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41.
Fungal N2O production results from a respiratory denitrification that reduces NO3−/NO2− in response to the oxidation of an electron donor, often organic C. Despite similar heterotrophic nature, fungal denitrifiers may differ from bacterial ones in exploiting diverse resources. We hypothesized that complex C compounds and substances could favor the growth of fungi over bacteria, and thereby leading to fungal dominance for soil N2O emissions. Effects of substrate quality on fungal and bacterial N2O production were, therefore, examined in a 44-d incubation after soils were amended with four different substrates, i.e., glucose, cellulose, winter pea, and switchgrass at 2 mg C g−1 soil. During periodic measurements of soil N2O fluxes at 80% soil water-filled pore space and with the supply of KNO3, substrate treatments were further subjected to four antibiotic treatments, i.e., no antibiotics or soil addition of streptomycin, cycloheximide or both so that fungal and bacterial N2O production could be separated. Up to d 8 when antibiotic inhibition on substrate-induced microbial activity and/or growth was still detectable, bacterial N2O production was generally greater in glucose- than in cellulose-amended soils and also in winter pea- than in switchgrass-amended soils. In contrast, fungal N2O production was more enhanced in soils amended with cellulose than with glucose. Therefore, fungal-to-bacterial contribution ratios were greater in complex than in simple C substrates. These ratios were positively correlated with fungal-to-bacterial activity ratios, i.e., CO2 production ratios, suggesting that substrate-associated fungal or bacterial preferential activity and/or growth might be the cause. Considering substrate depletion over time and thereby becoming limited for microbial N2O production, measurements of soil N2O fluxes were also carried out with additional supply of glucose, irrespective of different substrate treatments. This measurement condition might lead to potentially high rates of fungal and bacterial N2O production. As expected, bacterial N2O production was greater with added glucose than with added cellulose on d 4 and d 8. However, this pattern was broken on d 28, with bacterial N2O production lower with added glucose than with added cellulose. In contrast, plant residue impacts on soil N2O fluxes were consistent over 44-d, with greater bacterial contribution, lower fungal contribution, and thus lower fungal-to-bacterial contribution ratios in winter pea- than in switchgrass-amended soils. Real-time PCR analysis also demonstrated that the ratios of 16S rDNA to ITS and the copy numbers of bacterial denitrifying genes were greater in winter pea- than in switchgrass-amended soils. Despite some inconsistency found on the impacts of cellulose versus glucose on fungal and bacterial leading roles for N2O production, the results generally supported the working hypothesis that complex substrates promoted fungal dominance for soil N2O emissions. 相似文献
42.
泛素结合酶(E2s)促进底物泛素化或者与E3s链接,是靶蛋白泛素化的关键酶,在泛素-蛋白酶体途径中起重要作用。利用可可(Theobroma cacao L.)全基因组测序数据,共鉴定出45个E2s基因家族成员,包括39个UBC和6个UEV基因。通过生物信息学方法,对可可E2s家族的基本理化性质、基因结构、二级结构预测、亚细胞定位、进化关系等方面进行初步分析。结果表明:可可E2s基因CDS长度在441(Tc UEV3)~3 651 bp(Tc UBC7)之间,对应的编码蛋白氨基酸数目在146(Tc UEV3)~1 216 aa(Tc UBC7)之间,编码蛋白分子量在16.39~134.71 ku之间。E2s基因外显子在1~11之间,多数基因外显子数目在5~7之间。E2s基因在10条染色体上均有分布,1号染色体为7个,数量最多;6号染色体2个基因,数量最少。可可E2s蛋白大多为不稳定蛋白,且均为亲水性蛋白,其二级结构以α-螺旋和无规则卷曲为主要构成元件。大多数可可E2s蛋白定位在细胞核,少数定位在内质网或者细胞质。进化树分析表明:可可E2s蛋白被分为20个亚家族,包括16个UBC亚家族和4个UEV亚家族,第Ⅵ亚家族E2s数目最多为9个;E2s家族蛋白在物种进化过程中具有高度保守性。 相似文献
43.
44.
Qiaojian Wang Jinyan Mu Changjuan Shan Weiyan Wang 《The Journal of Horticultural Science and Biotechnology》2017,92(6):630-635
To study the role of cerium (Ce) in regulating the vase life of Rosa chinensis Jacq. cut flowers, the effects of cerium nitrate (Ce(NO3)3) on the activities of antioxidant enzymes, the contents of malondialdehyde (MDA) and hydrogen peroxide (H2O2) in the petals, and the contents of chlorophyll a, chlorophyll b and carotenoids in the calyces were investigated. The results showed that Ce(NO3)3 evidently enhanced the activities of peroxidase (POD), catalase (CAT), superoxide dismutase (SOD), ascorbate peroxidase (APX), glutathione reductase (GR), glutathione S-transferase (GST) and glutathione peroxidase (GPX), and evidently decreased the contents of MDA and H2O2 in the petals, compared with the control. Moreover, Ce(NO3)3 evidently increased the contents of chlorophyll a, chlorophyll b and carotenoids in the calyces. The results also showed that Ce(NO3)3 evidently increased the numbers of open flowers and decreased the numbers of wilted flowers. Our results suggest that Ce(NO3)3 extended the vase life of R. chinensis Jacq. cut flower by improving the antioxidant defence system in the petals and the contents of pigments in the calyces. 相似文献
45.
以番茄(Solanum lycopericum)超表达桃SnRK1(蔗糖非发酵蛋白激酶–1)基因PpSnRK1α的株系及野生型为试材,研究在养分供应不足时SnRK1对植株生长的影响。结果表明,低营养条件下,转基因番茄叶片和根系中的Sn RK1酶活性比野生型高41.55%和39.46%;功能叶片的净光合速率平均比野生型高18.98%;低营养胁迫12 d的叶片SOD、POD、CAT活性比野生型高35.56%、28.85%和14.90%;根系活力比野生型高26.39%;茎和叶中氮磷含量显著高于野生型,钾含量两者差别不大,在根系中氮磷含量差别不大,而钾含量显著高于野生型,且氮素向地上部茎和叶中的分配比率增加。上述结果说明,在营养缺乏条件下,超表达PpSnRK1α可以提高番茄功能叶净光合速率,促进植株对氮素的吸收利用,从而延缓叶片衰老。 相似文献
46.
为了探讨大豆活性肽对仔猪生长性能、血液指标及氧化应激参数的影响,试验选取仔猪48头,随机分为2组,每组设3个重复,每重复8头。对照组饲喂基础日粮,试验组饲喂用大豆活性肽替代2%豆粕的日粮。结果:添加2%大豆活性肽,20 d时,显著提高了仔猪粗脂肪、粗蛋白的消化率(P<0.05);血清总蛋白(TP)、血清白蛋白(ALB)和碱性磷酸酶(ALP)水平略高于对照组;50 d时,大豆活性肽显著提高了仔猪干物质、粗灰分、粗脂肪、粗蛋白、粗纤维的消化率(P<0.05),而且总抗氧化能力(T-AOC)、超氧化物歧化酶(SOD)活性及TP水平显著高于对照组(P<0.05);全程试验组日增重均显著的高于对照组,料重比、腹泻率显著低于对照组(P<0.05),然而对尿素氮(BUN)和甘油三脂(TG)影响不明显。 相似文献
47.
本科酶工程课程教学实践与体会 总被引:1,自引:0,他引:1
酶工程是高校生物工程和生物技术专业重要的专业课。结合课程教学实践,总结了酶工程教学过程中的几点体会,以提高酶工程教学质量,达到学生综合能力的培养目的。 相似文献
48.
利用纤维素琼脂选择培养基和刚果红染色方法,从不同来源的土样中分离出2个菌株,测定了其纤维素酶活性、小麦秸秆降解能力,并对纤维素降解能力强的两个菌株进行了分子鉴定。结果表明,两株高效纤维素分解菌在纤维素刚果红培养基上均能形成透明水解圈,利用16S r RNA序列测序并分析Genbank中的同源性,结合形态和理化性质确定为Bacillus thuringiensis和Bacillus anthracis。在37℃,p H为7的条件下测定了纤维素酶活力,SC1-3和XR2-5-4分别为1.41和1.59。这两株37℃下经15 d后小麦秸秆失重率达19.92%和22.83%。 相似文献
49.
50.
柳蛎盾蚧危害与丁香防御蛋白活力的关系 总被引:1,自引:0,他引:1
在柳蛎盾蚧的未危害期(5月末)、危害盛期(6月末)、危害弱期(7月末)、危害末期(8月末),测定高抗类[什锦丁香等7种(品种)]、中抗类[西南丁香等3种(品种)]、易感类[紫丁香等2种]、高感类(红丁香)13种(品种)丁香叶中的POD,SOD,CAT,PPO,PAL,TI和CI 7种防御蛋白的活性.结果表明:危害时期,丁香种(品种)对丁香防御蛋白活力有极显著影响(P<0.01).POD活性,在危害盛期,在高抗、中抗类丁香中均显著升高(P<0.05),而在易感、高感类中应激滞后,即分别在危害弱期和危害末期升高.CAT在易感类和高感类丁香防御上起主导作用,其活性在危害盛期显著升高,而中抗和高抗类未见明显变化.SOD活性,在危害盛期高抗类丁香中无显著变化,而其余3类则显著降低.PPO活性在未危害期的高低与抗性相关,在虫害盛期诱导表达的强弱也与抗性相关;PAL活性未能反映抗性品种间的差异.TI和CI活性,在未危害期的高低与其抗虫性无明显相关性,在危害盛期的升高幅度与抗虫性呈正相关.综上所述,PPO在未危害期的活力可作为筛选丁香抗虫种(品种)的指标,危害盛期POD,PPO,TI和CI活性升高的幅度与丁香抗虫性呈正相关. 相似文献