β-Thalassemia and βA globin gene haplotypes in Mexican mestizos

β-globin haplotypes of 20 β-thalassemia (β-thal) and 87 β^A Mexican mestizo chromosomes were analyzed to ascertain the origin of the β-thal alleles and the frequencies and distribution of the β^A haplotypes among northwestern Mexican mestizos. Sixteen β-thal chromosomes carried six Mediterranean alleles [five codon 39 C→T; two IVS1:1 G→A; two IVS1:5 G→A; three IVS1:110 G(A; one codon 11 (–T) and three (δβ)°-thal]; the remaining four were linked to three rare alleles (two –28 A→C and one each: –87 C→T and initiation codon ATG→GTG). Among the 87 β^A chromosomes, 17 different 5′ haplotypes with frequencies for 1, 3, 2 and 5 of 39.0%, 17. 2%, 9.2% and 6.9%, respectively, were observed. The β-haplotype analysis showed that 13 out of 16 Mediterranean chromosomes could easily be explained by gene migration; however, one codon 39 associated with haplotype 4 (– – – – + + –), one IVS1:1 with haplotype 1(+ – – – – + +) and one IVS1:5 G→A, may represent separate mutational events. Analysis of the rare alleles showed that the –28 A→C mutation was associated with the commonest β^A haplotype in Mexican mestizos, Mediterraneans and the total world population; therefore an independent origin cannot be ruled out. The –87 C→T and initiation codon ATG→GTG were found with β-haplotypes different from the reported ones, suggesting an indigenous origin. Received: 23 April 1996 / Revised: 10 September 1996     

Detection of responsible mutations for beta thalassemia in the Kermanshah Province of Iran using PCR-based techniques

Beta Thalassemia has been reported to be a common genetic disorder in Iran. To establish the molecular spectrum of the beta thalassemias in the Kermanshah Province of Iran, 185 unrelated beta thalassemia patients with Kurdish ethnic background were studied (181 β-thalassemia major and 4 β-thalassemia intermedia). Using polymerase chain reaction-amplification refractory mutation system (PCR-ARMS), restriction fragment length polymorphism (RFLP) and direct genomic sequencing twenty different mutations were identified accounting for 98.1% of the alleles. Approximately 80.8% of β-thalassemia chromosomes had β⁰ mutation. The most prevalent mutation was the IVSII-1 (G→A) (32.97%), followed by CD8/9 +G (13.51%), IVSI-110 (C→T) (8.38%), CD 36/37 −T (7.84%), CD8 −AA (5.94%), CD15 (G→A) (4.86%) and IVSI-1 (G→A) (4.59%). All of these mutations accounted for 78.1% of the alleles. The results described here will be of valuable help in the development of successful prevention programs for the population of Kermanshah.     

The Xmn1 polymorphic site 5′ to the Gγ gene and its correlation to the Gγ:Aγ ratio, age at first blood transfusion and clinical features in β-Thalassemia patients from Western Iran

β-Thalassemia is the most common single gene disorder in Iran and more than 25,000 affected individuals have been reported. It has been reported that in patients with β-thalassemia in the presence of Xmn1 polymorphic site the level of Hb F and ^Gγ: ^Aγ ratio is increased. The prevalence of Xmn1 polymorphic site, ^Gγ: ^Aγ ratio and Hb F in 197 β-thalassemia major patients from the Kermanshah Province of Iran were studied. The Xmn1 polymorphic site was determined by PCR-RFLP procedure. The levels of ^Gγ and ^Aγ chains were detected by HPLC. The percent of Hb F was determined using electrophoresis method. In β-thalassemia major patients the frequency of presence Xmn1 was 0.39. The mean of ^Gγ: ^Aγ ratio was found to be 2.5. In the present study it was found that in the presence of Xmn1 polymorphic site ^Gγ percent and ^Gγ: ^Aγ ratio were significantly increased (P = 0.01) and the clinical features such as splenomegaly and bone marrow expansion were significantly improved (P = 0.01). We found that in the presence of Xmn1 polymorphic site on both chromosomes (+/+) the level of Hb F tended to be increased compared to the absence of Xmn1 (−/−). The present investigation has studied the frequency of Xmn1 polymorphic site in β-thalassemia major patients from Western Iran and has revealed that the presence of this polymorphic site caused a positive influence on Hb F production and the ^Gγ percent which could improve the clinical symptoms of β-thalassemia patients.     

Molecular characterization of β-thalassemia intermedia: a report from Iran

Thalassemia intermedia is a clinical definition applied to patients whose clinical phenotype is milder than thalassemia major. To characterize different common mechanisms involving in pathogenesis of moderate to severe β-thalassemia intermedia, we have studied four factors in 38 Iranian patients with thalassemia intermedia: β-globin gene mutation, deletion in α-globin genes, presence of XmnI polymprphism and RFLP haplotype at β-globin gene cluster. The results showed that 84.4% of patients were associated with severe mutations in β-globin gene, mainly IVSII-1(G to A) (56.4%). The positive XmnI polymorphism was seen in 76.9% of the studied alleles which showed strong linkage to β° mutations and high level of fetal hemoglobin. Co-existence of α-globin gene deletions, β⁺ mutation and the most frequent of RFLP haplotype (−/−, +/+, −/+, +/+, +/+, +/+, −/−) were seen in 7.7, 12.8 and 17.9%, respectively. In this group of our study it seems the main ameliorating factor in the patients was co-inheritance of a positive XmnI polymorphism with β° mutation especially IVSII-1, which were associated with increased production of fetal hemoglobin. However, the other probable genetic factors should be investigated to describe genotype-phenotype correlation in thalassemia intermedia patients.     

Cyclooxygenase-2 gene and epithelial ovarian carcinoma risk

In this study, we aimed to investigate a possible association of the COX-2 polymorphisms (−765G→C and −1195A→G) and with the risk of developing epithelial ovarian carcinoma (EOC). COX-2 gene polymorphisms was investigated in 111 healthy women and 57 patients with EOC. Individuals who had −765 CG, −1195 AA genotype, and −765 C allele had increased risk for ovarian carcinoma (P < 0.01) and individuals with −765 GG, −1195 AG genotypes and −1195 G allele seem to be protected from ovarian carcinoma (P < 0.01). Haplotype analysis confirmed the association of COX-2 gene variants with ovarian carcinoma and revealed that the frequencies of −765C: −1195A haplotype frequencies was significantly higher in patients as compared with those of controls (P = 0.048). We state that there appears to be a modulating role for the COX-2 −1195A→G and −765G→C polymorphisms in the development of EOC. To the best of our knowledge, this is the first study to show such an association.     

Comparative analysis of four <Emphasis Type="Italic">β</Emphasis>-galactosidases from <Emphasis Type="Italic">Bifidobacterium bifidum</Emphasis> NCIMB41171: purification and biochemical characterisation

Four different β-galactosidases (previously named BbgI, BbgII, BbgIII and BbgIV) from Bifidobacterium bifidum NCIMB41171 were overexpressed in Escherichia coli, purified to homogeneity and their biochemical properties and substrate preferences comparatively analysed. BbgI was forming a hexameric protein complex of 875 kDa, whereas BbgII, BbgIII and BbgIV were dimers with native molecular masses of 178, 351 and 248 kDa, respectively. BbgII was the only enzyme that preferred acidic conditions for optimal activity (pH 5.4–5.8), whereas the other three exhibited optima in more neutral pH ranges (pH 6.4–6.8). Na⁺ and/or K⁺ ions were prerequisite for BbgI and BbgIV activity in Bis–Tris-buffered solutions, whereas Mg⁺⁺ was strongly activating them in phosphate-buffered solutions. BbgII and BbgIII were slightly influenced from the presence or absence of cations, with Mg⁺⁺, Mn⁺⁺ and Ca⁺⁺ ions exerting the most positive effect. Determination of the specificity constants (k _cat/K _m) clearly indicated that BbgI (6.11 × 10⁴ s⁻¹ M⁻¹), BbgIII (2.36 × 10⁴ s⁻¹ M⁻¹) and especially BbgIV (4.01 × 10⁵ s⁻¹ M⁻¹) are highly specialised in the hydrolysis of lactose, whereas BbgII is more specific for β-d-(1→6) galactobiose (5.59 × 10⁴ s⁻¹ M⁻¹) than lactose (1.48 × 10³ s⁻¹ M⁻¹). Activity measurements towards other substrates (e.g. β-d-(1→6) galactobiose, β-d-(1→4) galactobiose, β-d-(1→4) galactosyllactose, N-acetyllactosamine, etc.) indicated that the β-galactosidases were complementary to each other by hydrolysing different substrates and thus contributing in a different way to the bacterial physiology.     

Antenatal screening and fetal diagnosis of β-thalassemia in a Chinese population: prevalence of the β-thalassemia trait in the Guangzhou area of China

In this paper β-globin gene mutations were detected in 452 β-thalassemia carriers from 13 462 unselected individuals (6731 pregnant women and their husbands) who were screened for the β-thalassemia trait in the Guangzhou area of China. The incidence of β-thalassemia was calculated as 3.36%. This is higher than found in previous studies performed in southern China. Using reverse dot blot analysis, we found 11 types of mutations and identified the mutations in 446 (98.7%) of the 452 cases. Direct sequencing was carried out on the 6 unknown alleles, and a novel amber mutation in a β⁰-thalassemia gene (β³⁷TGG→TAG) was found in one of them. Thus, the prevalence and spectrum of β-thalassemia mutations were obtained for this region. Twelve couples were detected at risk for thalassemia, and prenatal diagnosis was carried out in 11 of them. This is the largest number of Chinese subjects studied by DNA analysis to date and is the first report on the prospective diagnostic trial for β-thalassemia in a Chinese population. In addition, we have performed 80 prenatal diagnoses based on screening for β-thalassemia retrospectively. Received: 17 November 1995 / Revised: 18 March 1996     

An association between polymorphism of the heme oxygenase-1 and -2 genes and age-related macular degeneration

Iron may be implicated in the generation of oxidative stress by the catalyzing the Haber–Weiss or Fenton reaction. On the other hand, oxidative stress has been implicated in the pathogenesis of age-related macular degeneration (AMD) and heme oxygenase-1 (HO-1), encoded by the HMOX1 gene and heme oxygenase-2 (HO-2), encoded by the HMOX2 gene are important markers of iron-related oxidative stress and its consequences. Therefore, variability of the HMOX1 and HMOX2 genes might be implicated in the pathogenesis of AMD through the modulation of the cellular reaction to oxidative stress. In the present work, we investigated the association between AMD and a G → C transversion at the 19 position in the HMOX1 gene (the 19G>C-HMOX1 polymorphism, rs2071747) and a A → G transition at the −42 + 1444 position in the HMOX2 gene (the −42 + 1444A>G-HMOX2 polymorphism, rs2270363) and its modulation by some environmental factors. 279 patients with AMD and 105 controls were recruited in this study and the polymorphisms were typed by restriction fragment length polymorphism and allele-specific polymerase chain reaction (PCR). We observed an association between the occurrence of dry AMD and the G/A genotype of the −42 + 1444A>G-HMOX2 polymorphism (odds ratio (OR) 2.72), whereas the G/G genotype reduced the risk of dry AMD (OR 0.41). The G/C genotype and the C allele of the 19 G>C-HMOX1 polymorphism and the G/G genotype and the G allele of the −42 + 1444A>G-HMOX2 polymorphism were associated with progression of AMD from dry to wet form (OR 4.83, 5.20, 2.55, 1.69, respectively). On the other hand, the G/G genotype and the G allele of the 19 G>C-HMOX1 polymorphism and the A/G genotype and the A allele of the −42 + 1444A>G-HMOX2 polymorphism protected against AMD progression (OR 0.19, 0.19, 0.34, 0.59, respectively). Therefore, the 19G>C-HMOX1 and the −42 + 1444A>G-HMOX2 polymorphisms may be associated with the occurrence and progression of AMD.     

Beta-thalassaemia in indigenous Belgian families: identification of a novel mutation

The molecular basis of β-thalassemia was investigated at the DNA level in 28 Belgians from 14 unrelated families. All the patients were heterozygous for β-thalassaemia. Seven different mutations were identified using a combination of dot-blot hybridization with allele-specific oligonucleotide probes and direct automated fluorescence-based DNA sequencing. Among these mutations, four are commonly found in the Mediterraneans – codon 8 (–AA), IVS-I-1 (G→A), IVS-I-6 (T→C) and codon 39 (C→T) – and two have occasionally been reported – initiation codon (T→C) and codon 35 (C→A). The last mutation, a –CC deletion at codons 38/39, appears to be a novel mutation and can routinely be investigated by AvaII restriction on amplified DNA. We report our findings, discuss the diversity of the mutations found in Belgium and show the usefulness of direct DNA sequencing in a population in which the molecular defects of β-thalassaemia have yet to be characterized and in which screening is hampered by the wide range of potential mutations. Received: 8 December 1995 / Revised: 7 February 1996     

Fast cyclic electron transport around photosystem I in leaves under far-red light: a proton-uncoupled pathway?

Fast cyclic electron transport (CET) around photosystem I (PS I) was observed in sunflower (Helianthus annuus L.) leaves under intense far-red light (FRL) of up to 200 μmol quanta m⁻² s⁻¹. The electron transport rate (ETR) through PS I was found from the FRL-dark transmittance change at 810 and 950 nm, which was deconvoluted into redox states and pool sizes of P700, plastocyanin (PC) and cytochrome f (Cyt f). PC and P700 were in redox equilibrium with K _e = 35 (ΔE _m = 90 mV). PS II ETR was based on O₂ evolution. CET [(PS I ETR) − (PS II ETR)] increased to 50–70 μmol e⁻ m⁻² s⁻¹ when linear electron transport (LET) under FRL was limited to 5 μmol e⁻ m⁻² s⁻¹ in a gas phase containing 20–40 μmol CO₂ mol⁻¹ and 20 μmol O₂ mol⁻¹. Under these conditions, pulse-saturated fluorescence yield F _m was non-photochemically quenched; however, F _m was similarly quenched when LET was driven by low green or white light, which energetically precluded the possibility for active CET. We suggest that under FRL, CET is rather not coupled to transmembrane proton translocation than the CET-coupled protons are short-circuited via proton channels regulated to open at high ΔpH. A kinetic analysis of CET electron donors and acceptors suggests the CET pathway is that of the reversed Q-cycle: Fd → (FNR) → Cyt c_n → Cyt b_h → Cyt b_l → Rieske FeS → Cyt f → PC → P700 →→ Fd. CET is activated when PQH₂ oxidation is opposed by high ΔpH, and ferredoxin (Fd) is reduced due to low availability of e⁻ acceptors. The physiological significance of CET may be photoprotective, as CET may be regarded as a mechanism of energy dissipation under stress conditions.     

Hypermethylation of the gene <Emphasis Type="Italic">LARP2</Emphasis> for noninvasive prenatal diagnosis of β-thalassemia based on DNA methylation profile

In order to identify epigenetic markers of β-thalassemia, a genome-wide profiling method named differential methylation hybridization was used to search these differentially methylated genes. Unsupervised hierarchical clustering and molecular annotation system were used to analyze the data, and methylation-specific PCR and real-time PCR were used to confirm the differentially methylated genes. This system was validated by detecting 13 cases, 10 of which were homo-zygous β-thalassaemia. Totally 113 genes were identified as methlyation-enriched genes (ratio ≥ 2.0, P < 0.05) and 96 genes were identified as hypomethylated genes in both groups (ratio ≤ 0.5, P < 0.05). The promoter of the gene of La ribonucleoprotein domain family (LARP2) was significantly hypermethylated in β-thalassemia, and the expression of LARP2 was significantly lower in β-thalassemia. Hypermethylation of the LARP2 promoter was correlated with its lower expression in β-thalassemia and our chip-based DNA methylation detection system can provide earlier diagnosis of β-thalassemia using this epigenetic marker.     

An ancient autosomal haplotype bearing a rare achromatopsia-causing founder mutation is shared among Arab Muslims and Oriental Jews

Numerous cultural aspects, mainly based on historical records, suggest a common origin of the Middle-Eastern Arab Muslim and Jewish populations. This is supported, to some extent, by Y-chromosome haplogroup analysis of Middle-Eastern and European samples. Up to date, no genomic regions that are shared among Arab Muslim and Jewish chromosomes and are unique to these populations have been reported. Here, we report of a rare achromatopsia-causing CNGA3 mutation (c.1585G>A) presents in both Arab Muslim and Oriental Jewish patients. A haplotype analysis of c.1585G>A-bearing chromosomes from Middle Eastern and European origins revealed a shared Muslim–Jewish haplotype, which is different from those detected in European patients, indicating a recurrent mutation stratified by a Jewish–Muslim founder effect. Comprehensive whole-genome haplotype analysis using 250 K single nucleotide polymorphism arrays revealed a large homozygous region of ~11 Mbp shared by both Arab Muslim and Oriental Jewish chromosomes. A subsequent microsatellite analysis of a 21.5 cM interval including CNGA3 and the adjacent chromosome 2 centromere revealed a unique and extremely rare haplotype associated with the c.1585G>A mutation. The age of the shared c.1585G>A mutation was calculated using the microsatellite genotyping data to be about 200 generations ago. A similar analysis of mutation age based on the Arab Muslim data alone showed that the mutation was unlikely to be the product of a recent gene flow event. The data present here demonstrate a large (11 Mbp) genomic region that is likely to originate from an ancient common ancestor of Middle-Eastern Arab Muslims and Jews who lived approximately 5,000 years ago.     

Molecular characterization of β-thalassemia in Azerbaijan

We have analyzed the -thalassemia mutations in 99 chromosomes of 49 adults with -thalassemia major and of one with Hb S--thalassemia, who are regular patients at a large hematology clinic in Bakü, Azerbaijan. A total of 20 different mutants were identified; three [frameshift at codon 8 (-AA); IVS-II-I (GA); IVS-I-110 (GA)] were present in about two-thirds of all chromosomes. Most alleles are the same as found in Mediterranean populations; a few have an Asian origin or come from Kurdistan, Lebanon, Saudi Arabia, or a black population. One mutant [frameshift at codons 82/ 83 (-G)] might be specific for the Azerbaijanian population. Nearly all patients were transfused, which made quantitation of Hb F impossible; high^G values were present in the Hb F of those patients whose -thalassemia chromosome carried the C T mutation at position — 158 in the promoter of the ^G-globin gene.     

Structural and functional characterization of <Emphasis Type="Italic">Delphinus delphis</Emphasis> hemoglobin system

Structural analysis of the hemoglobin (Hb) system of Delphinus delphis revealed a high globin multiplicity: HPLC–electrospray ionization-mass spectrometry (ESI-MS) analysis evidenced three major β (β1 16,022 Da, β2 16,036 Da, β3 16,036 Da, labeled according to their progressive elution times) and two major α globins (α1 15,345 Da, α2 15,329 Da). ESI-tandem mass and nucleotide sequence analyses showed that β2 globin differs from β1 for the substitution Val126 → Leu, while β3 globin differs from β2 for the isobaric substitution Lys65 → Gln. The α2 globin differs from the α1 for the substitution Ser15 → Ala. Anion-exchange chromatography allowed the separation of two Hb fractions and HPLC–ESI-MS analysis revealed that the fraction with higher pI (HbI) contained β1, β2 and both the α globins, and the fraction with lower pI (HbII) contained β3 and both the α globins. Both D. delphis Hb fractions displayed a lower intrinsic oxygen affinity, a decreased effect of 2,3-BPG and a reduced cooperativity with respect to human HbA₀, with HbII showing the more pronounced differences. With respect to HbA₀, either the substitution Proβ5 → Gly or the Proβ5 → Ala is present in all the cetacean β globins sequenced so far, and it has been hypothesized that position 5 of β globins may have a role in the interaction with 2,3-BPG. Regarding the particularly lowered cooperativity of HbII, it is interesting to observe that the variant human HbA, characterized by the substitution Lysβ65 → Gln (HbJ-Cairo) has a decreased cooperativity with respect to HbA₀.     

Hb Costa Rica or · 2 ‚ 277(EF1)His→Arg: the first example of a somatic cell mutation in a globin gene

We have identified a minor hemoglobin component (∼5%) in the blood of a healthy Costa Rican female, but not in her mother and two brothers (father not studied), that has an His→Arg replacement at position β77 (Hb Costa Rica). No other amino acid replacements were observed and no β- or γ-chain-like peptides were present. Hb Costa Rica has a normal stability. Sequence analyses of numerous polymerase chain reaction (PCR)-amplified segments of DNA that contain exon 2 of the β gene failed to identify a CAC→CGC (His→Arg) mutation. The same was the case when cDNA was sequenced, indicating that a β-Costa Rica-mRNA could not be detected with this procedure. Gene mapping of genomic DNA with BglII, BamHI, and HindIII gave normal fragments only and with the same intensity as observed for the fragments of a normal control. The quantities of the β chain variants Hb J-Iran and Hb Fukuyama with related mutations at β77 vary between 30% and 45% in heterozygotes, whereas that of Hb F-Kennestone with the same His→Arg mutation but in the ^Gγ-globin gene, is a high 40%–45% (as percentage of total ^Gγ) in a heterozygous newborn. These different observations exclude a heterozygosity of the A→G mutation at codon β77, as well as a deletion comparable to that of Hbs Lepore or Kenya, or a β-globin gene duplication, and point to a nontraditional inheritance of Hb Costa Rica. Allele-specific amplification of cDNA with appropriate primers identified the presence of a low level of mutated mRNA in the reticulocytes of the patient, which was confirmed by dotblot analysis of the same material with ³²P-labeled probes. Comparable amplification products were not observed in genomic DNA. The A→G mutation apparently occurred in a somatic cell at a relatively early stage in the development of the hematopoietic cell system, and Hb Costa Rica accumulated through rapid cell divisions in patchy areas in the bone marrow (somatic mosaicism). An unequal distribution of Hb Costa Rica over the red cells supports this possibility. Received: 25 August 1995 / Revised: 13 December 1995     

DNA-polymorphic patterns linked to the β-globin genes in German families affected with hemoglobinopathies and thalassemias: a comparison to other ethnic groups

Summary DNA haplotype constellations of the β-globin gene cluster have been analyzed in German families with hemoglobinopathies (Hb Freiburg, Hb K?ln, Hb Presbyterian) and β-thalassemias. The polymorphis patterns obtained were compared to those found in families from Greece, Italy, and Turkey affected by β-thalassemia syndromes. With the combined analysis of seven restriction site polymorphisms a DNA-diagnostic prediction for additional offspring could be made with an overall frequency of 75% in the four ethnic groups.     

Mammalian NADH:ubiquinone oxidoreductase (Complex I) and nicotinamide nucleotide transhydrogenase (Nnt) together regulate the mitochondrial production of H<Subscript>2</Subscript>O<Subscript>2</Subscript>—Implications for their role in disease,especially cancer

Mammalian NADH:ubiquinone oxidoreductase (Complex I) in the mitochondrial inner membrane catalyzes the oxidation of NADH in the matrix. Excess NADH reduces nine of the ten prosthetic groups of the enzyme in bovine-heart submitochondrial particles with a rate of at least 3,300 s⁻¹. This results in an overall NADH→O₂ rate of ca. 150 s⁻¹. It has long been known that the bovine enzyme also has a specific reaction site for NADPH. At neutral pH excess NADPH reduces only three to four of the prosthetic groups in Complex I with a rate of 40 s⁻¹ at 22 °C. The reducing equivalents remain essentially locked in the enzyme because the overall NADPH→O₂ rate (1.4 s⁻¹) is negligible. The physiological significance of the reaction with NADPH is still unclear. A number of recent developments has revived our thinking about this enigma. We hypothesize that Complex I and the Δp-driven nicotinamide nucleotide transhydrogenase (Nnt) co-operate in an energy-dependent attenuation of the hydrogen-peroxide generation by Complex I. This co-operation is thought to be mediated by the NADPH/NADP⁺ ratio in the vicinity of the NADPH site of Complex I. It is proposed that the specific H₂O₂ production by Complex I, and the attenuation of it, is of importance for apoptosis, autophagy and the survival mechanism of a number of cancers. Verification of this hypothesis may contribute to a better understanding of the regulation of these processes.     

β-thalassemia mutations in the Portuguese population

Summary In this study we have carried out haplotype analysis on the -globin gene cluster and characterized the -thalassemia mutation by oligonucleotide hybridization in 14 patients with thalassemia major and 5 with sickle cell/-thalassemia originating from southern Portugal. We found that three mutations, namely the °-39, ° IVS-1 nt 1 and ⁺ IVS-1 nt 110 are prevalent accounting for 53%, 32% and 10% of the -thalassemia chromosomes respectively. In general each mutation was associated with a specific chromosomal haplotype; the ° mutation, however, was linked to three different haplotypes. These results indicate that three oligo-probes complementary to the most common mutations allow prenatal diagnosis by oligonucleotide analysis in 96% of the couples at risk of having offspring with thalassemia major in southern Portugal.     

Enzymatic biotransformation of ginsenoside Rb1 to 20(<Emphasis Type="Italic">S</Emphasis>)-Rg3 by recombinant β-glucosidase from <Emphasis Type="Italic">Microbacterium esteraromaticum</Emphasis>

Microbacterium esteraromaticum was isolated from ginseng field. The β-glucosidase gene (bgp1) from M. esteraromaticum was cloned and expressed in Escherichia coli BL21 (DE3). The bgp1 gene consists of 2,496 bp encoding 831 amino acids which have homology to the glycosyl hydrolase family 3 protein domain. The recombinant β-glucosidase enzyme (Bgp1) was purified and characterized. The molecular mass of purified Bgp1 was 87.5 kDa, as determined by SDS-PAGE. Using 0.1 mg ml⁻¹ enzyme in 20 mM sodium phosphate buffer at 37°C and pH 7.0, 1.0 mg ml⁻¹ ginsenoside Rb1 was transformed into 0.444 mg ml⁻¹ ginsenoside Rg3 within 6 h. The Bgp1 sequentially hydrolyzed the outer and inner glucose attached to the C-20 position of ginsenosides Rb1. Bgp1 hydrolyzed the ginsenoside Rb1 along the following pathway: Rb1 → Rd → 20(S)-Rg3. This is the first report of the biotransformation of ginsenoside Rb1 to ginsenoside 20(S)-Rg3 using the recombinant β-glucosidase.