Synthesis of biosynthetic precursors of chromophores of red fluorescent proteins

A method for the synthesis of 5-arylidene-3,5-dihydro-4H-imidazol-4-ones corresponding to the chromophore of the green fluorescent protein (GFP) with acylaminoalkyl substituents at position 2 of the imidazolone core has been developed. These biomimetic model compounds are the precursors of the chromophores of red fluorescent proteins. The method is based on the masking of the dehydrotyrosine fragment of target compounds by the β-hydroxytyrosine moiety. The key stages of the synthesis include the condensa-tion of β-hydroxytyrosine with the appropriate N-acetylamino acid, the unmasking of dehydrotyrosine by O-acylation with subsequent elimination, and the cyclization of the resulting 3-acylaminocinnamic acid derivatives in basic medium.     

A derivative of the glycopeptide A40926 produced by inactivation of the beta-hydroxylase gene in Nonomuraea sp. ATCC39727

The actinomycete Nonomuraea sp. ATCC39727 produces the glycopeptide A40926. In the corresponding dbv cluster, ORF28 encodes a putative hydroxylase. A gene replacement mutant of ORF28 in Nonomuraea produces a small amount of an A40926-related metabolite, 16 amu smaller than the parent compound, which was identified as the desoxyderivative of A40926 lacking the beta-hydroxyl group on the tyrosine moiety. This result demonstrates that ORF28 is actually involved in the formation of the beta-hydroxytyrosine residue present in A40926. The formation of an altered glycopeptide and the inability to rescue A40926 production upon feeding free beta-hydroxytyrosine are consistent with the possibility that, in contrast to balhimycin formation, hydroxylation occurs after tyrosine activation by the nonribosomal peptide synthetase.     

Alternative cyclization in GFP-like proteins family. The formation and structure of the chromophore of a purple chromoprotein from Anemonia sulcata

Anemonia sulcata purple protein (asFP595) belongs to a family of green fluorescent protein (GFP)-like proteins from the Anthozoa species. Similar to GFP, asFP595 apparently forms its chromophore by modifying amino acids within its polypeptide chain. Until now, the GFP-like proteins from Anthozoa were thought to contain chromophores with the same imidazolidinone core as GFP. Mass spectral analysis of a chromophore-containing tryptic pentapeptide from asFP595 demonstrates that chromophore formation in asFP595 is stoichiometrically the same as that in GFP: one H(2)O and two H(+) are released while a Schiff base and dehydrotyrosine are formed. However, structural studies of this asFP595 chromopeptide show that in contrast to GFP, the other peptide bond nitrogen and carbonyl carbon are required for chromophore cyclization, a reaction that yields the six-membered heterocycle 2-(4-hydroxybenzylidene)-6-hydroxy-2,5-dihydropyrazine. Spectrophotometric titration reveals three pH-dependent forms of the asFP595 chromopeptide: yellow (absorption maximum = 430 nm) at pH 3.0; red (absorption maximum = 535 nm) at pH 8.0; and colorless (absorption maximum = 380 nm) at pH 14.0. The pK(a) values for these spectral transitions (6.8 and 10.9) are consistent with the ionization of the phenolic group of dehydrotyrosine and deprotonation of the amidinium cation in the chromophore heterocycle, respectively. The amidinium group in asFP595 accounts for the unique absorption spectrum of the protein, which is substantially red-shifted relative to that of GFP. When the asFP595 chromophore cyclizes, the Cys-Met bond adjacent to the chromophore hydrolyzes, splitting the chromoprotein into 8- and 20-kDa fragments. High performance liquid chromatography analysis of a tryptic digest of denatured asFP595 shows that a pentapeptide with the cleaved Cys-Met bond is the only fragment associated with the red-shifted absorbance. These results imply that fragmentation of asFP595 is a critical step in protein maturation.     

Stereospecific synthesis of l-2-amino-3-(7-methoxy-4-coumaryl)propionic acid, an alternative to tryptophan in quenched fluorescent substrates for peptidases

A high-yielding synthesis of the highly fluorescent amino acid l-2-amino-3-(7-methoxy-4-coumaryl)propionic acid (l-Amp) has been developed via (2R)-bornane-10,2-sultam glycinate. l-Amp facilitates the synthesis of sensitive fluorogenic proteinase substrates with N-terminal solubilising or reactive groups.     

Preparation and characterization of two LysB29 specifically labelled fluorescent derivatives of human insulin.

The preparation and characterization of two novel LysB29 selectively labelled fluorescent derivatives of human insulin are described. Two probes were chosen: 4-chloro-7-nitrobenz-2-oxa-1,3-diazole (NBD) and 7-methoxycoumarin-4-acetic acid (MCA), which have a relatively small, compact structure and are able to react with amino groups to form highly fluorescent derivatives. The combination of solid phase peptide synthesis and enzymatic semisynthesis was chosen for preparation of these fluorescent derivatives. Using two different protocols of solid-phase peptide synthesis, two fluorescent octapeptides were prepared corresponding to the position B23-B30 of human insulin, each with a different fluorescent label, NBD or MCA, on the epsilon-amino group of lysine. Then, the fluorescent octapeptides were coupled to desoctapeptide-(B23-B30)-insulin by a trypsin catalysed reaction. The receptor binding affinities of two novel fluorescent derivatives of human insulin with NBD and MCA (HI-NBD and HI-MCA) were determined on rat adipose tissue plasma membranes. Both fluorescent insulins, HI-NBD and HI-MCA, had only slightly reduced binding affinity and will be used for studying the interaction of insulin with its receptor.     

Synthesis and carbohydrate binding studies of fluorescent α-amidoboronic acids and the corresponding bisboronic acids

Fluorescent boronic acids are very useful for the design and synthesis of carbohydrate sensors. In an earlier communication, we first described the effort of developing water soluble fluorescent α-amidoboronic acids, which change fluorescence upon sugar binding. In this report, we describe a general method of functionalizing such boronic acids and their applications in the preparation of bis-α-amidoboronic acids with significantly enhanced binding for oligosaccharides as compared to their monoboronic acid counterparts. The advantages of good water solubility, easy modification to generate diversity, and modularity in synthesis will make α-amidoboronic acids very useful building blocks for future synthesis of boronic acid-based fluorescent sensors.     

An HPLC-CAD/fluorescence lipidomics platform using fluorescent fatty acids as metabolic tracers

Fluorescent lipids are important tools for live imaging in cell culture and animal models, yet their metabolism has not been well-characterized. Here we describe a novel combined HPLC and LC-MS/MS method developed to characterize both total lipid profiles and the products of fluorescently labeled lipids. Using this approach, we found that lipids labeled with the fluorescent tags, 4,4-difluoro-5,7-dimethyl-4-bora-3a,4a-diaza-s-indacene (BODIPY FL), 4,4-difluoro-5-(2-thienyl)-4-bora-3a,4a-diaza-s-indacene [BODIPY(558/568)], and dipyrrometheneboron difluoride undecanoic acid (TopFluor) are all metabolized into varying arrays of polar and nonpolar fluorescent lipid products when they are fed to larval zebrafish. Quantitative metabolic labeling experiments performed in this system revealed significant effects of total dietary lipid composition on fluorescent lipid partitioning. We provide evidence that cholesterol metabolism in the intestine is important in determining the metabolic fates of dietary FAs. Using this method, we found that inhibitors of dietary cholesterol absorption and esterification both decreased incorporation of dietary fluorescent FAs into cholesterol esters (CEs), suggesting that CE synthesis in enterocytes is primarily responsive to the availability of dietary cholesterol. These results are the first to comprehensively characterize fluorescent FA metabolism and to demonstrate their utility as metabolic labeling reagents, effectively coupling quantitative biochemistry with live imaging studies.     

Alginate gel microchip for real-time monitoring of intracellular processes in bacterial and yeast cells

A method of alginate-based hydrogel cell microchip manufacturing is proposed. The development of mild conditions for cell immobilization in microvolumes of non-toxic alginate gel allows extending the range of microorganisms used. Different approaches to cell analysis using microchip have been approved in pilot studies. By the example of Escherichia coli, Bordetella bronchiseptica and Saccharomyces cerevisiae it is shown that cell microchip can be successfully applied for monitoring of nucleic acid and protein synthesis in growing cells simultaneously using two fluorescent dyes. The influence of chloramphenicol on the nucleic acids and protein synthesis in five bacterial strains has been studied on the microchip. The microchip was also applied for the analysis of inducible fluorescent protein EGFP synthesis in E. coli cells, the correlation between the level of EGFP synthesis and concentration of the inductor in the medium has been established.     

Synthesis of fluorescent and radiolabeled analogues of phosphatidic acid

Procedures for the synthesis of fluorescent and radiolabeled analogues of phosphatidic acid are described. The fluorophore 7-nitrobenzo-2-oxa-1,3-diazole (NBD) was coupled to 6-amino-caproic acid and 12-aminododecanoic acid by reaction of NBD-chloride with the amino acids under mild alkaline conditions at room temperature. 1,2-Dioleoyl-sn-[U-14C]glycerol 3-phosphate was prepared by acylation of sn-[U-14C]glycerol 3-phosphate with oleic acid anhydride using dimethylaminopyridine as the catalyst. This compound was converted to 1-oleoyl-sn-[U-14C]glycerol 3-phosphate by hydrolysis with phospholipase A2. The lysophosphatidic acid was reacylated with NBD-aminocaproyl imidazole or NBD-aminododecanoyl imidazole to form the fluorescent, radiolabeled analogue of phosphatidic acid. Fluorescent, non-radiolabeled analogues of phosphatidic acid were prepared by phospholipase D hydrolysis of fluorescent phosphatidylcholine.     

An expedient synthesis of fluorescent labeled ceramide-1-phosphate analogues

A synthesis for fluorescent analogs of ceramide-1-phosphate bearing 9-anthrylvinyl or 4,4-difluoro-3a,4a-diaza-s-indacene-8-yl (Me₄-BODIPY) fluorophore at co-position of fatty acid residue was carried out. The key stage of the synthesis is hydrolysis of corresponding sphingomyelins catalyzed by phospholipase D from Streptomyces chromofuscus; the enzymatic yield has been raised to 50–70% by appliance of organic solvent in the incubation medium.     

一种新的荧光孕酮探测鸡输卵管孕酮受体

我们用化学合成的方法,制备了6S(α-氨基丙酸)-异硫氰酸荧光素-孕酮(简称:6NHPF),对鸡的输卵管孕激素受体(PR)进行了观察。发现PR存在于腔上皮细胞核,在平滑肌肌细胞及输卵管近泄殖腔端不存在PR。在输卵管相邻的组织切片上用孕酮或6NHPF的中间体化合物抑制剂,发现对合成的荧光孕酮都能够竞争性抑制,证实了这种新的,亲水性的小分子荧光孕酮能与PR特异性地结合。     

Synthesis and spectroscopic properties of 4-ethoxymethylene-2-(1)-naphthyl-5(4H)-oxazolone-labeled fluorescent peptides

Strategies for the preparation of new fluorescent oligopeptide conjugates labeled with 4-ethoxymethylene-2-[1]-naphthyl-5(4H)-oxazolone (naOx-OEt) at the N-terminal on solid support or in solution have been devised. These procedures are simple and easy to carry out by reacting naOx-OEt or N(alpha)-naOx-amino acid with side chain protected peptide chains attached to resins. The integrity of the N-alkyl bond was maintained even after the trifluoracetic acid or HF based cleavages procedures. Our data show that the naOx fluorophore is compatible with both Fmoc/tBu and Boc/Bzl methods and also suggest that naOx-amino acid could be utilized as building blocks for solid phase peptide synthesis. Comparative analysis of fluorescence properties of naOx-conjugates indicated that the spectral properties of the fluorophore do not change after incorporating into peptides. The compact size, the definite chemical reaction for its introduction in combination with the appropriate spectral features (e.g., intense emission, pH independent fluorescent characteristics, and beneficial photobleaching dose constant and rates) and with chemical and spectral stability, naOx-based labeling could be attractive for novel cellular fluorescent techniques (e.g., in laser scanning confocal FRET) to study peptide-protein and protein-protein interactions even in biological matrices.     

Efficient synthesis of pyrenylalanine

An efficient synthesis of L-3-(1'-pyrenyl)alanine (Pya), a highly fluorescent amino acid, is described. The amino acid was obtained by the classical asymmetric hydrogenation of chiral 1-acetyl-3-pyrenemethylidene-6-methyl-piperazine-2,5-dione. In the proposed improved procedure mild conditions of the synthesis were applied and the final product--N-tertbutoxycarbonyl-pyrenylalanine--was obtained in good yield. Pyrenylalanine, due to its interesting photophysical properties, can be applied as a fluorescent probe in numerous biochemical and conformational studies.     

Stereospecific synthesis of l-2-amino-3-(7-methoxy-4-coumaryl)propionic acid,an alternative to tryptophan in quenched fluorescent substrates for peptidases

Summary A ligh-yielding synthesis of the highly fluorescent amino acidl-2-amino-3-(7-methoxy-4-coumaryl)propionic acid (l-Amp) has been developed via (2R)-bormane-10,2-sultam glycinate.l-Amp facilitates the synthesis of sensitive fluorogenic proteinase substrates with N-terminal solubilising or reactive group.     

Accumulation of polyhydroxyalkanoic acid containing large amounts of unsaturated monomers in Pseudomonas fluorescens BM07 utilizing saccharides and its inhibition by 2-bromooctanoic acid.

A psychrotrophic bacterium, Pseudomonas fluorescens BM07, which is able to accumulate polyhydroxyalkanoic acid (PHA) containing large amounts of 3-hydroxy-cis-5-dodecenoate unit up to 35 mol% in the cell from unrelated substrates such as fructose, succinate, etc., was isolated from an activated sludge in a municipal wastewater treatment plant. When it was grown on heptanoic acid (C(7)) to hexadecanoic acid (C(16)) as the sole carbon source, the monomer compositional characteristics of the synthesized PHA were similar to those observed in other fluorescent pseudomonads belonging to rRNA homology group I. However, growth on stearic acid (C(18)) led to no PHA accumulation, but instead free stearic acid was stored in the cell. The existence of the linkage between fatty acid de novo synthesis and PHA synthesis was confirmed by using inhibitors such as acrylic acid and two other compounds, 2-bromooctanoic acid and 4-pentenoic acid, which are known to inhibit beta-oxidation enzymes in animal cells. Acrylic acid completely inhibited PHA synthesis at a concentration of 4 mM in 40 mM octanoate-grown cells, but no inhibition of PHA synthesis occurred in 70 mM fructose-grown cells in the presence of 1 to 5 mM acrylic acid. 2-Bromooctanoic acid and 4-pentenoic acid were found to much inhibit PHA synthesis much more strongly in fructose-grown cells than in octanoate-grown cells over concentrations ranging from 1 to 5 mM. However, 2-bromooctanoic acid and 4-pentenoic acid did not inhibit cell growth at all in the fructose media. Especially, with the cells grown on fructose, 2-bromooctanoic acid exhibited a steep rise in the percent PHA synthesis inhibition over a small range of concentrations below 100 microM, a finding indicative of a very specific inhibition, whereas 4-pentenoic acid showed a broad, featureless concentration dependence, suggesting a rather nonspecific inhibition. The apparent inhibition constant K(i) (the concentration for 50% inhibition of PHA synthesis) for 2-bromooctanoic acid was determined to be 60 microM, assuming a single-site binding of the inhibitor at a specific inhibition site. Thus, it seems likely that a coenzyme A thioester derivative of 2-bromooctanoic acid specifically inhibits an enzyme linking the two pathways, fatty acid de novo synthesis and PHA synthesis. We suggest that 2-bromooctanoic acid can substitute for the far more expensive (2,000 times) and cell-growth-inhibiting PHA synthesis inhibitor, cerulenin.     

Sensitization of Edman amino acid derivatives using the fluorescent reagent, 4-aminofluorescein

The ability to analyze amino acid derivatives at the femtomole level is one of the most interesting challenges in the field of protein microsequencing. 2-Anilino-5-thiazolinone amino acids, obtained by Edman degradation, were quantitatively derivatized with fluorescent primary amines. The most fluorescent reagent tested was 4-aminofluorescein. The amino acid derivatives sensitized with this reagent were separated using reversed-phase high-performance liquid chromatography and identified at the 100 attomole level. Incorporation of this method into the operation of a conventional automated sequencer is also described.     

Continuous-flow reactor-based synthesis of carbohydrate and dihydrolipoic acid-capped quantum dots

A detailed protocol for the large-scale synthesis of carbohydrate and dihydrolipoic acid (DHLA)-coated CdSe/ZnS and CdTe/ZnS nanoparticles using continuous flow reactors is described here. Three continuous flow microreaction systems, operating at three different temperatures, are used for the synthesis of mannose-, galactose- or DHLA-functionalized quantum dots (QDs). In the first step of synthesis, the CdSe and CdTe nanoparticles are prepared. The size and spectral properties of the CdSe core of the nanoparticles are controlled by adjustment of the residence time and the temperature. As a second step, the zinc sulfide capping under homogenous conditions is carried out at a substantially lower temperature than is required for nanoparticle growth in batch processes. Finally, the trioctylphosphine/oleic acid ligand is effectively replaced with either carbohydrate PEG-thiol moieties or DHLA at 60 °C. This new protocol allows the synthesis of biologically active fluorescent QDs in 4 d.     

Role of antibiotics and siderophores in biocontrol of take-all disease of wheat

Both antibiotics and siderophores have been implicated in the control of soilborne plant pathogens by fluorescent pseudomonads. In Pseudomonas fluorescens 2–79, which suppresses take-all of wheat, the importance of the antibiotic phenazine-1-carboxylic acid was established with mutants deficient or complemented for antiobiotic production and by isolation of the antibiotic from the roots of wheat colonized by the bacteria. Genetic and biochemical studies of phenazine synthesis have focused on two loci; the first is involved in production of both anthranilic acid and phenazine-1-carboxylic acid, and the second encodes genes involved directly in phenazine synthesis. Because the antibiotic does not account fully for the suppressiveness of strain 2-79, additional mutants were analyzed to evaluate the role of the fluorescent siderophore and of an antifungal factor (Aff, identified as anthranilic acid) that accumulates when iron is limiting. Whereas strains producing only the siderophore conferred little protection against take-all, Aff⁺ strains were suppressive, but much less so than phenazine-producing strains. Iron-regulated nonsiderophore antibiotics may be produced by fluorescent pseudomonads more frequently than previously recognized, and could be partly responsible for beneficial effects that were attributed in the past to fluorescent siderophores.     

The synthesis of oligonucleotides containing an aliphatic amino group at the 5'' terminus: synthesis of fluorescent DNA primers for use in DNA sequence analysis.

A rapid and versatile method has been developed for the synthesis of oligonucleotides which contain an aliphatic amino group at their 5' terminus. This amino group reacts specifically with a variety of electrophiles, thereby allowing other chemical species to be attached to the oligonucleotide. This chemistry has been utilized to synthesize several fluorescent derivatives of an oligonucleotide primer used in DNA sequence analysis by the dideoxy (enzymatic) method. The modified primers are highly fluorescent and retain their ability to specifically prime DNA synthesis. The use of these fluorescent primers in DNA sequence analysis will enable DNA sequence analysis to be automated.