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71.
72.
Since the invention of the Petri dish, there have been continuous efforts to improve efficiency in microbial cultivation.
These efforts were devoted to the attainment for diverse growth conditions, simulation of in situ conditions and achievement
of high-throughput rates. As a result, prokaryotes catalysing novel redox reactions as well as representatives of abundant,
but not-yet cultured taxa, were isolated. Significant insights into microbial physiology have been made by studying the small
number of prokaryotes already cultured. However, despite these numerous breakthroughs, microbial cultivation is still a low-throughput
process. The main hindrance to cultivation is likely due to the prevailing lack of knowledge on targeted species. In this
review, we focus on the limiting factors surrounding cultivation. We discuss several cultivation obstacles, including the
loss of microbial cell–cell communication following species isolation. Future research directions, including the refinement
of culture media, strategies based on cell–cell communication and high-throughput innovations, are reviewed. We further propose
that a combination of these approaches is urgently required to promote cultivation of uncultured species, thereby dawning
a new era in the field. 相似文献
73.
74.
不同生态稻区覆膜旱作稻氮营养生理及抗逆生理特性探讨 总被引:4,自引:0,他引:4
不同生态稻区生态环境和栽培管理方式不同,覆膜旱作稻氮营养生理和抗逆生理与常规水作稻有些异同,尤其是体内NO3--N和NH4+-N含量及分布差异很大.杭嘉湖平原区覆膜旱作稻生长前期受干热天气影响,其分蘖期、拔节期、孕穗期体内NO3--N含量较水作稻有不同程度的降低,而NH4+-N含量则极显著提高;金衢盆地覆膜旱作稻孕穗期体内NO3--N含量比常规水作稻高,根部NH4+-N含量则显著降低,茎基部和叶片NH4+-N含量有一定增加.正常气候条件下两生态稻区覆膜旱作稻孕穗期叶片硝酸还原酶(NR)活性和谷氨酰胺合成酶(GS)活性较水作稻均有不同程度的提高;丙二醛(MDA)、可溶性糖及脯氨酸(Pro)含量与水作稻相差不大,表明不同生态稻区的覆膜旱作稻可以通过不同的栽培管理模式,促进生长发育,达到高产目的. 相似文献
75.
《Mycoscience》2014,55(5):405-416
Boletus edulis is a well-known ectomycorrhizal mushroom. Although cultivation has been widely attempted, no artificial fruiting has been achieved owing to difficulties associated with mycorrhizal synthesis and acclimatization in fields. We collected fifteen B. edulis basidiomata samples from locations in Japan and identified them microscopically and by phylogenetic analysis of their nuclear ribosomal internal transcribed spacer (ITS) regions. Pure culture isolates of B. edulis were established efficiently on malt extract agar medium, and one isolate, EN-63, was inoculated to axenic Pinus densiflora seedlings in vitro. Brownish ectomycorrhizal tips were observed on the pine lateral roots within four months of inoculation. Ten pine seedlings that formed ectomycorrhizae were acclimatized under laboratory and greenhouse conditions. At four months after transplant, mycorrhizal colonization by B. edulis was observed on newly grown root tips under laboratory conditions, but no B. edulis ectomycorrhiza survived under greenhouse conditions. These results suggest that B. edulis ectomycorrhizae synthesized in vitro with P. densiflora requires additional steps for acclimatization to greenhouse conditions. 相似文献
76.
77.
78.
野生田头菇菌株的驯化及其子实体营养成分分析 总被引:1,自引:0,他引:1
采自湖南洞庭湖大通湖区芦苇湿地的野生菌株,经鉴定为田头菇Agrocybe praecox。通过驯化实现人工栽培,栽培原料以芦苇屑为主,使用液体菌种和覆土栽培方式,初潮菇平均生物转化率为45.6%。营养成分分析表明:以芦苇屑为栽培培养基,子实体中矿物元素含量分别为K(2 190mg/kg)、Fe(16.2mg/kg)、Mg(59.7mg/kg)、Ca(33.4mg/kg),必需氨基酸含量占比高达44.85%,谷氨酸、蛋氨酸、天冬氨酸含量高,是一种高蛋白、低脂肪、高钾低钠的食用菌。 相似文献
79.
微藻具有固定CO2和净化有机废水的能力,在环保、食品饲(饵)料、医药和生物能源开发等领域备受关注,但规模化培养及其产业化仍是研究的难点,亟待解决。就常用于大规模培养微藻的光生物反应器的特点和结构进行了综述。其中,封闭式微藻光生物反应器能够较好地调控藻种的培养条件、不易遭受污染,藻种的纯度容易控制,但培养规模小,生产成本较高;而开放式微藻光生物反应器无法精确控制藻种生长环境,但生产规模大、产量高、生产成本低,因此应用广泛。最佳的方法是综合两者优点,即首先利用封闭式微藻光生物反应器进行中试放大,大量繁殖藻种,然后投入开放式微藻光生物反应器内进行大规模商业生产,此方法有望成为微藻光生物反应器的发展方向,以期为微藻大规模培养提供参考借鉴。 相似文献
80.
Anaerobic cultivation methods of bacteria are indispensable in microbiology. One methodology is to cultivate the microbes in anaerobic enclosure with oxygen-adosrbing chemicals. Here, we report an electronic extension of such strategy for facultative anaerobic bacteria. The technique is based a bioreactor with entire operation including turbidity measurement, fluidic mixing, and gas delivery in an anaerobic enclosure. Wireless data transmission is employed and the anaerobic condition is achieved with gas pack. Although the technique is not meant to completely replace the anaerobic chamber for strict anaerobic bacteria, it provides a convenient way to bypass the cumbersome operation in anaerobic chamber for facultative anaerobic bacteria. Such a cultivation strategy is demonstrated with Escherichia coli with different carbon sources and hydrogen as energy source. 相似文献