Genetic diversity of tyrosine hydroxylase (TH) and dopamine β-hydroxylase (DBH) genes in cattle breeds

DNA from four cattle breeds was used to re-sequence all of the exons and 56% of the introns of the bovine tyrosine hydroxylase (TH) gene and 97% and 13% of the bovine dopamine β-hydroxylase (DBH) coding and non-coding sequences, respectively. Two novel single nucleotide polymorphisms (SNPs) and a microsatellite motif were found in the TH sequences. The DBH sequences contained 62 nucleotide changes, including eight non-synonymous SNPs (nsSNPs) that are of particular interest because they may alter protein function and therefore affect the phenotype. These DBH nsSNPs resulted in amino acid substitutions that were predicted to destabilize the protein structure. Six SNPs (one from TH and five from DBH non-synonymous SNPs) were genotyped in 140 animals; all of them were polymorphic and had a minor allele frequency of > 9%. There were significant differences in the intra- and inter-population haplotype distributions. The haplotype differences between Brahman cattle and the three B. t. taurus breeds (Charolais, Holstein and Lidia) were interesting from a behavioural point of view because of the differences in temperament between these breeds.     

Ejection of structural zinc leads to inhibition of γ-butyrobetaine hydroxylase

γ-Butyrobetaine hydroxylase (BBOX) is a 2-oxoglutarate and Fe(II) dependent oxygenase that catalyses an essential step during carnitine biosynthesis in animals. BBOX is inhibited by ejection of structural zinc by a set of selenium containing analogues. Previous structural analyses indicated that an undisrupted N-terminal zinc binding domain of BBOX is required for catalysis. Ebselen is a relatively potent BBOX inhibitor, an observation which may in part reflect its cardioprotective properties.     

Purification and properties of calf liver γ-butyrobetaine hydroxylase

Calf liver γ-butyrobetaine hydroxylase has been purified some 400-fold by DEAE, gel permeation, and hydroxylapatite chromatography. The homogeneous enzyme is a dimer of 46,000-dalton subunits. The K_m values for substrates and cofactors and the apparent activation constants for ascorbate and catalase have been determined. Inhibition of the enzyme by a number of divalent metals supports the function of sulfhydryl groups in metal binding. An antibody to the enzyme has been obtained; this does not cross-react with homogeneous γ-butyrobetaine hydroxylase from a Pseudomonas strain. The antibody, coupled to Sepharose 4B, has been used to purify the calf liver hydroxylase 350-fold in one step.     

Poly(ethylene glycol) precipitation and two aqueous-phase separation of progesterone 11-α hydroxylase from Rhizopus nigricans

Summary Poly(ethylene glycol) precipitation and two aqueous phase separation were examined as possible techniques for the large scale isolation of a microsomal fraction enriched in 11- progesterone hydroxylase activity from the filamentous fungus Rhizopus nigricans. Both techniques concentrated the enzyme and increased its specific activity between 1.5 and 2.0-fold, but with low yield. Cell debris needed to be removed before PEG precipitation and also before two aqueous phase separation.     

γ-Butyrobetaine hydroxylase: A unique protective effect of catalase

Catalase stimulates the activity of homogeneous γ-butyrobetaine hydroxylase by approximately 300-fold. The stimulation of the hydroxylation reaction elicited by catalase is saturable, and although a number of proteins may be substituted for catalase, none is as effective. γ-Butyrobetaine hydroxylase is also irreversibly inactivated in the presence of one of its substrates, oxygen, and its cofactor, ascorbate. This inactivation of the hydroxylase activity may be prevented by (i) the presence of high concentrations (2 mg/ml) of various proteins, (ii) the presence of catalytic concentrations (20 μg/ml) of catalase, or (iii) the presence of 10 mm histidine or dithiothreitol. Oxidized species of ascorbate do not appear to be responsible for the inactivation process. Time-dependent inactivation is also observed when γ-butyrobetaine hydroxylase is preincubated with hydrogen peroxide generated by the glucose oxidase-catalyzed oxidation of glucose. At low concentrations, superoxide dismutase was not as effective as an equivalent protein concentration of catalase in protecting against inactivation, and hydroxyl radical scavengers were completely ineffective. In measurements of γ-butyrobetaine hydroxylase activity, the presence of catalase both stimulates the catalytic activity of the hydroxylase and protects the enzyme from inactivation by a product of the interaction of components in the assay mixture, presumably hydrogen peroxide.     

Agaricus bisporus tyrosinase—II. Characterization of hydroxylase and dehydrogenase activities

• 1.1. Preparative Isoelectric focusing (PIEF) was used to isolate hydroxylasic and dehydrogenasic activities, at different pI.
• 2.2. The fraction at pI 4.7 and 4.9 displays a pure dehydrogenase activity (substrate l-DOPA).
• 3.3. This fraction did not react with tyrosine, either in the spot-test or in absorption spectra (200–620 nm), and did not exhibit any oxygen consumption.
• 4.4. The fraction at pI 4.1 and 4.3 reacted with both l-DOPA and tyrosine as substrate, showing dehydrogenase and hydroxylase activity.
• 5.5. The latter activity was confirmed by the oxygen consumption test, showing that molecular oxygen is used to ortho-hydroxylate tyrosine.

     

Development of β-Carotene Rich Maize Hybrids through Marker-Assisted Introgression of β-carotene hydroxylase Allele

Development of vitamin A-rich cereals can help in alleviating the widespread problem of vitamin A deficiency. We report here significant enhancement of kernel β-carotene in elite maize genotypes through accelerated marker-assisted backcross breeding. A favourable allele (543 bp) of the β-carotene hydroxylase (crtRB1) gene was introgressed in the seven elite inbred parents, which were low (1.4 µg/g) in kernel β-carotene, by using a crtRB1-specific DNA marker for foreground selection. About 90% of the recurrent parent genome was recovered in the selected progenies within two backcross generations. Concentration of β-carotene among the crtRB1-introgressed inbreds varied from 8.6 to 17.5 µg/g - a maximum increase up to 12.6-fold over recurrent parent. The reconstituted hybrids developed from improved parental inbreds also showed enhanced kernel β-carotene as high as 21.7 µg/g, compared to 2.6 µg/g in the original hybrid. The reconstituted hybrids evaluated at two locations possessed similar grain yield to that of original hybrids. These β-carotene enriched high yielding hybrids can be effectively utilized in the maize biofortification programs across the globe.     

Computational analysis of common bean (Phaseolus vulgaris L., genotype BAT93) lycopene β-cyclase and β-carotene hydroxylase gene's cDNA

The identification of genes and understanding of genes'' expression and regulation in common bean (Phaseolus vulgaris L.) is necessary in order to strategize its improvement using genetic engineering techniques. Generation of expressed sequence tags (ESTs) is useful in rapid isolation, identification and characterization of the genes. To study the gene expression in P. vulgaris pods tissue, ESTs generation work was initiated. Early stage and late stage bean-pod-tissues cDNA libraries were constructed using CloneMiner cDNA library construction kit. In total, 5972 EST clones were isolated using random method of gene isolation. While processing ESTs, we found lycopene β-cyclase (PvLCY-β) and β-carotene hydroxylase (PvCHY-β) gene''s cDNA. In carotenoid biosynthesis pathway, PvLCY-β catalyzes the production of carotene; and PvCHY-β is known to function as a catalyst in the production of lutein and zeaxanthin. To understand more about PvLCY-β and PvCHY-β, both strands of both cDNA clones were sequenced using M13 forward and reverse primers. Nucleotide and deduced protein sequences were analyzed and annotated using online bioinformatics tools. Results showed that PvLCY-β and PvCHY-β cDNAs are 1639 and 1107 bp in length, respectively. Analysis results showed that PvLCY-β and PvCHY-β gene''s cDNA contains an open reading frame (ORF) that encodes for 502 and 305 amino acid residues, respectively. The deduced protein sequence analysis results also showed the presence of conserved domains needed for PvLCY-β and PvCHY-β functions. The phylogenetic analysis of both PvLCY-β and PvCHY-β proteins showed it''s closeness with the LCY-β and CHY-β proteins from Glycine max, respectively. The nucleotide sequence of PvLCY-β and PvCHY-β gene''s cDNA and it''s annotation is reported in this paper.     

The expression of petunia flavonoid 3′ and 3′5′ hydroxylase genes in potatoes (Solanum tuberosum cv. Jopung)

Flavonoid 3′ (F3′OH) and 3′5′ hydroxylase (F3′5′OH) play a major role in the synthesis of flavonoids. They are involved in the flavonoid modification and the B-ring hydroxylation produces quercetin and myricetin, respectively. We introduced the petunia F3′OH and F3′5′OH genes in potato and expression of these enzyme was confirmed by Southern and Northern blot analyses in these transgenic plants. In the flavonoid, staining experiment, all transgenic plants with petunia F3′OH and F3′5′OH genes were successfully changed with their green color to orange, confirming that quercetin was synthesized in those plants. Especially, the F3′5′OH transgenic potatoes showed the strongest orange color, and it was revealed by capillary electrophoresis that they produce quercetin one and a half times as much as the untransformed potatoes.     

Prolyl hydroxylase 2: a novel regulator of β2 -adrenoceptor internalization

Adrenergic receptor (AR)-mediated signalling is modulated by oxygen levels. Prolyl hydroxylases (PHDs) are crucial for intracellular oxygen sensing and organism survival. However, it remains to be clarified whether or how PHDs are involved in the regulation of β(2) -adrenoceptor (β(2) -AR) signalling. Here we show that PHD2 can modulate the rate of β(2) -AR internalization through interactions with β-arrestin 2. PHD2 hydroxylates β-arrestin 2 at the proline (Pro)(176), Pro(179) and Pro(181) sites, which retards the recruitment of β-arrestin 2 to the plasma membrane and inhibits subsequent co-internalization with β(2) -AR into the cytosol. β(2) -AR internalization is critical to control the temporal and spatial aspects of β(2) -AR signalling. Identifying novel regulators of β(2) -AR internalization will enable us to develop new strategies to manipulate receptor signalling and provide potential targets for drug development in the prevention and treatment of diseases associated with β(2) -AR signalling dysregulation.     

Ecdysone 20-monooxygenase in a cricket,Gryllus bimaculatus (Ensifera,Gryllidae)—characterization of the microsomal midgut steroid hydroxylase in adult females

Summary Ecdysone 20-monooxygenase, the enzyme system which converts ecdysone into 20-hydroxyecdysone, was characterized in the midgut of 4-day-old female adult Gryllus bimaculatus using an in vitro radioassay. Differential centrifugation and sucrose gradient centrifugation revealed that ecdysone 20-monooxygenase activity is associated with the microsomal fractions. The 20-monooxygenase was found to be most active in potassium phosphate buffer, pH 7.8, at an osmolarity of 100 mOsm and at 39 °C assay temperature. The conversion of ecdysone into 20-hydroxyecdysone was linear over an incubation period of 12 min and with respect to a protein concentration of 3 mg·ml^–1. K⁺ and Na⁺ (10^–3–10^–1 M), Ca²⁺ (2.3 mM), and EDTA (1–5 mM) did not affect monooxygenase activity, whereas Mg²⁺ (2.3–10 mM) slightly inhibited enzyme activity. The enzyme complex has an apparent K_m for ecdysone of 3.7·10^–7 M and is competitively inhibited by its product, 20-hydroxyecdysone, with an apparent K_i of 4·10^–6 M. The cytochrome P-450 nature of the steroid hydroxylase was shown by its obligate requirement for NADPH and its inhibition by carbon monoxide, metyrapone, and p-chloromercuribenzoate, but not by cyanide. The insect systemic growth disruptor, azadirachtin, was found to inhibit ecdysone 20-monooxygenase activity with a I₅₀ of 8·10^–4 M. From the CO-difference spectrum, a cytochrome P-450 content of 285 pmol·mg protein^–1 was calculated for midgut microsomes of 4-day-old females.Abbreviations GO carbon monoxide - EDTA ethylenediamine tetraacetic acid - HPLC high performance liquid chromatography - I ₅₀ concentration for 50% inhibition - KCN potassium cyanide - K ₁ inhibition constant - K _m Michaelis-Menten constant - MOPS 3-morpholinopropanesulfonic acid - NADH/NAD ⁺ nicotinamide adenine dinucleotide reduced/oxidized - NADPH/NADP ⁺ nicotinamide adenine dinucleotide phosphate reduced/oxidized - Na ₂ S ₂ O ₄ sodium dithionite - SEM Standard error of mean - TLC thin-layer chromatography - TRIS 2-amino 2-hydroxymethyl-1,3-propanediol (trishydroxymethyl aminomethane) - V _max maximal reaction velocity     

Syntheses of (±)-Epoformin (Desoxyepoxydon) and (±)-Epiepoformin (Desoxyepiepoxydon)

Boron is an essential nutrient for plants, but it is toxic in excess. Transgenic rice plants expressing an Arabidopsis thaliana borate efflux transporter gene, AtBOR4, at a low level exhibited increased tolerance to excess boron. Those lines with high levels of expression exhibited reduced growth. These findings suggest a potential of the borate transporter BOR4 for the generation of high-boron tolerant rice.     

Synthesis of (S)-(—)-Vertinolide

(S)-(?)-Vertinolide 1 was synthesized via the tetronic acid derivative 6 from (S)-(?)-tetrahydro-2-methyl-5-oxo-2-furancarboxylic acid 3. (±)-Vertinolide was also synthesized from (±)-3.     

A new highly polymorphic DNA restriction site marker in the 5′ region of the human tyrosine hydroxylase gene (TH) detecting loss of heterozygosity in human embryonal rhabdomyosarcoma

We have isolated a new marker (cos11-5TH) that detects an MspI restriction fragment length polymorphism in the 5 region of the human tyrosine hydroxylase gene (TH) on chromosome band 11p15.5. This region of human chromosome 11 contains several important loci for disease phenotypes including Beckwith-Wiedemann syndrome (BWS), Wilms' tumor, and embryonal rhabdomyosarcoma. Thus, identification of new polymorphic markers in this region are important for future gene mapping and linkage analyses. To better define the region of 11p15.5 deleted in embryonal rhabdomyosarcoma, this new marker was used to investigate allelic losses in embryonal rhabdomyosarcoma tumors.     

Synthesis of (±)-licarin-B

The synthesis of (±)-licarin-B, a neolignan of Licaria aritu Ducke (Lauraceae), was achieved by pyrolysis of 3-hydroxy-3-piperonyl-1-propyl-2-methoxy-4-(E)-propenylphenyl ethers.     

Synthesis of (–)-Muricatacin

The synthesis of (–)-muricatacin starting from 1-bromododecane and 2-pentyn-l-ol is described. 2-Pentadecyn-1-ol (4), which was prepared from 1-bromododecane (2) and 2-pentyn-1-ol (3), was converted to epoxy alcohol 6 through a two-step reaction sequence, 6 being successively submitted to tosylation, iodination, chain extension with tert-butyl lithioacetate, and acid-catalyzed cyclization to give (–)-muricatacin (1a). Recrystallization afforded optically pure 1a.