Biohydrogenation of linoleic acid by rumen fungi compared with rumen bacteria

AIMS: To investigate biohydrogenation of linoleic acid by rumen fungi compared with rumen bacteria, and to identify the fungus with the fastest biohydrogenation rate. METHODS AND RESULTS: Biohydrogenation of linoleic acid by mixed rumen fungi and mixed rumen bacteria were compared in vitro. With mixed rumen bacteria, all biohydrogenation reactions were finished within 100 min of incubation and the end product of biohydrogenation was stearic acid. With mixed rumen fungi, biohydrogenation proceeded more slowly over a 24-h period. Conjugated linoleic acid (CLA; cis-9, trans-11 C18 : 2) was an intermediate product, and vaccenic acid (VA; trans-11 C18 : 1) was the end product of biohydrogenation. Fourteen pure fungal isolates were tested for biohydrogenation rate. DNA sequencing showed that the isolate with the fastest rate belonged to the Orpinomyces genus. CONCLUSIONS: It is concluded that rumen fungi have the ability to biohydrogenate linoleic acid, but biohydrogenation is slower in rumen fungi than in rumen bacteria. The end product of fungal biohydrogenation is VA, as for group A rumen bacteria. Orpinomyces is the most active biohydrogenating fungus. SIGNIFICANCE AND IMPACT OF THE STUDY: This is the first study to demonstrate that rumen fungi can biohydrogenate fatty acids. Fungi could influence CLA content of ruminant products.     

Indolic compounds in the leaves of Tecoma stans

Indole, tryptophan, tryptamine and skatole were isolated from the leaves of Tecoma stans. Anthranilic acid was also identified in its free form, in contrast to its glucoside, in Jasminum grandiflorum. The presence of both indole and anthranilic acid in the leaves of Tecoma stans indicates that they are the true substrate and product of indole oxygenase from the leaves of Tecoma stans.     

Degradation of terpenes and terpenoids from Mediterranean rangelands by mixed rumen bacteria in vitro

This in vitro study aimed at estimating the disappearance rates of 14 terpenes and terpenoids after 24-h incubation with mixed bacteria from caprine rumens. These compounds comprised nine monoterpene hydrocarbons (δ-3-carene, p-cymene, β-myrcene, (E)- and (Z)-β-ocimene, α-phellandrene, α-terpinene, γ-terpinene and α-terpinolene), four oxygenated monoterpenes ((E)- and (Z)-linalool oxide, 4-terpinenol, α + γ terpineol) and one sesquiterpene hydrocarbon (β-cedrene). They were individually exposed to goat rumen microflora for 24 h in 70 ml culture tubes at an input level of 0.5 ml/l. Terpenoids were the least degraded, 100% of (E)-linalool oxide, 95% of (Z)-linalool oxide, 91% of 4-terpinenol and 75% of terpineol remained intact after 24-h incubation. In contrast, α-terpinolene concentration in fermentation broth extracts was below quantification limit, thus indicating an extensive, if not complete, degradation by rumen bacteria. Only 2% of the initial amounts of α-phellandrene were recovered. The other monoterpenes and β-cedrene were partly degraded, with losses ranging from 67% for δ-3-carene to 90% for (E)-β-ocimene. The corresponding rates of disappearance were between 2.67 and 4.08 μmol/ml inoculum per day.     

The characterization of lactic acid producing bacteria from the rumen of dairy cattle grazing on improved pasture supplemented with wheat and barley grain

Aims:  To identify and characterize the major lactic acid bacteria in the rumen of dairy cattle grazing improved pasture of rye grass and white clover and receiving a maize silage and grain supplement with and without virginiamycin.
Methods and Results:  Eighty-five bacterial isolates were obtained from the rumen of 16 Holstein-Friesian dairy cows. The isolates were initially grouped on the basis of their Gram morphology and by restriction fragment length polymorphism analysis of the PCR amplified 16S rDNA. A more definitive analysis was undertaken by comparing the 16S rDNA sequences. Many of the isolates were closely related to other previously characterized rumen bacteria, including Streptococcus bovis, Lactobacillus vitulinus , Butyrivibrio fibrisolvens , Prevotella bryantii and Selenomonas ruminantium . The in vitro production of l - and/or d -lactate was seen with all but five of the isolates examined, many of which were also resistant to virginiamycin.
Conclusion:  Supplementation of grain with virginiamycin may reduce the risk of acidosis but does not prevent its occurrence in dairy cattle grazing improved pasture.
Significance and Impact of the Study:  This study shows that lactic acid production is caused, not only by various thoroughly researched types of bacteria, but also by others previously identified in the rumen but not further characterized.     

Magnesium requirement of some of the principal rumen cellulolytic bacteria

Information available on the role of Mg for growth and cellulose degradation by rumen bacteria is both limited and inconsistent. In this study, the Mg requirements for two strains each of the cellulolytic rumen species Fibrobacter succinogenes (A3c and S85), Ruminococcus albus (7 and 8) and Ruminococcus flavefaciens (B34b and C94) were investigated. Maximum growth, rate of growth and lag time were all measured using a complete factorial design, 2(3)×6; factors were: strains (2), within species (3) and Mg concentrations (6). R. flavefaciens was the only species that did not grow when Mg was singly deleted from the media, and both strains exhibited a linear growth response to increasing Mg concentrations (P<0.001). The requirement for R. flavefaciens B34b was estimated as 0.54 mM; whereas the requirement for R. flavefaciens C94 was >0.82 as there was no plateau in growth. Although not an absolute requirement for growth, strains of the two other species of cellulolytic bacteria all responded to increasing Mg concentrations. For F. succinogenes S85, R. albus 7 and R. albus 8, their requirement estimated from maximum growth was 0.56, 0.52 and 0.51, respectively. A requirement for F. succinogenes A3c could not be calculated because there was no solution for contrasts. Whether R. flavefaciens had a Mg requirement for cellulose degradation was determined in NH₃-free cellulose media, using a 2×4 factorial design, 2 strains and 4 treatments. Both strains of R. flavefaciens were found to have an absolute Mg requirement for cellulose degradation. Based on reported concentrations of Mg in the rumen, 1.0 to 10.1 mM, it seems unlikely that an in vivo deficiency of this element would occur.     

骆驼瘤胃内降解含氮杂环化合物细菌的多样性

【目的】作为典型的荒漠动物,骆驼能够采食其他动物不能够食用的具有强烈气味的或有毒的植物,而不影响其正常生理代谢。研究发现骆驼采食的植物毒素与吡啶、喹啉、吲哚等杂环化合物具有相似的化学结构,所以研究骆驼体内是否存在潜在的杂环化合物降解菌具有重要意义。【方法】本研究采集3头骆驼瘤胃内容物,分别以吡啶、喹啉和吲哚3种含氮杂环化合物为唯一碳源和氮源进行5代富集培养。通过高通量测序技术对瘤胃内容物和5代富集培养细菌进行了测序分析。【结果】骆驼肠道中降解杂环化合物(吡啶、喹啉、吲哚)细菌群体样品中变形菌门、放线菌门、拟杆菌门、浮霉菌门和厚壁菌门等5个门类丰富度最高。骆驼瘤胃内降解吡啶的优势菌可能属于鞘氨醇杆菌属和不动杆菌属,降解吲哚的优势菌主要属于芽孢杆菌属,而降解喹啉的优势菌可能以赖氨酸芽孢杆菌属和鞘氨醇杆菌属为主。【结论】骆驼瘤胃原始样品经过吡啶、喹啉、吲哚富集5代后,与原始样品比较优势菌群发生了较大的改变,这说明骆驼瘤胃内蕴含降解吡啶、吲哚和喹啉的细菌,但对吡啶、吲哚和喹啉的降解过程中发挥降解作用的细菌群落存在差异。     

牛瘤胃分离菌株静息细胞培养体系生物转化黄豆苷原

从牛瘤胃胃液中分离了一株在厌氧条件下能利用其生长细胞将大豆异黄酮黄豆苷原高效还原为二氢黄豆苷原的革兰氏阳性细菌菌株Niu-O16。研究了菌株Niu-O16静息细胞体系转化黄豆苷原的最佳转化条件,通过单因素试验确定菌株Niu-O16静息细胞转化黄豆苷原的最佳条件是:初始pH6.0～8.0,静息细胞浓度32～64mg/mL(湿重),加入底物浓度0.8～1.2mmol/L。通过正交试验确定了静息细胞浓度、加入底物浓度及转化时间的最佳组合为:静息细胞浓度32mg/mL、加入底物浓度0.8mmol/L、转化时间24h;最佳转化条件下底物转化率最高为63.9%。该结果为厌氧菌的静息细胞转化及工业应用提供了参考。     

The survival of silage inoculant lactic acid bacteria in rumen fluid

AIMS: To determine whether lactic acid bacteria (LAB) used in inoculants for silage can survive in rumen fluid (RF), and to identify those that survive best. METHODS AND RESULTS: Twelve commercial silage inoculants were added at 107 CFU ml-1 to strained RF (SRF) taken from dairy cows, with and without 5 g l-1 glucose and incubated in vitro at 39 degrees C. Changes in pH, LAB numbers and fermentation products were monitored for 72 h. In the inoculated RF with glucose, the pH decreased and numbers of LAB increased. The inoculants varied with regard to their effect on pH change and growth. In the SRF, both with and without glucose, the pH values of the inoculated samples were generally higher than those of the uninoculated controls throughout most of the incubation period. This may suggest a positive effect on the rumen environment. CONCLUSIONS: LAB used in silage inoculants can survive in RF in vitro. SIGNIFICANCE AND IMPACT OF THE STUDY: This is the first step in studying the probiotic potential of silage LAB inoculants for dairy cattle. The survival of these LAB in RF may enable them to interact with rumen microorganisms and to affect rumen functionality.     

Hydration of linoleic acid by bacteria isolated from ruminants

Two strains of Enterococcus faecalis isolated from the ovine rumen and known to hydrate oleic acid were shown to transform linoleic acid by hydration into two products. The products, identified as 10-hydroxy-12-octadecenoic acid and 13-hydroxy-9-octadecenoic acid, were formed during stationary phase in yields of 13% and 6% respectively. Yields increased to 22% and 14% when culture conditions were optimised. To our knowledge, this is the first report of 13-hydroxy-9-octadecenoic acid production by bacteria. During a search for further linoleic-acid-hydrating bacteria, a strain of Streptococcus bovis isolated from bovine faeces and the ruminal strain S. bovis JB1 were found to hydrate linoleic acid. Both strains formed only one product and the most rapid appearance occurred during exponential growth. The S. bovis product, identified as 13-hydroxy-9-octadecenoic acid, formed in a yield of 28%. This study provides the first information on linoleic acid hydration by ruminal bacteria.     

Genetic diversity in Selenmonas ruminantium isolated from the rumen

Abstract Non-denaturing polyacrylamide gel electrophoresis was used to detect genetic variation at loci coding for there intracellular enzymes in the obligately anaerobic rumen bacterium Selenomonas ruminantium . Four mobility variants were detected for lactate dehydrigenase, seven for glucokinase and at least five for NADP-dependent glutamate dehydrogenase among 28 newly isolated, and eitght previously isolated strains from sheep and cattle. No evidence was found for an exclusive association of any particular electrophoretic mobility type with variable metabolic traits such as the ability to utilise lactate, to reduce nitrate or to ferment trehalose, sorbitol, rhamnose or glycerol. The most commonly occurring electromorph type was recovered from more than one animal, while most animals examined were show to harbour more than one electromorph type.     

Effect of media composition,including gelling agents,on isolation of previously uncultured rumen bacteria

The aim of this study was to develop novel anaerobic media using gellan gum for the isolation of previously uncultured rumen bacteria. Four anaerobic media, a basal liquid medium (BM) with agar (A‐BM), a modified BM (MBM) with agar (A‐MBM), an MBM with phytagel (P‐MBM) and an MBM with gelrite (G‐MBM) were used for the isolation of rumen bacteria and evaluated for the growth of previously uncultured rumen bacteria. Of the 214 isolates composed of 144 OTUs, 103 isolates (83 OTUs) were previously uncultured rumen bacteria. Most of the previously uncultured strains were obtained from A‐MBM, G‐MBM and P‐MBM, but the predominant cultural members, isolated from each medium, differed. A‐MBM and G‐MBM showed significantly higher numbers of different OTUs derived from isolates than A‐BM (P < 0·05). The Shannon index indicated that the isolates of A‐MBM showed the highest diversity (H′ = 3·89) compared with those of G‐MBM, P‐MBM and A‐BM (H′ = 3·59, 3·23 and 3·39, respectively). Although previously uncultured rumen bacteria were isolated from all media used, the ratio of previously uncultured bacteria to total isolates was increased in A‐MBM, P‐MBM and G‐MBM.     

Production of rhamnolipids and diesel oil degradation by bacteria isolated from soil contaminated by petroleum

Biosurfactants are microbial secondary metabolites. The most studied are rhamnolipids, which decrease the surface tension and have emulsifying capacity. In this study, the production of biosurfactants, with emphasis on rhamnolipids, and diesel oil degradation by 18 strains of bacteria isolated from waste landfill soil contaminated by petroleum was analyzed. Among the studied bacteria, gram‐positive endospore forming rods (39%), gram positive rods without endospores (17%), and gram‐negative rods (44%) were found. The following methods were used to test for biosurfactant production: oil spreading, emulsification, and hemolytic activity. All strains showed the ability to disperse the diesel oil, while 77% and 44% of the strains showed hemolysis and emulsification of diesel oil, respectively. Rhamnolipids production was observed in four strains that were classified on the basis of the 16S rRNA sequences as Pseudomonas aeruginosa. Only those strains showed the rhlAB gene involved in rhamnolipids synthesis, and antibacterial activity against Escherichia coli, P. aeruginosa, Staphylococcus aureus, Bacillus cereus, Erwinia carotovora, and Ralstonia solanacearum. The highest production of rhamnolipids was 565.7 mg/L observed in mineral medium containing olive oil (pH 8). With regard to the capacity to degrade diesel oil, it was observed that 7 strains were positive in reduction of the dye 2,6‐dichlorophenolindophenol (2,6‐DCPIP) while 16 had the gene alkane mono‐oxygenase (alkB), and the producers of rhamnolipids were positive in both tests. Several bacterial strains have shown high potential to be explored further for bioremediation purposes due to their simultaneous ability to emulsify, disperse, and degrade diesel oil. © 2015 American Institute of Chemical Engineers Biotechnol. Prog., 32:262–270, 2016     

Degradation of tryptophan and related indolic compounds by ruminal bacteria,protozoa and their mixture in vitro

Summary.  In vitro experiments were conducted to examine the degradation of d- and l-isomers of tryptophan (Trp) and 10 related indolic compounds by mixed rumen bacteria (B), protozoa (P) and a combination of the two (BP). The analyses were carried out by HPLC. d-Trp (1.0 mM) was not degraded by rumen microorganisms during the 24-h incubation period. The net degradation of 1 mM l-Trp was 46.5%, 8.7% and 80.0% by B, P and BP suspensions, respectively. Trp was degraded into indoleacetic acid, indolelactic acid and indole by rumen bacteria and protozoa, and into skatole, p-cresol and indolepropionic acid by rumen bacteria only. Of them, indoleacetic acid was the major product of Trp found in B (15.4%) and P (3.1%), and skatole in BP (43.2%). This is the first report of the production of indolelactic acid and p-cresol from Trp by rumen microbes. Starch, d-glucose, salinomycin and monensin inhibited the production of skatole and indole from Trp, and skatole from indoleacetic acid by rumen bacteria. Received August 2, 2001 Accepted June 21, 2002 Published online November 14, 2002 Acknowledgements The authors are extremely grateful to Dr. H. Ogawa, Professor, the University of Tokyo and Dr. T. Hasegawa, Associate Professor, Miyazaki University, for inserting a permanent fistula in goats. The present study was financially supported by research grants from Kyowa Hakko Kogyo Co. Ltd. and Daiichi Seiyaku Co., Japan. Nazimuddin Mohammed thanks the Ministry of Education, Science, Sports and Culture of Japan (Monbusho) for the award of a research studentship from 1996. Authors' address: Dr. Nazimuddin Mohammed, Laboratory of Agricultural Production Technology, Faculty of Agriculture, Field Science Center, Tokyo University of Agriculture and Technology, Saiwai-cho 3-5-8, Fuchu-shi, Tokyo 183-8509, Japan     

Production of volatile fatty acids from bagasse by rumen bacteria

Summary Conditions are described for converting bagasse lignocellulose to volatile fatty acids (VFA) by anaerobic fermentation. Although yields of VFA were as high as 74% by weight of digestible organic matter (or 54% of dry bagasse), limitations were imposed by both fermenter design and fibre digestibility. All fermentations were substrate-limited up to the maximum initial concentration examined of 50 g bagasse · l^-1 and no product inhibition was evident (up to 260 mM VFA produced). Maximum VFA productivities of 0.25 to 0.65 g · l^-1 · h^-1 were obtained in batch fermentations and this is greater than those previously reported using lignocellulosic substrates. Batch fermentations neared completion after 66 h.     

Influence of diet on the rumen protozoal fauna of indigenous African wild ruminants

A study was carried out to determine if the protozoal fauna of indigenous African wild ruminants was different from that found in their domestic counterparts and if the animal's diet influenced the number and types of protozoa. Samples of rumen contents were collected in 1997 and 2001 from various indigenous African wild ruminants in Kenya. All three ruminant feeding types were sampled: browsers or concentrate selectors (giraffe and Guenther's dik-dik); intermediate or adaptable mixed feeders (impala, Thomson's gazelle, Grant's gazelle and eland); grass or roughage eaters (hartebeest and wildebeest). Total concentration of ciliate protozoa and percentage generic distribution were determined. In general, protozoal concentrations were higher in concentrate selectors, followed by the intermediate or opportunistic mixed feeders and lowest in the grass and roughage eaters. Both Thomson's and Grant's gazelle were protozoa-free in the 2001 samples. Entodinium percentages were considerably higher in concentrate selectors and intermediate mixed feeders, compared to roughage eaters. Two genera of protozoa previously found in only a few African ruminants, Epiplastron and Opisthotrichum, were observed in several additional animal species and represent new host records. A difference was noted in the protozoal species composition of the indigenous wild ruminants from that previously observed in African domestic ruminants.