利用纤维素分解固氮菌有效降解农业废弃物

Using Cellulolytic Nitrogen Fixing Bacterium, for Effective Degradation of Agricultural Residues.

作者信息

Latt Zaw K, Yu San S, Kyaw Ei P, Lynn Tin M, Nwe May T, Mon Wai W, Aye Kyaw N

机构信息

Biotechnology Research Department, Ministry of Education, Kyaukse, Mandalay Division, 100301, Myanmar.

Department of Chemical Engineering, Yangon Technological University, Yangon, Myanmar.

出版信息

Open Microbiol J. 2018 May 31;12:154-162. doi: 10.2174/1874285801812010154. eCollection 2018.

DOI:10.2174/1874285801812010154

PMID:29997700

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5997855/

Abstract

INTRODUCTION

, a nitrogen-fixing bacterium, was isolated from rhizospheric soil in central Myanmar.

METHODS & MATERIALS: The nitrogen-fixing activity of this bacterium was detected by plate screening method using glucose nitrogen free mineral medium and ammonium test-kit Cellulolytic activity was screened by plat assay and detected by Dinitrosalicyclic acid method (DNS).

RESULTS & DISCUSSION: The isolated grew in media containing 3-12% of NaCl, although the growth became poor when NaCl concentrations increased. Among various carbon sources, sucrose was the best source for ammonium accumulation of this bacterium, whereas arabinose was not the suitable carbon source. Although the nitrogen-fixing activity of was highest after one week incubation, cellulase enzyme production was highest after 2-3 days of incubation. It was observed that cellulase enzyme activity of for cellulose and sodium carboxymethyl cellulose (CMC) was almost the same. Three agricultural wastes were used to detect the cellulase enzyme activity of , cellulase activity was better on filter paper as a substrate when compared to rice-straw and sawdust.

CONCLUSION

So, the isolated has high potential as an effective bacterial strain to use in sustainable agriculture and degradation of some agricultural residues.

摘要

引言

从缅甸中部根际土壤中分离出一种固氮细菌。

方法与材料

采用葡萄糖无氮矿物质培养基平板筛选法和铵检测试剂盒检测该细菌的固氮活性。通过平板测定法筛选纤维素分解活性，并采用二硝基水杨酸法（DNS）进行检测。

结果与讨论

分离出的细菌能在含3%-12%氯化钠的培养基中生长，不过当氯化钠浓度增加时生长变差。在各种碳源中，蔗糖是该细菌积累铵的最佳碳源，而阿拉伯糖不是合适的碳源。虽然该细菌的固氮活性在培养一周后最高，但纤维素酶产量在培养2-3天后最高。观察到该细菌对纤维素和羧甲基纤维素钠（CMC）的纤维素酶活性几乎相同。使用三种农业废弃物检测该细菌的纤维素酶活性，与稻草和锯末相比，以滤纸为底物时纤维素酶活性更好。

结论

因此，分离出的该细菌作为一种有效的菌株在可持续农业和某些农业残留物降解方面具有很高的应用潜力。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/461a/5997855/ccd9df80ba93/TOMICROJ-12-154_F1.jpg

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利用纤维素分解固氮菌有效降解农业废弃物

Using Cellulolytic Nitrogen Fixing Bacterium, for Effective Degradation of Agricultural Residues.

作者信息

机构信息

出版信息

INTRODUCTION

CONCLUSION

引言

方法与材料

结果与讨论

结论

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