1株稠油降粘菌BIT-BS002的性质研究与矿场应用

从辽河油田稠油样品中筛选出1株高产生物表面活性剂的菌株。经形态观察、生理生化性质测试以及16S rDNA序列分析,鉴定为枯草芽胞杆菌(Bacillus subitlis),并命名为BIT-BS002。通过薄层色谱和红外光谱分析确定该菌所产生物表面活性剂为一种环脂肽类物质。该菌在50℃条件下培养24 h后可使发酵液表面张力由54.88 mN/m降至26.99 mN/m,同时对煤油和液体石蜡的乳化率分别为100%和94%。室内评价结果表明,菌株BIT-BS002对辽河油田稠油的降粘率达到81.93%,驱油效率可在水驱基础上提高14.75%。矿场试验进一步表明菌株BIT-BS002增油效率显著,单井吞吐井试可提高产量达施工前的3.86倍。     

Comparative study on the efficacy of neemix and basil oil formulations on the cowpea aphid Aphis craccivora Koch

Both neemix and basil oil had an insecticidal effect against Aphis craccivora Koch when the plant was treated systematically or by contact. The tested compounds caused a significant reduction in fecundity, longevity and the natal period. In addition, neemix and basil oil had a toxic effect on the adult stage of the pest, which was more clear for basil oil than neemix, since the cumulative percent morality reached 100% in all tested concentrations after 7 days for basil treatment and after 8 days for neemix oil treatment, while the mortality did not exceed 36% for the control. The two tested oils also had an antifeedant and aphicidal effect on the nymphal stage, since they caused prolongation of the nymphal duration, high percentage of mortality and only a few young ones can be succeeded to reach to the adult stage. The correlation between the biological effects of the tested compounds and the impairment of the activity of some enzymes (acid phosphatase and alkaline phosphatase) and (aspartate aminotranferase and alanine aminotransferase) as well as protein contents had also been investigated. The results clarified a significant reduction in all the tested enzymes and were more pronounced for basil oil treatment than neemix. This explained the reduction in the reproductive potency of A. craccivora Koch. Concerning the side effect of the tested compounds on faba bean plants, the results indicated that the treatment induced promising effect on the antioxidant enzymes activity (superoxide dismutase, catalase, peroxidase and polyphenol oxidase) of the plants which were treated with basil oil and neemix.     

Anaerobic co-reduction of chromate and nitrate by bacterial cultures of Staphylococcus epidermidis L-02

Industrial wastewater is often polluted by Cr(VI) compounds, presenting a serious environmental problem. This study addresses the removal of toxic, mutagenic Cr(VI) by means of microbial reduction to Cr(III), which can then be precipitated as oxides or hydroxides and extracted from the aquatic system. A strain of Staphylococcus epidermidis L-02 was isolated from a bacterial consortium used for the remediation of a chromate-contaminated constructed wetland system. This strain reduced Cr(VI) by using pyruvate as an electron donor under anaerobic conditions. The aims of the present study were to investigate the specific rate of Cr(VI) reduction by the strain L-02, the effects of chromate and nitrate (available as electron acceptors) on the strain, and the interference of chromate and nitrate reduction processes. The presence of Cr(VI) decreased the growth rate of the bacterium. Chromate and nitrate reduction did not occur under sterile conditions but was observed during tests with the strain L-02. The presence of nitrate increased both the specific Cr(VI) reduction rate and the cell number. Under denitrifying conditions, Cr(VI) reduction was not inhibited by nitrite, which was produced during nitrate reduction. The average specific rate of chromate reduction reached 4.4 μmol Cr 10¹⁰ cells⁻¹ h⁻¹, but was only 2.0 μmol Cr 10¹⁰ cells⁻¹ h⁻¹ at 20 °C. The maximum specific rate was as high as 8.8–9.8 μmol Cr 10¹⁰ cells⁻¹ h⁻¹. The role of nitrate in chromate reduction is discussed.     

贝莱斯芽孢杆菌B6强化驱油机制分析及在高矿化度油藏中的应用

【目的】筛选油藏内源功能微生物并探究其驱油机理,现场试验以确定油藏内源微生物提高原油采收技术应用的工艺和技术可行性。【方法】采集英东油田样品,利用原油平板筛选驱油功能菌,评价其环境适应性并优化培养条件,通过乳化性能、降黏防蜡和烃转化能力等评估其驱油性能并探索其潜在机制,并在油田现场进行微生物强化驱油试验。【结果】从油水样品中分离到的贝莱斯芽孢杆菌(Bacillus velezensis) B6,其乳化活性指数(emulsifying activity index, EI24)值为100.00%,降黏率为97.20%,防蜡率为86.90%,表明菌株B6具有良好的乳化降黏性能,具有提高原油采收的潜力,并且能够减少原油中的重质组分而增加轻质烃类,改善原油物性,提升原油品质。进一步在英东油田、跃进油田和花土沟油田进行微生物单井吞吐和清防蜡作业,共进行62井次现场试验,累计增油1 460.36 t,平均延长洗井周期47 d,经济效益为342.50万元,投入产出比为1:4。【结论】通过室内研究和现场试验,证实内源微生物Bacillus velezensisB6具有显著提高原油采收和油井清防蜡的效果,应用潜力巨大。     

Influence of Rheology of Dispersion Media in the Preparation of Polymeric Microspheres through Emulsification Method

Chitosan microspheres as drug delivery system have attained importance and attracted the attention of researchers in last few years. This study was aimed toward the elucidation of the effect of viscosity of external oil phase on the properties of microspheres prepared by emulsification method. Chitosan microspheres were prepared utilizing oil phase of different viscosity viz. castor oil, heavy liquid paraffin, light liquid paraffin and mixture of light paraffin, and petroleum ether (1:1 v/v ratio). Microspheres prepared in highly viscous castor oil exhibited an average size of 11.52 ± 0.57 μm with a percentage drug entrapment of 43.12 ± 2.14. On the other hand, very small microspheres of 3.15 ± 0.04 μm and 68.87 ± 1.03% drug entrapment were obtained when mixture of liquid paraffin and petroleum ether was utilized as oil phase. Effect of viscosity on percent mucoadhesion, percent drug entrapment, zeta potential, percent process yield, etc. of microspheres has been observed. In vitro drug release in phosphate buffer pH 7.4 was determined for different batch of microspheres. The results revealed a difference in the drug release pattern of the different microspheres prepared as a function of viscosity of different oil phase. Use of low viscose oil resulted in the formulation of spherical and small size microspheres. This work was a part of our ongoing thrust and project to develop microparticulate drug delivery system.     

苏云金芽孢杆菌Rpp02菌株cry1Ac20基因的克隆及表达

Rpp02菌株是本实验室分离的一株对鳞翅目等多种害虫具有高毒力的苏云金芽孢杆菌莫里逊亚种 (Bacillus thuringiensis subsp. morrisoni), 经PCR检测,它含有cry1Ac基因。对其基因组DNA进行PCR扩增,得到大约4 kb的产物。测序结果表明,该片段含有一个较大的ORF框,基因编码区为3 534 bp,编码1 177个氨基酸,分子量为133.144 kD,pI 4.952, 为弱酸性蛋白质,亮氨酸（Leu）、丝氨酸（Ser）、谷氨酸（Glu）3种氨基酸含量最高,分别为8.0%、7.8%、7.7%。该基因序列与cry1Ac序列同源性达到99%,并被国际Bt杀虫晶体蛋白基因命名委员会命名为cry1Ac20。生物测定表明,该基因在大肠杆菌中得到了表达,表达产物具有较强的杀虫效果,试喂菜青虫48 h后,校正死亡率为88.78%。     

Characteristics of bioemulsifier V2-7 synthesized in culture media added of hydrocarbons: chemical composition, emulsifying activity and rheological properties

The bioemulsifier V2-7 is an exopolysaccharide (EPS) synthesized by strain F2-7 of Halomonas eurihalina and it has the property of emulsifying a wide range of hydrocarbons i.e. n-tetradecane, n-hexadecane, n-octane, xylene mineral light and heavy oils, petrol and crude oil. Characteristics of exopolysaccharide V2-7 produced in media supplemented with various hydrocarbons (n-tetradecane, n-hexadecane, n-octane, xylene, mineral light oil, mineral heavy oil, petrol or crude oil) were studied. Yield production varied from 0.54 to 1.45 g L(-1) according to the hydrocarbon added, in the same way chemical composition, viscosity and emulsifying activity of EPS varied with the culture conditions. Respect to chemical composition, percentage of uronic acids found in exopolymers produced in hydrocarbon media was always higher than that described for V2-7 EPS (1.32%) obtained with glucose. This large amount of uronic acid present could be useful in biodetoxification and waste water treatment. On the other hand, the highest amount of biopolymer was synthesized with mineral light oil, while the most active emulsifiers were those obtained from media added with petrol and n-octane. Furthermore, all EPS were capable of emulsifying crude oil more efficiently than the three chemical surfactants tested as control (Tween 20, Tween 80 and Triton X-100). The capacity of strain F2-7 to grow and produce bioemulsifier in presence of oil hydrocarbons together with the high emulsifying activity and low viscosity power of the biopolymers synthesized in hydrocarbons media could be considered highly beneficial for application of both bioemulsifier and producing strain in bioremediation of oil pollutants.     

Efficient transformation and expression of the glucanase gene from Bacillus megaterium in the biocontrol strain Streptomyces lydicus A02

Streptomyces have been used extensively as the biocontrol agents due to their ability to produce various antimicrobial compounds, such as antibiotics and hydrolytic enzymes. Streptomyces lydicus strain A02, which was isolated from the soil of suburban forest field in Beijing (China), is capable of producing natamycin and has proved to be a potential biocontrol agent to several plant fungal diseases, including wilts caused by Fusarium oxysporum f. spp. However, hydrolytic enzymes like glucanase have not been detected in S. lydicus A02 on CMC-Na plates by congo red staining. Glucanase, a pathogenesis-related (PR) protein, degrades fungal cell walls and has been widely used as antifungal agent in plant protection. Therefore, a recombinant S. lydicus expressing a glucanase gene, which was cloned from the biocontrol strain Bacillus megaterium L103 and driven by the Streptomyces erythraea ermE* promoter, was constructed in this study. The engineered S. lydicus AG02 shared a similar yield of natamycin with the wild-type A02 strain. Compared to the wild-type strain A02, the engineered S. lydicus AG02 had a remarkably higher glucanase activity, as well as antifungal activity to F. oxysporum f. sp. conglutinans, F. oxysporum f. sp. niveum and Rhizoctonia cerealis. This demonstrated the improved biocontrol effect of S. lydicus AG02 attributed to transforming the exogenous glucanase from B. megaterium, which acted synergistically with natamycin to increase the antifungal activity of the strain.     

混合菌系QZ-10对原油的作用性能表征及现场清防蜡应用

[背景]油藏环境中呈单相液态的原油,在开采、运送的过程中由于温度、压力及流动条件的变化,石蜡不断从原油中析出,造成井筒、管线的结蜡.微生物清防蜡作为一项新兴的技术,受到广泛的关注,但是需要根据现场的环境条件施用合适的微生物清防蜡菌液.[目的]利用来源于青海油田盐碱油藏环境的混合菌系QZ-10,有效解决油井结蜡的问题并探...     

Mechanisms of bacterial resistance to chromium compounds

Chromium is a non-essential and well-known toxic metal for microorganisms and plants. The widespread industrial use of this heavy metal has caused it to be considered as a serious environmental pollutant. Chromium exists in nature as two main species, the trivalent form, Cr(III), which is relatively innocuous, and the hexavalent form, Cr(VI), considered a more toxic species. At the intracellular level, however, Cr(III) seems to be responsible for most toxic effects of chromium. Cr(VI) is usually present as the oxyanion chromate. Inhibition of sulfate membrane transport and oxidative damage to biomolecules are associated with the toxic effects of chromate in bacteria. Several bacterial mechanisms of resistance to chromate have been reported. The best characterized mechanisms comprise efflux of chromate ions from the cell cytoplasm and reduction of Cr(VI) to Cr(III). Chromate efflux by the ChrA transporter has been established in Pseudomonas aeruginosa and Cupriavidus metallidurans (formerly Alcaligenes eutrophus) and consists of an energy-dependent process driven by the membrane potential. The CHR protein family, which includes putative ChrA orthologs, currently contains about 135 sequences from all three domains of life. Chromate reduction is carried out by chromate reductases from diverse bacterial species generating Cr(III) that may be detoxified by other mechanisms. Most characterized enzymes belong to the widespread NAD(P)H-dependent flavoprotein family of reductases. Several examples of bacterial systems protecting from the oxidative stress caused by chromate have been described. Other mechanisms of bacterial resistance to chromate involve the expression of components of the machinery for repair of DNA damage, and systems related to the homeostasis of iron and sulfur.     

Isolation and characterization of heavy metal tolerant Gram-positive bacteria with bioremedial properties from municipal waste rich soil of Kestopur canal (Kolkata), West Bengal,India

The present study was conducted to determine the culturable bacterial profile from Kestopur canal (Kolkata, India) and analyze their heavy metal tolerance. In addition to daily sewage including solid and soluble wastes, a considerable load of toxic metals are released into this water body from industries, tanneries and agriculture, household as well as health sectors. Screening out microbes from such an environment was done keeping in mind their multifunctional application especially for bioremediation. Heavy metals are major environmental pollutants when present in high concentration in soil and show potential toxic effects on growth and development in plants and animals. Some edible herbs growing in the canal vicinity, and consumed by people, were found to harbour these heavy metals at sub-toxic levels. The bioconcentration factor of these plants being <1 indicates that they probably only absorb but not accumulate heavy metals. All the thirteen Grampositive bacteria isolated from these plants rhizosphere were found to tolerate high concentration of heavy metals like Co, Ni, Pb, Cr, Fe. Phylogenetic analysis of their 16S rDNA genes revealed that they belonged to one main taxonomic group — the Firmicutes. Seven of them were found to be novel with 92–95% sequence homology with known bacterial strains. Further microbiological analyses show that the alkaliphilic Bacillus weihenstephanensis strain IA1 and Exiguobacterium aestuarii strain CE1, with selective antibiotic sensitivity along with high Ni²⁺ and Cr⁶⁺ removal capabilities, respectively, can be prospective candidates for bioremediation.     

Expression profiling of <Emphasis Type="Italic">Crambe abyssinica</Emphasis>under arsenate stress identifies genes and gene networks involved in arsenic metabolism and detoxification

Background  

Arsenic contamination is widespread throughout the world and this toxic metalloid is known to cause cancers of organs such as liver, kidney, skin, and lung in human. In spite of a recent surge in arsenic related studies, we are still far from a comprehensive understanding of arsenic uptake, detoxification, and sequestration in plants. Crambe abyssinica, commonly known as 'abyssinian mustard', is a non-food, high biomass oil seed crop that is naturally tolerant to heavy metals. Moreover, it accumulates significantly higher levels of arsenic as compared to other species of the Brassicaceae family. Thus, C. abyssinica has great potential to be utilized as an ideal inedible crop for phytoremediation of heavy metals and metalloids. However, the mechanism of arsenic metabolism in higher plants, including C. abyssinica, remains elusive.     

Combining strains of lactic acid bacteria may reduce their toxin and heavy metal removal efficiency from aqueous solution

Aims: The primary objective of this study was to compare the removal of cadmium, lead, aflatoxin B₁ and microcystin‐LR from aqueous solution by Lactobacillus rhamnosus GG, L. rhamnosus LC705, Propionibacterium freudenreichii shermanii JS and Bifidobacterium breve Bbi99/E8, separately and in combination. Methods and Results: The removal of toxins and heavy metals was assessed in batch experiments. The removal of all compounds was observed to be strain specific. The removal of lead by a combination of all the strains used was observed to be lower than could be predicted from the removal by single strains (P < 0·05). A similar trend was also observed with the other compounds studied. Conclusions: The results show that the toxin‐removal capacity of a combination of strains of lactic acid bacteria is not the sum of their individual capacities. Therefore, pure single strains should be used when the goal is to remove single compounds. The use of combinations of strains may be beneficial when several compounds are removed together. This needs to be studied in future experiments. Significance and Impact of the Study: Lactic acid bacteria have been identified as potent tools for the decontamination of heavy metals, cyanotoxins and mycotoxins. The results of this study should be considered when selecting combinations of bacteria for the simultaneous removal of several toxic compounds.     

Increased PCP removal by <Emphasis Type="Italic">Amylomyces rouxii</Emphasis> transformants with heterologous <Emphasis Type="Italic">Phanerochaete chrysosporium</Emphasis> peroxidases supplementing their natural degradative pathway

Fungal peroxidases and phenoloxidases are widely used in aromatic toxic compounds degradation. Peroxidases, such as lignin peroxidase and manganese peroxidase, as well as laccases are mainly produced by basidiomycetes and to a lower extent by other fungi, such as ascomycetes. Peroxidase-encoding genes have been described and homologous expression has been achieved in basidiomycetes. Heterologous expression has also been achieved in some non-producing peroxidase ascomycetes, like Penicillium and Aspergillus. In this work, heterologous expression of peroxidase-encoding genes, lignin peroxidase, and manganese peroxidase was achieved in a zygomycete producing only phenoloxidases (Amylomyces rouxii), aimed at coupling two different pathways used in nature for PCP removal in only one microbial strain. The ability of PCP removal was assayed with one of the obtained transformants, resulting in increased activity with respect to the ability of the parental strain cultured free of the inducer tyrosine (95% and 45%, respectively, of the initial PCP (12.5 mg L⁻¹) in 120 h, or 100% and 49%, respectively, of the initial PCP after 144 h of liquid culture).     

Controlling Listeria monocytogenes in Cottage cheese through heterologous production of enterocin A by Lactococcus lactis

Aims: Enterocin A is an example of a class IIa bacteriocin with potent anti‐listerial activity. This study was initiated with a view to harnessing this activity, through heterologous production by a lactococcal starter strain, to limit levels of Listeria monocytogenes in a food (Cottage cheese). Methods and Results: Plasmid pEnt02 (containing entA, I, T and D genes under the control of a constitutive promoter) was introduced into a Lactococcus lactis strain capable of fermenting lactose. When this bacteriocin‐producing starter was used in combination with a non‐enterocin A producer, thereby compensating for an associated reduction in acid production, during a Cottage cheese fermentation, a decrease in L. monocytogenes (tagged with lux genes for convenience) levels was evident. Conclusions: Enterocin A, heterologously produced by a food grade lactic acid bacteria (LAB), was therefore shown to have potential for use as a biocontrol agent in food. Significance and Impact of the Study: Many of the most active anti‐listerial compounds identified to date are enterocins. However, because of Enterococcus‐associated concerns, the use of these antimicrobials in a food setting has been curtailed. Although enterocins have been heterologously produced in LAB to overcome this problem, this study represents the first occasion upon which the benefits of such heterologous production have been demonstrated in a food context.     

Microbial Conversion of Petro-sulfur Compounds

For the purpose of proving possibility of desulfurization from petroleum oil by microbial procedures, first approach was made to obtaining microorganisms capable of converting petro-sulfur compounds. Dibenzothiophene was used in this study as a model of the sulfur compounds in heavy oil.

Six strains of microorganisms were isolated with dibenzothiophene from various soils. These strains produced organic acid compounds containing sulfur from dibenzothiophene. As a result of the taxonomic studies, three of the strains were found to be new species belonging to the Genus Pseudomonas, so the authors proposed to assign the names, Pseudomonas abikonensis nov. sp. to one strain, and Pseudomonas jianii nov. sp. to the other two strains.     

Metabolism of mono- and dihalogenated C1 and C2 compounds by <Emphasis Type="Italic">Xanthobacter autotrophicus</Emphasis> growing on 1,2-dichloroethane

The conversion of and toxic effects exerted by several mono- and dihalogenated C1 and C2 compounds on cultures of Xanthobacter autotrophicus GJ10 growing on 1,2-dichloroethane were investigated. Bromochloromethane, dibromomethane and 1-bromo-2-chloroethane were utilized by strain GJ10 in batch culture as a cosubstrate and sole carbon source. The rate of degradation of dihalomethanes by whole cells was lower than that of 1,2-dichloroethane, but a significant increase of the rate of dihalomethane biodegradation was observed when methanol or ethanol were added as a cosubstrate. Products of the degradation of several tested compounds by haloalkane dehalogenase were analyzed and a new metabolic pathway based on hydrolytic conversion to formaldehyde was proposed for the dihalomethanes. Strain GJ10 growing on 1,2-dichloroethane converted 2-fluoroethanol and 1-chloro-2-fluoroethane to 2-fluoroacetate, which was tolerated up to a concentration of 2.5 mM. On the basis of the results from batch cultures an inert (dichloromethane), a growth-supporting (dibromomethane) and a toxic (1,2-dibromoethane) compound were selected for testing their effects on a continuous culture of strain GJ10 growing on 1,2-dichloroethane. The compounds were added as pulses to a steady-state chemostat and the response of the culture was followed. The effects varied from a temporary decrease in cell density for dibromomethane to severe toxicity and culture washout with 1,2-dibromoethane. Our results extend the spectrum of halogenated C1 and C2 compounds that are known to be degraded by strain GJ10 and provide information on toxic effects and transformation of compounds not serving as a carbon source for this bacterium.     

Microbial Community Composition in Crude Oils and Asphalts from the Kurdistan Region of Iraq

Abstract

To identify hydrocarbon-degrading microorganisms contributing to the formation of heavy oil we investigated the microbial community composition in different types of crude oils from oil-production facilities and in crude oil and asphalt from different natural seeps from the Kurdistan Region of Iraq (KRI). Crude oils from five out of six production facilities did not contain microorganisms detectable by 16S rRNA gene PCR amplicon sequencing likely reflecting a low microbial abundance in these samples. Crude oil and asphalt from the natural seeps hosted diverse microbial communities. The same phylotypes of uncultivated Deferribacteres and Thermodesulfobacteraceae were predominant community members across crude oils and asphalts from separate geographical locations. Soils surrounding seeps did not contain these phylotypes suggesting that they originate from the subsurface and although they seem commonly detected in hydrocarbon-rich environments their role in hydrocarbon-degradation is unknown. GC-MS analyses showed that mainly aromatic hydrocarbons were present in the crude oil and asphalt and that they were undergoing biodegradation - likely with sulfate and nitrate as terminal oxidants. In agreement, only bssA gene, but not assA gene-carrying microorganisms were detectable in the analyzed sampled. Overall our study identified several abundant uncultivated taxa with likely roles in transformation of nitrate, sulfate and hydrocarbons.     

Reduction of Sinapate Ester Content in Transgenic Oilseed Rape (<Emphasis Type="Italic">Brassica napus</Emphasis>) by dsRNAi-based Suppression of <Emphasis Type="Italic">BnSGT1</Emphasis> Gene Expression

Seeds of oilseed rape (Brassica napus) accumulate high amounts of antinutritive sinapate esters (SE) with sinapoylcholine (sinapine) as major component, accompanied by sinapoylglucose. These phenolic compounds compromise the use of the protein-rich valuable seed meal. Hence, a substantial reduction of the SE content is considered essential for establishing rape as a protein crop. The present work focuses on the suppression of sinapine synthesis in rape. Therefore, rape (spring cultivar Drakkar) was transformed with a dsRNAi construct designed to silence seed-specifically the BnSGT1 gene encoding UDP-glucose:sinapate glucosyltransferase (SGT1). This resulted in a substantial decrease of SE content in T2 seeds with a reduction reaching 61%. In T2 seeds a high and significant correlation between the contents of sinapoylglucose and all other sinapate esters has been observed. Among transgenic plants, no significant difference in other important agronomic traits, such as oil, protein, fatty acid and glucosinolate content in comparison to the control plants was observed. Maximal reduction of total SE content by 76% was observed in seeds of one homozygous T2 plant (T3 seeds) carrying the BnSGT1 suppression cassette as a single copy insert. In conclusion, this study is an initial proof of principle that suppression of sinapoylglucose formation leads to a strong reduction of SE in rape seeds and is thus a promising approach in establishing rape, currently an important oil crop, as a protein crop as well.     

Study on the role of Nocardia farcinica in enhancing the flow rate of crude oil

Microbial degradation of paraffin wax is an efficient method of removing wax deposition from pipelines and enhancing the flow rate of crude oil. The present study was carried out to isolate a potential paraffin-degrading organism from oil wells of Gujarat. Screening for bacteria-utilizing paraffin wax as the sole source of carbon was carried out using 2,6-dichlorophenol indophenol (DCPIP) dye as redox indicator. The selected organism was identified as Nocardia farcinica by 16S rRNA sequencing. Nocardia farcinica showed 100% degradation of heneicosane, 65.99% degradation of docosane, and 50.59% degradation of tricosane, the major components of paraffin wax, in 8 days, which was observed by gas chromatography. Eicosane (86%) and heneicosane (80%) were utilized more by the selected organism compared with octacosane (61%) and triacontane (58%) (DCPIP dye method). Gas chromatographic analysis revealed that the selected organism degraded 50% of paraffin crude oil in 10 days. To determine the ability of the selected organism to enhance flow rate, parameters such as viscosity (cps), surface tension (d/cm²), pour point (°C), and flow rate (min/2 ml) were determined, and the result showed significant reduction in all the parameters after the addition of Nocardia farcinica. The viscosity and surface tension of crude oil were reduced by 22 and 6.30 points, respectively, after the addition of Nocardia farcinica. Pour point and flow rate were reduced by 2 and 11 points, respectively, when compared with control. The above findings indicate that Nocardia farcinica isolated from crude oil plays a major role in enhancing the flow rate of crude oil.