酶;蔗糖酶

inverter变換器 | invertin转化酶;蔗糖酶 | inverting转化(的)

sucrase：蔗糖酶

Nakahara等人研究结果证明乌龙茶中含有的多酚类化合物,对葡萄糖苷酶(2一glucosidase)和蔗糖酶(sucrase)具有显著的抑制效果. 因而确认了饮用乌龙茶可以减少或延缓葡萄糖的肠吸收,发挥减肥作用. 日本爱媛大学的奥田拓道教授认为,

sucrase isomaltase：蔗糖酶异麦芽糖酶

140.subsystem interface 子系统接口 | 141.sucrase isomaltase 蔗糖酶异麦芽糖酶 | 142.Sulfur Institute <美国>硫磺学会