Effect of Yeast Extract and Vitamin B12 on Ethanol Production from Cellulose by Clostridium thermocellum I-1-B

Addition to media of yeast extract, a vitamin mixture containing vitamin B₁₂, biotin, pyridoxamine, and p-aminobenzoic acid, or vitamin B₁₂ alone enhanced formation of ethanol but decreased lactate production in the fermentation of cellulose by Clostridium thermocellum I-1-B. A similar effect was not observed with C. thermocellum ATCC 27405 and JW20.     

Oxidation of compounds metabolized through folate coenzyme pathways in vitamin B12-deficient rats

The effects of vitamin B₁₂ deficiency in rats and dietary supplementation with vitamin B₁₂ and/or l-methionine plus folate on the oxidation of compounds metabolized through folate coenzyme pathways were investigated. Rats fed a vitamin B₁₂-deficient diet oxidized significantly lower amounts in 60 min of l-histidine, glycine, sarcosine, formate, and l-serine to CO₂ than vitamin B₁₂-supplemented controls. Supplementation of the deficient diet with l-methionine plus folate restored the ability to oxidize the ring-2-carbon of l-histidine, the methyl group of sarcosine, and formate to the same level as that observed in animals receiving vitamin B₁₂. In contrast, oxidation of the 1-carbon of glycine and the 3-carbon of l-serine was not restored to control levels by addition of methionine plus folate to the vitamin B₁₂-deficient diet. Inhibition of the metabolism of the 2-carbon of glycine to CO₂ was partially overcome by additional dietary methionine and folate. Glycine synthase activity in homogenates paralleled the in vivo pattern of oxidation of the 1-carbon of glycine to CO₂, whereas sarcosine dehydrogenase activity appeared to increase 2-fold in vitamin B₁₂ deficiency.     

Common variant in FUT2 gene is associated with levels of vitamin B12 in Indian population

Vitamin B₁₂ is an essential micronutrient synthesized by microorganisms. Mammals including humans have evolved ways for transport and absorption of this vitamin. Deficiency of vitamin B₁₂ (either due to low intake or polymorphism in genes involved in absorption and intracellular transport of this vitamin) has been associated with various complex diseases. Genome-wide association studies have recently identified several common single nucleotide polymorphisms (SNPs) in fucosyl transferase 2 gene (FUT2) to be associated with levels of vitamin B₁₂—the strongest association was with a non-synonymous SNP rs602662 in this gene. In the present study, we attempted to replicate the association of this SNP (rs602662) in an Indian population since a significant proportion has been reported to have low levels of vitamin B₁₂ in this population. A total of 1146 individuals were genotyped for this SNP using a single base extension method and association with levels of vitamin B₁₂ was assessed in these individuals. Regression analysis was performed to analyze the association considering various confounding factors like for age, sex, diet, hypertension, diabetes mellitus and coronary artery disease status. We found that the SNP rs602662 was significantly associated with the levels of vitamin B₁₂ (p value < 0.0001). We also found that individuals adhering to a vegetarian diet with GG (homozygous major genotype) have significantly lower levels of vitamin B₁₂ in these individuals. Thus, our study reveals that vegetarian diet along with polymorphism in the FUT2 gene may contribute significantly to the high prevalence of vitamin B₁₂ deficiency in India.     

Propionate catabolism in the housefly Musca domestica and the termite Zootermopsis nevadensis

The catabolism of propionate was examined in the housefly Musca domestica (which does not contain detectable amounts of vitamin B₁₂) and the termite Zootermopsis nevadensis (which contains large amounts of vitamin B₁₂). The products from carbon-14 labeled propionate were separated by HPLC and radioactivity was determined by liquid scintillation counting. In vivo studies as a function of time showed that, in both species, products of [2-¹⁴C]propionate were acetate and 3-hydroxypropionate. [2-¹⁴C]Propionate was not efficiently converted to methylmalonate or succinate, as would occur in mammals. Studies with sub-cellular fractions in both species showed that only the mitochondrial fraction efficiently converted propionate to acetate. Radioactivity from [1-¹⁴C]propionate incubated with housefly mitochondria was recovered only in fractions corresponding to propionate and 3-hydroxypropionate. The data obtained are consistent with a metabolic pathway in which propionate is converted to 3-hydroxypropionate and then to acetate. The results presented here demonstrate this pathway in insects which have high vitamin B₁₂ levels and undetectable vitamin B₁₂ levels, suggesting that this may be a common pathway for propionate metabolism in insects.     

Impact of diet management and composition on vitamin B12 concentration in milk of Holstein cows

As vitamin B₁₂ is only synthesized by bacteria, ruminant products, especially dairy products, are excellent sources of this vitamin. This study aims to identify if diet and cow characteristics could affect vitamin B₁₂ concentration in milk of dairy cows. Information on 1484 first, 1093 second and 1763 third and greater parity Holstein cows in 100 herds was collected during three consecutive milkings. During the first morning milking, all dietary ingredients given to cows were sampled and quantities offered were recorded throughout the day. Nutrient composition of ingredients was obtained by wet chemistry to reconstitute nutrient composition of the ration. Milk samples were taken with in-line milk meters during the evening milking of the 1^st day and the morning milking of the 2nd day and were analyzed for vitamin B₁₂ concentration. Milk yields were recorded and milk components were separately analyzed for each milking. Daily vitamin B₁₂ concentration in milk was obtained using morning and evening vitamin B₁₂ concentrations weighted with respective milk yield, then divided by daily yield. To decrease the number of interdependent variables to include in the multivariable model, a principal component analysis was carried out. Daily milk concentration of vitamin B₁₂ averaged 3809±80 pg/ml, 4178±79 pg/ml and 4399±77 pg/ml for first, second and third, and greater lactation cows. Out of 11 principal components, six were significantly related to daily milk concentration of vitamin B₁₂ when entered in the multivariable model. Results suggested that vitamin B₁₂ concentration in milk was positively related to percentage of fiber and negatively related to starch as well as energy of the diet. Negative relationships were noted between vitamin B₁₂ concentration in milk and milk yield as well as milk lactose concentration and positive relationships were observed between vitamin B₁₂ concentration in milk and milk fat as well as protein concentrations. The percentages of chopped mixed silage and commercial energy supplement in the diet as well as cow BW were positively related to vitamin B₁₂ in milk and percentages of baled mixed silage, corn and commercial protein supplement in the ration were negatively related to vitamin B₁₂ concentration in milk. The pseudo-R² of the model was low (52%) suggesting that diet and cow characteristics have moderate impact on vitamin B₁₂ concentration in milk. Moreover, when entering solely the principal component related to milk production in the model, the pseudo-R² was 46%. In conclusion, it suggests that studied diet characteristics have a marginal impact on vitamin B₁₂ concentration in milk variation.     

Enhancement of chemiluminescence for vitamin B12 analysis

In the current article, chemiluminescence (CL) from the vitamin B₁₂ and luminol reaction was studied under alkaline conditions to develop a sensitive analytical method for vitamin B₁₂ using the carbonate enhancement effect. The method was successfully applied to the determination of vitamin B₁₂ in vitamin B₁₂ tablets, multivitamin capsules, and vitamin B₁₂ injections. Experimental parameters were optimized, including luminol concentration, urea-hydrogen peroxide (urea-H₂O₂) concentration, effect of pH, and sequence of addition of reactants for obtaining maximum CL, which was not explored previously. The limit of detection was 5 pg/ml, and the linear range was 10 pg/ml to 1 μg/ml with a regression coefficient of R² = 0.9998. The importance of these experimental parameters and the carbonate enhancement effect is discussed based on the knowledge of the mechanism of oxidation of luminol and decomposition of urea-H₂O₂ in the presence of vitamin B₁₂. Extraction of vitamin B₁₂ was carried out, and the observed recovery was 97-99.2% with a relative standard deviation in the range of 0.30-1.09%. The results obtained were compared with those of the flame atomic absorption spectrometry method.     

Maternal micronutrients and omega 3 fatty acids affect placental fatty acid desaturases and transport proteins in Wistar rats

Adequate supply of LCPUFA from maternal plasma is crucial for fetal normal growth and development. The present study examines the effect of maternal micronutrients (folic acid and vitamin B₁₂) and omega 3 fatty acids on placental mRNA levels of fatty acid desaturases (Δ5 and Δ6) and transport proteins. Pregnant female rats were divided into 6 groups at 2 levels of folic acid both in the presence and absence of vitamin B₁₂. Both the vitamin B₁₂ deficient groups were supplemented with omega 3 fatty acid. Maternal vitamin B₁₂ deficiency reduced placental mRNA and protein levels of Δ5 desaturase, mRNA levels of FATP1 and FATP4 (p<0.05 for all) as compared to control while omega 3 fatty acid supplementation normalized the levels. Our data for the first time indicates that altered maternal micronutrients and omega 3 fatty acids play a key role in regulating fatty acid desaturase and transport protein expression in placenta.     

Megaloblastic Anemia Associated with Surgically Produced Gastrointestinal Abnormalities

Two of the mechanisms for vitamin B₁₂ deficiency, leading to megaloblastic anemia, are the result of surgically produced abnormalities of the gastrointestinal tract. The basic mechanism is different for each lesion.Total gastrectomy results in complete lack of intrinsic factor which is necessary for vitamin B₁₂ absorption. It is believed that if patients survive long enough and are not given prophylactic vitamin B₁₂ therapy, all would develop megaloblastic anemia.Intestinal anastomosis leading to stasis of intestinal contents, with overgrowth of bacteria may cause vitamin B₁₂ deficiency through bacterial interference with the utilization of vitamin B₁₂.Use of radioactive vitamin B₁₂ (cobalt⁶⁰-labeled B₁₂) has led to a better understanding of the pathogenesis of both types of megaloblastic anemia. The radioactive vitamin provides a useful tool for study of its absorption from the gastrointestinal tract.     

Isolation of a novel Pseudomonas species SP2 producing vitamin B12 under aerobic condition

Vitamin B₁₂ is a complex biomolecule that acts as a cofactor for a variety of enzymes in microbial metabolism. Pseudomonas denitrificans is exclusively used as an industrial strain for the production of vitamin B₁₂ under aerobic conditions. However, only a few strains of Pseudomonas have been reported to possess the capability of producing this vitamin and they are strongly patent-protected. To improve the applicability of the vitamin B₁₂-producing microorganisms, a new isolate was obtained from municipal waste samples and characterized for its biological properties. The new isolate, designated as SP2, was identified to be a Pseudomonas species based on the sequence homology of its 16S rDNA. Pseudomonas species SP2 had essential genes for vitamin B₁₂ synthesis such as cobB and cobQ and produced a similar amount of vitamin B₁₂ (10.6 ± 0.05 μg/mL) as P. denitrificans ATCC 13867 in 24 h flask culture. SP2 grew well under aerobic condition with the maximum specific growth rate (µ _max ) of 0.91 ± 0.03/h, but showed a poor growth under micro-aerobic conditions. SP2 was resistant to antibiotics like streptomycin, carbenicillin, ampicillin, cefpodoxime, colistin, nalidixic acid and sparfloxacin. The ability of SP2 to grow faster and produce vitamin B₁₂ under aerobic conditions makes it a promising host for the production of some biochemicals requiring a coenzyme B₁₂-dependent enzyme, such as glycerol dehydratase.     

Relationships between biotin and vitamin B12. Effects of biotin and vitamin B12 on folic acid metabolism

1. The effects of dietary biotin compared with vitamin B₁₂ on the total content and on the distribution of the various folate derivatives in the liver of rats given a biotin-free diet have been studied. The effect of both vitamins on the conversion in vitro of folic acid into citrovorum factor in the same experimental conditions was also examined. 2. In biotin-treated rats as well as in vitamin B₁₂-treated rats the total content of folic acid-active substances measured microbiologically by Pediococcus cerevisiae, Streptococcus faecalis and Lactobacillus casei is significantly higher than that in biotin-deficient rats. The liver distribution of various folate derivatives in the three groups of animals is also markedly modified. 3. The amount of citrovorum factor formed in systems with liver homogenate of rats receiving biotin or vitamin B₁₂ is higher than that with liver homogenates of deficient rats. 4. The results obtained demonstrate the influence of biotin in the metabolism of folic acid, and the similar actions at this level of both biotin and vitamin B₁₂. These results are discussed in relation to the participation of the two vitamins in the metabolism of C₁ units, as a biochemical interpretation of the relationships between vitamin B₁₂ and biotin.     

Reactions of vitamin B12r with polyhalogenated hydrocarbon pesticides

The reaction of vitamin B_12r, generated by photolysis of methylcobalamin under a nitrogen atmosphere, with 1,1,1-trichloro-2,2-bis(p-chlorophenyl)ethane (DDT), results in extensive dechlorination and formation of 1,1-dichloro-2,2-bis(p-chlorophenyl)ethane (DDD) and 1,1-dichloro-2,2-bis(p-chlorophenyl)ethylene (DDE) as the major products. Minor quantities of 1,1-bis(p-chlorophenyl)-2-chloroethane (DDMS), 1,1-bis(p-chlorophenyl)-2-chloroethylene (DDMU), 1,1-bis(p-chlorophenyl)ethane (DDO), and 1,1-bis(p-chlorophenyl)ethylene (DDNU) were also formed. Reaction of vitamin B_12r with DDD results in the production of DDMU and DDMS, the latter of which can react to produce DDNU and DDO. DDE and DDMU do not react with vitamin B_12r. The results obtained are suggestive of a vitamin B_12r-mediated dechlorination pathway for polyhalogenated hydrocarbon pesticides.     

Higher Prevalence of Metformin-Induced Vitamin B12 Deficiency in Sulfonylurea Combination Compared with Insulin Combination in Patients with Type 2 Diabetes: A Cross-Sectional Study

Long-term and high-dose treatment with metformin is known to be associated with vitamin B₁₂ deficiency in patients with type 2 diabetes. We investigated whether the prevalence of B₁₂ deficiency was different in patients treated with different combination of hypoglycemic agents with metformin during the same time period. A total of 394 patients with type 2 diabetes treated with metformin and sulfonylurea (S+M group, n = 299) or metformin and insulin (I+M group, n = 95) were consecutively recruited. The vitamin B₁₂ and folate levels were quantified using the chemiluminescent enzyme immunoassay. Vitamin B₁₂ deficiency was defined as vitamin B₁₂≤300 pg/mL without folate deficiency (folate>4 ng/mL). The mean age of and duration of diabetes in the subjects were 59.4±10.5 years and 12.2±6.7 years, respectively. The mean vitamin B₁₂ level of the total population was 638.0±279.6 pg/mL. The mean serum B₁₂ levels were significantly lower in the S+M group compared with the I+M group (600.0±266.5 vs. 757.7±287.6 pg/mL, P<0.001). The prevalence of vitamin B₁₂ deficiency in the metformin-treated patients was significantly higher in the S+M group compared with the I+M group (17.4% vs. 4.2%, P = 0.001). After adjustment for various factors, such as age, sex, diabetic duration, duration or daily dose of metformin, diabetic complications, and presence of anemia, sulfonylurea use was a significant independent risk factor for B₁₂ deficiency (OR = 4.74, 95% CI 1.41–15.99, P = 0.012). In conclusion, our study demonstrated that patients with type 2 diabetes who were treated with metformin combined with sulfonylurea require clinical attention for vitamin B₁₂ deficiency and regular monitoring of their vitamin B₁₂ levels.     

Vitamin analysis of five planktonic microalgae and one macroalga

Vitamin analysis was carried out on five microalgae used in aquaculture:Tetraselmis suecica, Isochrysis galbana, Pavlova lutheri, Skeletonema costatum andChaetoceros calcitrans and one macroalga,Sargassum muticum, which is invasive on the Atlantic shores of France. Both liposoluble (provitamin A, E, K) and hydrosoluble (B₁, B₂, B₆, B₁₂, C, PP) vitamins were quantified. For most of them, greater amounts were obtained in the algal products than in the usual sources. On a dry weight basis,Tetraselmis suecica contained 4280 μg g^?1 provitamin A and 6323 μg g^?1 vitamin E,Pavlova lutheri 1162 μg g^?1 vitamin B₁₂ and 837 μg g^?1 vitamin C,Isochrysis galbana 2690 μg g^?1 vitamin PP and 183 μg g^?1 vitamin B₆, andSkeletonema costatum 710 μg g^?1 vitamin B₁.     

Characterization of vitamin B12 compounds in the fruiting bodies of shiitake mushroom (Lentinula edodes) and bed logs after fruiting of the mushroom

This study determined the vitamin B₁₂ content in commercially available dried fruiting bodies of shiitake mushroom, Lentinula edodes. The vitamin B₁₂ contents in dried donko-type fruiting bodies with closed caps (5.61 ± 3.90 μg/100 g dry weight), did not significantly differ from those of dried koushin-type fruiting bodies with open caps (4.23 ± 2.42 μg/100 g dry weight). The bed logs after fruiting of the mushroom also contained the vitamin B₁₂ levels similar to that in the dried shiitake fruiting bodies. To determine whether the dried shiitake fruiting bodies and their bed logs contained vitamin B₁₂ or other corrinoid compounds that are inactive in humans, we purified corrinoid compounds using an immunoaffinity column and identified vitamin B₁₂ using vitamin B₁₂-dependent Escherichia coli 215 bioautograms and liquid chromatography-electrospray ionization tandem mass spectrometry (LC/ESI-MS/MS) chromatograms. Dried shiitake fruiting bodies rarely contained an unnatural corrinoid vitamin B₁₂[c-lactone] that is inactive in humans. Given that shiitake mushroom lacks the ability to synthesize vitamin B₁₂ de novo, the vitamin B₁₂ found in dried shiitake fruiting bodies must have been derived from the bed logs.     

Nutrition-Related Vitamin B12 Deficiency in Patients in Pakistan with Type 2 Diabetes Mellitus not Taking Metformin

ObjectiveTo estimate the frequency of undiagnosed vitamin B₁₂ deficiency among patients with type 2 diabetes mellitus who had not taken metformin during at least the prior 5 years and to ascertain whether vitamin B₁₂ deficiency among the patients with type 2 diabetes was due to nutritional deficiency or malabsorption.MethodsSerum vitamin B₁₂ levels were measured in 44 subjects with diabetes and a mean age of 51 years (range, 40 to 70), 21 (48%) of whom had low levels (< 200 pg/mL). Of those 21 patients, 10 agreed to enroll in an intervention phase consisting of oral supplementation with mecobalamin, 1,500 μg daily for 3 months. Those patients in whom vitamin B₁₂ levels failed to normalize after oral supplementation alone would be presumed to have vitamin B₁₂ deficiency attributable to malabsorption.ResultsAlmost half of the subjects with type 2 diabetes not taking metformin had biochemically proven vitamin B₁₂ deficiency. All 10 subjects who enrolled in the intervention phase had normalization of their vitamin B₁₂ levels after 3 months of oral supplementation with mecobalamin.ConclusionWe conclude that vitamin B₁₂ deficiency is common among patients with type 2 diabetes and was related to nutrition in our study group. In addition to intensive glycemic control, vitamin B₁₂ supplementation should be considered for treatment of diabetic neuropathy. In almost 50% of patients with low vitamin B₁₂ levels, the deficiency was corrected with oral supplementation only. This, indeed, is an important finding, inasmuch as oralvitamin B₁₂ supplementation is easy, convenient, and readily accepted by patients. This finding highlights the need for aggressive and early diagnosis and treatment to avoid complications of vitamin B₁₂ deficiency. (Endocr Pract. 2010;16:205-208)     

Studies of the ribosome-associated vitamin B12S adenosylating enzyme of Lactobacillus leichmannii.

The ribosomes of Lactobacillus leichmannii (ATCC 7830) are the loci of an enzyme system that converts vitamin B₁₂ (cyanocobalamin, CN-Cbl) to adenosylcobalamin (AdoCbl) in two steps, reduction of B_12a (Co III) to B_12s (Co I) by B_12a reductase and the adenosylation of B_12s to AdoCbl by an adenosylating enzyme. The vitamin B₁₂ reductase, as in other organisms, is unstable. Adenosylating enzyme, however, is readily demonstrable. Reported experiments deal primarily with that enzyme. Evidence of the association between ribosomes and adenosylating enzyme was found in sucrose density gradient analyses. Intact, washed ribosomes yielded an enzyme activity profile that coincided with the ultraviolet maximum of 70S reference ribosomes. When intact ribosomes were exposed to 2.5 m CsCl so that 70% of ribosomal protein was recoverable in the 144,000g supernatant fraction and >90% of RNA was in the pellet, adenosylating enzyme was found in the supernatant fraction. “Stripped” ribosomes had low levels of enzyme activity and could reassociate with free enzyme protein. Stripped ribosomes remained competent in protein synthesis. Hence, adenosylating enzyme is not an integral ribosome component. Partially purified ribosome-associated B_12s adenosylating enzyme has requirements for vitamin B_12s, ATP, and Mn²⁺, though Mn²⁺ could be partially replaced by Mg²⁺. Isotopic studies showed that ATP is the source of the adenosyl moiety of AdoCbl and that inorganic tripolyphosphate is a reaction product. Substantial adenosylating activity is associated with ribosomes only in the vitamin B₁₂-requiring lactobacilli, L. delbrueckii (ATCC 9649) and L. leichmannii. Surprisingly, L. casei (ATCC 9595) ribosomes displayed a measurable, if low, level of activity. L. acidophilus (ATCC 11506) ribosomes had no detectable activity. The bulk of the activity in Clostridium tetanomorphum (ATCC 3606) and Propionibacterium shermannii (ATCC 9614) is in the 144,000g supernatant fraction. Ribosomes from animal cells (liver, reticulocytes, and Ehrlich ascites tumor) were without detectable activity.     

The effect of vitamin B12 and biotin on the metabolism of vitamin B12 in biotin-deficient rats

1. The effect of the administration of vitamin B₁₂ and biotin on the metabolic pattern of vitamin B₁₂ in biotin-deficient rats was studied. 2. No significant changes in the absorption and excretion of orally administered [⁵⁸Co]vitamin B₁₂ were noted either in vitamin B₁₂-treated and or in biotin-fed rats. A significant decrease of the uptake of orally given [⁵⁸Co]vitamin B₁₂ was observed in the liver and kidneys of biotin-treated rats, whereas an increase of uptake in the kidneys of vitamin B₁₂-treated rats was noted as compared with biotin-deficient animals. 3. No significant difference in the excretion of radioactivity was noted between biotin deficient and biotin-fed rats when [⁵⁸Co]vitamin B₁₂ was administered by injection. A small decrease was observed in vitamin B₁₂-treated rats. The retention of injected [⁵⁸Co]vitamin B₁₂ by major organs of biotin-treated rats was lower than that of biotin-deficient rats. A lower content of [⁵⁸Co]vitamin B₁₂ was also detected in the organs, with the exception of the kidneys, of vitamin B₁₂-treated rats. 4. These results are discussed in terms of an interrelationship between biotin and vitamin B₁₂.     

Genetic and non-genetic influences during pregnancy on infant global and site specific DNA methylation: role for folate gene variants and vitamin B12

Inter-individual variation in patterns of DNA methylation at birth can be explained by the influence of environmental, genetic and stochastic factors. This study investigates the genetic and non-genetic determinants of variation in DNA methylation in human infants. Given its central role in provision of methyl groups for DNA methylation, this study focuses on aspects of folate metabolism. Global (LUMA) and gene specific (IGF2, ZNT5, IGFBP3) DNA methylation were quantified in 430 infants by Pyrosequencing®. Seven polymorphisms in 6 genes (MTHFR, MTRR, FOLH1, CβS, RFC1, SHMT) involved in folate absorption and metabolism were analysed in DNA from both infants and mothers. Red blood cell folate and serum vitamin B₁₂ concentrations were measured as indices of vitamin status. Relationships between DNA methylation patterns and several covariates viz. sex, gestation length, maternal and infant red cell folate, maternal and infant serum vitamin B₁₂, maternal age, smoking and genotype were tested. Length of gestation correlated positively with IGF2 methylation (rho = 0.11, p = 0.032) and inversely with ZNT5 methylation (rho = −0.13, p = 0.017). Methylation of the IGFBP3 locus correlated inversely with infant vitamin B₁₂ concentration (rho = −0.16, p = 0.007), whilst global DNA methylation correlated inversely with maternal vitamin B₁₂ concentrations (rho = 0.18, p = 0.044). Analysis of common genetic variants in folate pathway genes highlighted several associations including infant MTRR 66G>A genotype with DNA methylation (χ² = 8.82, p = 0.003) and maternal MTHFR 677C>T genotype with IGF2 methylation (χ² = 2.77, p = 0.006). These data support the hypothesis that both environmental and genetic factors involved in one-carbon metabolism influence DNA methylation in infants. Specifically, the findings highlight the importance of vitamin B₁₂ status, infant MTRR genotype and maternal MTHFR genotype, all of which may influence the supply of methyl groups for DNA methylation. In addition, gestational length appears to be an important determinant of infant DNA methylation patterns.     

Vitamin B12-induced alterations in activities of α-glycerophosphate dehydrogenase and malic enzyme in brain of singi fish, Heteropneustes fossilis (Bloch)

Different doses of vitamin B₁₂ (0.25, 0.5, 1, 2 and 4 μg/g, injected intraperitoneally for three consecutive days) altered the activities of mitochondrial-α-glycerophosphate dehydrogenase (α-GPD) and NADP-dependent cytosolic malic enzyme (ME) in the brain of singi fish. The α-GPD activity increased at doses of 0.5, 1, 2 and 4 μg/g vitamin B₁₂. A dose of 0.5 μg/g vitamin B₁₂ induced less activity than higher doses. ME activity increased with 1, 2 and 4 μg/g of vitamin B₁₂/g. The mitochondrial and cytosolic protein content remained unchanged after vitamin B₁₂ administration. Cycloheximide treatment inhibited the vitamin B₁₂-induced increase in α-GPD and ME activity. Thus, vitamin B₁₂ is involved in the induction of some enzymes in fish brain.