• 한국토양비료학회지
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• 제49권1호
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• pp.17-29
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• 2016

Though there is an abundant supply of nitrogen in the atmosphere, it cannot be used directly by the biological systems since it has to be combined with the element hydrogen before their incorporation. This process of nitrogen fixation ($N_2$-fixation) may be accomplished either chemically or biologically. Between the two elements, biological nitrogen fixation (BNF) is a microbiological process that converts atmospheric di-nitrogen ($N_2$) into plant-usable form. In this review, the genetics and mechanism of nitrogen fixation including genes responsible for it, their types and role in BNF are discussed in detail. Nitrogen fixation in the different agricultural systems using different methods is discussed to understand the actual rather than the potential $N_2$-fixation procedure. The mechanism by which the diazotrophic bacteria improve plant growth apart from nitrogen fixation such as inhibition of plant ethylene synthesis, improvement of nutrient uptake, stress tolerance enhancement, solubilization of inorganic phosphate and mineralization of organic phosphate is also discussed. Role of diazotrophic bacteria in the enhancement of nitrogen fixation is also dealt with suitable examples. This mini review attempts to address the importance of diazotrophic bacteria in nitrogen fixation and plant growth improvement.

• The Korean Journal of Ecology
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• 제18권3호
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• pp.323-332
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• 1995

Effects of wintering and temperature on nitrogen fixation activity of nodules of Melilotus suaveolens Ledeb. grown in the field and growth chamber conditions were investigated. The biennial plants transfered to the growth chamber from winter field recovered the activity in 3 weeks of incubation and attained the maximum rate of $153{\mu}mol\;C_2H_4{\cdot}g$ fr wt $nodule^{-1}{\cdot}h^{-1}$ in 5 weeks. When root nodules which adapted to different temperatures, were pretreated with 10, 20 and $30^{\circ}C$ for 1 hour, and then transfered to $30^{\circ}C$, nitrogen fixation activity was promoted in the nodules exposed to lower field temperature ($12^{\circ}C$) with 1$0^{\circ}C$ pretreatment. M. suaveolens maintained nitrogen fixation activity in the wide range of temperatures, and was more tolerant to lower temperature than those of other woody leguminous plants, Diurnal changes of nodule activity showed increase with sunrise and decrease with sunset during spring and autumn, but the activity was inhibited during July and August because of high temperature with stron irradiation. Nitrogen fixation activity of annual plant appeared in mid-April, and showed two peaks (104 and 43 mol $C_2H_4{\cdot}g$ fr wt $nodule^{-1}{\cdot}h^{-1}$) in July and September, and then disappeared after October. Nitrogen fixation activity of biennial plant reappeared in mid-March after wintering and attained two peaks (102 and 82 ${\mu}mol\;C_2H_4{\cdot}g$ fr wt $nodule^{-1}{\cdot}h^{-1}$) in April and June of flowering period, and then disappeared after July due to plant withering by severe drought.

• Applied Biological Chemistry
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• 제48권3호
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• pp.189-200
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• 2005

생물학적 질소고정과정의 연구는 학문적으로나 산업적으로 매우 중요한 과정이다. 본 총설에서는 공업적 질소고정과 비교되는 생물학적 질소고정의 특징을 간단히 살펴보고, Azotobacter vinelandii에서 연구되고 있는 생물학적 질소고정효소의 특징을 다룬다. 생물학적 질소고정과정은 다양한 생명체에서 일어나며, 최근에는 미생물인 A. vinelandii에 그 작용 메커니즘에 관한 연구가 집중되어 있다. 공기중의 질소를 암모니아로 변환시키는 질소고정은 화학적으로 환원 반응에 해당하므로 전자의 공급이 필요하다. 생물학적 질소고정을 담당하는 질소고정효소는 촉매반응을 위해 생물학적인 환원력을 사용하여 전자를 공급받아, Fe 단백질의 $Fe_4S_4$ cluster와 MoFe 단백질의 P-cluster를 거쳐 질소 환원 반응이 일어나는 FeMo-cofactor로 전달한다. 이러한 전자전달의 과정과 수소이온의 전달 과정은 질소고정효소의 반응 메커니즘 이해에 매우 중요한 과정이며, FeMo-cofactor와 질소분자의 상호작용은 생물학적 질소고정 메커니즘의 중심에 있다. 질소고정 작용 메커니즘의 연구에는 X-선 단백질 결정학, EPR과 $M{\ddot{u}}ssbauer$ 등의 다양한 분광학적 방법과, 효소의 기질과 저해제의 상호작용을 연구하고 mutant와 비교하는 생화학적 접근방법, 그리고 FeMo-cofactor의 모델 화합물을 합성하여 연구하는 화학적 방법 등이 적용되었다. 이들 분야의 최근 연구결과를 소개하며, 마지막으로, 다양한 연구 결과에 바탕하여 새로운 질소고정효소의 작용 기작이 제안하였다.

• 미생물학회지
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• 제11권2호
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• pp.51-58
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• 1973

Three kinds of organic matter such as glucose, oxalic acid, and ethanol were added to the media(N-free or $NO_{3}$-riched) and their effects on the nitrogen fixation of Nostoc pruniforme were measured by manometric technique through the experiments in vivo. 1) The organic matters used in this experiments showed effective results as a role of substrate for the fixation of atmospheric nitrogen. 2) In the nitrogen-free medium treated with the both of flucose nad ethanol, the highest nitrogen uptakes were detected in the treated of low concentrations (glucose ; 0.1%, 0.5%, ethanol : 0.1%, 0.5%). On the contrary, the highest nitrogen uptakes in $NO_{3}$-riched medium were measured at the treated of high concentrations (glucose ; 2%, 1%, ethanol ; 1.5%, 1.0%). 3) The highest nitrogen uptakes in N-free medium treated with oxalic acid were measured at the concentration of 2% and 1%, respectively. In the medium of $NO_{3}$-riched, the nitrogen uptakes were in the opposite directions.

• The Korean Journal of Ecology
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• 제20권1호
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• pp.35-41
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• 1997

Effects of cadmium on growth and nitrogen fixation activity of Melilotus suaveolens, a biennial legume plant dominating in the area of poor soil were quantitatively analyzed during the growing period. Cadmium treatments of 10, 30 and 100 ppm resulted in 12, 22 and 35% inhibition of plant height and 14, 25 nd 26% reduction of chlorophyll contents of leaves, respectively. The plant biomass reduced 51, 70 and 89% for leaves, 33, 50 and 59% for stems, and 42, 52 and 70% for roots, respectively by 10, 30 and 100 ppm Cd treatments. Cadmium contents of roots treated with 10, 30 and 100 ppm Cd were 62, 112 and 183 folds higher than that of the control, respectively. Cadmium contents of stems were about 1/2.2 of those of roots, but leaves contained only 1/27.8 of those of roots. Cadmium treatments resulted in increase of T/R ratios and decrease of F/C ratios significantly in the later growth period. Nodule formation was reduced to 8% in 42 days by the treatment of 100 ppm Cd. Specific nitrogen fixation activity of nodules attained 61.0, 24.0, 1.6 and 0.7 mol $C_2H_4{\cdot}g$ fr wt $nodule^{-1}{\cdot}h^{-1}$ on 42nd day, respectively for 0, 10. 30 and 100 ppm of Cd treatments. Total amount of nitrogen fixation per plant reduced by 73, 98 and 99% with the treatments of 10, 30 and 100 ppm Cd.

• 한국환경농학회지
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• 제27권4호
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• pp.362-367
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• 2008

The legume-rhizobia symbiosis is an important source of plant growth and nitrogen fixation for many agricultural systems. This study was conducted to investigate the effects of salinity stress on nitrogen fixation and growth of pea (Pisum sativum L.), which has antimutagenic activities against chemical mutagen, inoculated with R. leguminosarum bv. viciae cultured with additional plant-to-rhizobia signal compounds, naringenin (NA,15 uM), methyl-jasmonate (MJ, 50 uM) or both, under greenhouse conditions. Three salinity levels (0.6, 3.0 and $6.0\;dS\;m^{-1}$) were imposed at 3 days after transplanting and maintained through daily irrigations. Addition of signal compounds under non-stress and stress conditions increased dry weight, nodule numbers, leaf area and leaf greenness. The inducers increased photosynthetic rate under non-stress and stress conditions, by approximately 5-20% when compared to that of the non-induced control treatment. Under stress conditions, proline content was less in plants treated with plant-to-bacteria signals than the control, but phenol content was significantly increased, compared to that of the control. The study suggested that pre-incubation of bacterial cells with plant-to-bacteria signals could enhance pea growth, photosynthesis, nitrogen fixation and biomass under salinity stress conditions.

• 한국식물학회:학술대회논문집
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• 한국식물학회 1987년도 식물생명공학 심포지움 논문집 Proceedings of Symposia on Plant Biotechnology
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• pp.81-101
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• 1987

In an attempt to revies the informations about genes involved in symbiotic nitrogen fixation, developmental processes in which host plant interact with microbe during nodule formation were introduced first. The structure, function and regulation of the genes discussed were mainly about microbial genes; those involved in the process of nodule formation (nod-genes) and of nitrogen fixation (nif-genes). Informations about the host genes involved in the symbiosis were discussed briefly.

• The Korean Journal of Ecology
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• 제13권2호
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• pp.93-100
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• 1990

The activity of symbiotic -fixation and environmental factors of Robinia pseudo-acacia L., bearing root nodules, were quantitatively analyzed during the growing period. Among changes of total nitrogen and phosphorus contents of each organ, leaves showed prominent decreases from the highest quantity of the early growing period to the lowest of the late period. The rhizosphere showed acidic pH and low level of nitrogen, phosphorus and organic matter contents during the growing period. -fixation activity of nodules initiated from April and showed the maximum value of 190 $\mu$/g DW/hr in late June and than decreased to 50$\mu$M/g DW/hr during the rainy and dry season. Another peak of the activity attained 246$\mu$M/g DW/hr in the late growing stage of September. The maximum value of nitrogen fixation activity was observed at the conditions of pH7, $25\{\circ}C$ of temperature and 20 Kpa of oxygen partial pressure.

• Environmental Engineering Research
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• 제12권4호
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• pp.136-147
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• 2007

In an effort to identify possible microbes for seeking bioagents for remediation of herbicide-contaminated soils, seven species of phototrophic nonsulfur bacteria (Rhodobacter capsulatus and sphaeroides, Rhodospirillum rubrum, Rhodopseudomonas acidophila, blastica and viridis, Rhodomicrobium vannielii) were grown in the presence of the herbicide, butachlor, and bacterial growth rates and nitrogen fixation were measured with different carbon sources. Under general conditions, all species showed 17-53% reductions in growth rate following butachlor treatment. Under nitrogen-fixing conditions, Rb. capsulatus and Rs. rubrum showed 1-4% increases in the growth rates and 2-10% increases in nitrogen-fixing abilities, while the other 5 species showed decreases of 17-47% and 17-85%, respectively. The finding that Rp. acidophila, Rp. blastica, Rp. viridis and Rm. vannielii showed stronger inhibitions of nitrogenase activity seems to indicate that species in genera Rhodobacter and Rhodospirillum are less influenced by butachlor than those in Rhodopseudomonas and Rhodomicrobium in terms of nitrogen-fixing ability. Overall, nitrogenase activity was closely correlated with both growth rate and glutamine synthetase activity (representing nitrogen metabolism). When the carbon sources were compared, pyruvate (three carbons) was best for all species in terms of growth rate and nitrogen fixation, with malate (four carbons) showing intermediate values and ribose(five carbons) showing the lowest; these trends did not change in response to butachlor treatment. We verified that each of the 7 species had a plasmid ($12.2{\sim}23.5\;Kb$). We found that all 7 species could use butachlor as a sole carbon source and 3 species were controlled by plasmid-born genes, but it is doubtful whether plasmid-born genes were responsible to nitrogen fixation.

• 한국토양비료학회지
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• 제20권3호
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• pp.261-268
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• 1987

논상태(狀態)의 토양(土壤)에서 유기물(有機物)의 종류(種類), 질소비종(窒素肥種) 및 시비량(施肥量)을 달리했을 때 광합성(光合成) 및 타양성질소고정미생물(他養成窒素固定微生物)에 의한 생물학적(生物學的) 질소고정량(窒素固定量)과 Kjeldahl 분석(分析)에 의한 토양중(土壤中) 전질소함량(全窒素含量) 변화차이(變化差異)를 알고저 초자실(硝子室)에서 60일(日) 담수시험(湛水試驗)한 결과(結果)를 요약(要約)하면 다음과 같다. 1. 각종시용유기물중(各種施用有機物中) 탄소(炭素) 1mg당(當) 생물질소(生物窒素) 고정량(固定量)은 glucose 0.13mg, 볏짚 0.09mg, 그리고 양송이 폐상퇴비와 보리짚은 0.07mg이였다. 2. 토양종류(土壤種類)에 따른 질소고정량(窒素固定量)은 질소비종(窒素肥種)에 따라서 상이(相異)했으며 시비량(施肥量)이 증가(增加)할수록 감소(減少)했는데 감소(減少)의 정도(程度)는 유안(硫安)보다 요소시용시(尿素施用時) 현저(顯著)하였다. 3. 광조건별(光條件別) 질소비종(窒素肥種) 및 시비량(施肥量)에 따른 질소고정량(窒素固定量)은 사질토양(砂質土壤)에서 유안(硫安)이 요소(尿素)보다 증가(增加)되었으며 전질소고정량중(全窒素固定量中) 75%는 광합성미생물(光合成微生物)에 의하여 그리고 25%는 타양성질소고정미생물(他養性窒素固定微生物)에 의하여 고정(固定)되었다고 추정(推定)할 수 있었다. 그러나 식질토양(埴質土壤)에서는 광조건(光條件)과 질소비종간(窒素肥種間)에 뚜렷한 차이(差異)는 보이지 않했다. 4. 시험전후토양(試驗前後土壤)의 질소함량(窒素含量)을 보면 사질토양(砂質土壤)은 처리(處理)에 관계(關係)없이 시험후(試驗後) 토양(土壤)의 질소(窒素)가 현저(顯著)히 감소(減少)되었는데 그 정도(程度)는 요소시용구(尿素施用區)의 광차단조건(光遮斷條件)에서 현저(顯著)하였다. 한편 식질토양(埴質土壤)에서 비종간(肥種間)에는 큰차이(差異)를 볼 수 없었으나 광차단조건(光遮斷條件)에서 질소(窒素)의 감소(減少)가 현저(顯著)하였다. 5. Acetylene 환원법(還元法)에 의한 생물질소고정량(生物窒素固定量)과 Kjeldahl 분석(分析)에 의한 전질소함량변화차이(全窒素含量變化差異)는 평균(平均) 6:1의 비율(比率)을 보였다.