Properties of allophycocyanin II and its α- and β-subunits from the thermophilic blue–green alga Mastigocladus laminosus

Purified allophycocyanin II and its subunits have been examined with respect to spectroscopic properties, sedimentation, reconstitution and isoelectric behaviour. In 0.02m-potassium phosphate buffer, pH8.0, and at a concentration of 0.25mg/ml, allophycocyanin II and its alpha- and beta-subunits show visible absorption maxima at 650, 615 and 615nm respectively, whereas the fluorescence emission maxima were determined to be at 662, 640 and 630nm respectively. The absorption difference spectrum (dilution difference) of allophycocyanin II displays maxima at 650 and 590nm with a minimum at 610nm. The c.d. spectrum of allophycocyanin II showed only one positive-ellipticity band at 635nm, and a major negative-ellipticity band at 340nm. Oxidation of allophycocyanin II, low- and high-pH solutions (pH3.0 and 11.0), various ethanol concentrations as well as dialysis against distilled water induce a spectral change leading to phycocyanin-like characteristics. In most cases these shifts are reversible. Allophycocyanin II is thermostable over a period of 60min at temperatures up to 60 degrees C. The isoelectric points of allophycocyanin II and its alpha- and beta-subunits are 4.65, 4.64 and 4.82 respectively. Estimated molecular weights from sedimentation-equilibrium analyses were 102500 for allophycocycanin II, 16000 for the alpha- and 31500 for the beta-subunit. Recombination of alpha- and beta-subunits leads to allophycocyanin II, which is indistinguishable from native allophycocyanin with respect to its spectral form, to its gel-filtration and to its electrophoretic behaviour.     

Isolation and characterization of the subunits of Phaseolus vulgaris alpha-amylase inhibitor.

An alpha-amylase inhibitor (PHA-I) of the white kidney bean (Phaseolus vulgaris) was found to be composed of two kinds of subunits and they were isolated on a size-exclusion column by HPLC under denaturing conditions. The alpha-subunit was free from tryptophan and cysteine and the beta-subunit contained no methionine or cysteine. There was no marked resemblance in tryptic peptide map between these subunit polypeptides. The alpha-subunit contained 28% by weight of carbohydrate, mainly made up of high mannose-type oligosacharides, whereas the sugar moiety of the beta-subunit amounted to 7% by weight and seemed to be predominantly composed of xylomannose-type oligosaccharides. By SDS-PAGE following deglycosylation, the molecular weights of the polypeptides of alpha- and beta-subunits were shown to be 7,800 and 14,000, respectively. These values were consistent with molecular sizes obtained for alpha- and beta-subunits by gel permeation HPLC in 6 M guanidine hydrochloride. The molecular weight of the native PHA-I, 28,800, obtained by gel permeation HPLC under non-denaturing conditions, suggested a heterodimeric structure for PHA-I.     

Heavy riboflavin synthase from Bacillus subtilis. Quaternary structure and reaggregation

Heavy riboflavin synthase of Bacillus subtilis was purified by a simplified procedure. The enzyme is a complex protein containing about 3 alpha-subunits (23.5 X 10(3) Mr) and 60 beta-subunits (16 X 10(3) Mr). The 10(6) Mr protein dissociates upon exposure to pH values above neutrality. Phosphate ions increase the stability at neutral pH. The dissociation induced by exposure of the enzyme to elevated pH is reversible in phosphate buffer at neutral pH. The stability of the enzyme at elevated pH values is greatly enhanced by the substrate analogue, 5-nitroso-6-ribitylamino-2,4(1H, 3H)-pyrimidinedione. Electron micrographs of negatively stained enzyme specimens show spherical particles with a diameter of 15.6 nm. Various immunochemical methods show that the alpha-subunits are not accessible to antibodies in the native molecule. The native enzyme is not precipitated by anti-alpha-subunit serum, and riboflavin synthase activity is not inhibited by the serum. However, these tests become positive at pH values that lead to dissociation of the enzyme. Subsequent to dissociation of the native enzyme at elevated pH values, the beta-subunits form high molecular weight aggregates. These aggregates form a complex mixture of different molecular species, which sediment at velocities of about 48 S and 70 S. The average molecular weight was approximately 5.6 X 10(6). Homogeneous preparations have not been obtained. Electron micrographs show hollow, spherical vesicles with diameters of about 29 nm. The substrate analogue 5-nitroso-6-ribitylamino-2,4(1H, 3H)-pyrimidinedione can induce the reaggregation of isolated beta-subunits with formation of smaller molecules, which are structurally similar to native riboflavin synthase. A homogeneous preparation of reaggregated molecules was obtained by renaturation of beta-subunits from 6.4 M-urea in the presence of the ligand. The sedimentation velocity of this aggregate is about 7% smaller than that of the native enzyme. The molecular weight is 96 X 10(4). Electron micrographs show spherical particles with a diameter of about 17.4 nm. Inspection of the micrographs tentatively suggests the presence of a central cavity. It appears likely that these molecules, which are devoid of alpha-subunits, have the same number and spatial arrangement of beta-subunits as the native enzyme. All data are consistent with the hypothesis that the native enzyme consists of a central core of alpha-subunits surrounded by a capsid-like arrangement of beta-subunits. The number of beta-subunits and the shape of the protein suggest a capsid-like arrangement of beta-subunits.(ABSTRACT TRUNCATED AT 400 WORDS)     

Cooperativity of alpha- and beta-subunits of group II chaperonin from the hyperthermophilic archaeum Aeropyrum pernix K1

alpha- and beta-subunits (ApCpnA and ApCpnB) are group II chaperonins from the hyperthermophilic archaeum Aeropyrum pernix K1, specialized in preventing the aggregation and inactivation of substrate proteins under conditions of transient heat stress. In the present study, the cooperativity of alpha- and beta-subunits from the A. pernix K1 was investigated. The ApCpnA and ApCpnB chaperonin genes were overexpressed in E. coli Rosetta and Codonplus (DE3), respectively. Each of the recombinant alpha- and beta- subunits was purified to 92% and 94% by using anionexchange chromatography. The cooperative activity between purified alpha- and beta-subunits was examined using citrate synthase (CS), alcohol dehydrogenase (ADH), and malate dehydrogenase (MDH) as substrate proteins. The addition of both alpha- and beta-subunits could effectively protect CS and ADH from thermal aggregation and inactivation at 43 degreesC and 50 degreesC, respectively, and MDH from thermal inactivation at 80 degreesC and 85 degreesC. Moreover, in the presence of ATP, the protective effects of alpha- and beta-subunits on CS from thermal aggregation and inactivation, and ADH from thermal aggregation, were more enhanced, whereas cooperation between chaperonins and ATP in protection activity on ADH and MDH (at 85 degreesC) from thermal inactivation was not observed. Specifically, the presence of both alpha- and beta- subunits could effectively protect MDH from thermal inactivation at 80 degreesC in an ATP-dependent manner.     

The complete amino-acid sequence of C-phycoerythrin from the cyanobacterium Fremyella diplosiphon

The amino-acid sequences of both subunits of C-phycoerythrin from the cyanobacterium Fremyella diplosiphon have been determined. The alpha-subunit contains 164 amino acid residues, two phycoerythrobilin (PEB) chromophores and has a molecular mass of 18,368 Da (protein: 17,192 Da + 2 PEB, one PEB accounting for 588 Da). The beta-subunit consists of 184 residues, three PEB chromophores and has a molecular mass of 20,931 Da (protein: 19,168 Da and 3 PEB: 1,764 Da). The five PEB chromophores (open chain tetrapyrroles) are covalently bound to six cysteine residues (one of them doubly bound to two cysteine residues). On the alpha-subunit, the first chromophore was found at position 84, homologous to the chromophore binding site of the other biliproteins APC, PC and PEC. The second chromophore, unique for the alpha-subunit of PE, is inserted together with a pentapeptide at position 143 a. On the beta-subunit, a doubly bound chromophore is attached to cysteine residues 50 and 61, similar to the rhodophytan phycoerythrins (B-PE and R-PE). The second and third chromophores were found at positions 84 and 155, homologous to the other biliproteins. A unique peptide insertion of 14 amino acid residues (without chromophore) was found at position 141 a-o in the beta-subunit and probably is located in the three-dimensional model near the additional chromophores of the C-PE alpha- and beta-subunits. Both additional chromophores of the C-PE alpha- and beta-subunit may be located at the periphery of the C-PE-trimer. The amino-acid sequence homology between C-PE alpha- and beta-subunit is 26% and to the alpha- and beta-subunits of C-PC from Mastigocladus laminosus 49% and 48%, respectively.     

Isolation and characterization of the subunits of bovine follitropin.

Highly purified bovine follitropin was dissociated into its alpha- and beta-subunits after treatment with 1 M-propionic acid. The dissociated subunits were fractionated by chromatography on DEAE-cellulose and further purified by gel filtration on Sephadex G-100. The isolated alpha- and beta-subunits were biologically inactive, but their recombinants regenerated 80% of the follitropin activity. The alpha-subunit of bovine follitropin recombined with the beta-subunits of bovine lutropin and thyrotropin to regenerate 70% of lutropin and 50% of thyrotropin activities respectively. The beta-subunit of bovine follitropin recombined with the alpha-subunit of either bovine lutropin or thyrotropin to regenerate about 75% of follitropin activity. Recombinations were monitored by specific radioligand-receptor assays and polyacrylamide-gel electrophoresis. The elution volumes of the alpha- and beta-subunits of bovine follitropin after gel filtration on Sephadex G-100 were almost identical. The amino acid composition of bovine follitropin-alpha was low in histidine, arginine, isoleucine and leucine, but relatively high in lysine, threonine and glutamic acid. The bovine follitropin-beta contained one methionine residue and low amounts of histidine and phenylalanine, but relatively high in aspartic acid, threonine and glutamic acid. The N-terminal residues of the alpha- and beta-subunits of bovine follitropin were identified to be phenylalanine and glycine respectively.     

Optical and ESR-spectroscopic study of electronic adducts of oxymyoglobin and oxyhemoglobin

It has been shown that low temperatures (77 degrees K) irradiation of frozen water-glycerol solutions of oxymyoglobin and oxyhemoglobin induces kinetically stabilized nonequilibrium electronic adducts (MbO2-, HbO2-) at the expense of binding of thermolyzed electrons formed during matrix radiolysis to oxygenated hem iron. The absorption spectra of HbO2-and MbO2- have a wide band with the maximum at 545 nm and Soret's band at 421 nm. At 77 K MbO2- gives the ESR spectrum with g beta 1 = 2.203 and g beta 2 = 2.103. Unlike the latter HbO2- ESR spectrum consists of two signals g beta 1 = 2.234, g beta 2 = 2.135 and g alpha 1 = 2.195, g alpha 2 = 2.103. Two signals in HbO2- spectra are shown to be conditioned by electronic adducts of oxygenated alpha- and beta-subunits. The observed effect points to non-equivalency of O2 in alpha- and beta-subunits of oxyhemoglobin. Binding of inositolhexaphopshate to oxyhemoglobin induces changes in the electron structure of HbO2-active centres.     

Molecular cloning and characterization of a protein farnesyltransferase from the enteric protozoan parasite Entamoeba histolytica

Genes encoding alpha- and beta-subunits of a putative protein farnesyltransferase (FT) from the enteric protozoan parasite Entamoeba histolytica were obtained and their biochemical properties were characterized. Deduced amino acid sequences of the alpha- and beta-subunit of E. histolytica FT (EhFT) were 298- and 375-residues long with a molecular mass of 35.6 and 42.6 kDa, and a pI of 5.43 and 5.65, respectively. They showed 24% to 36% identity to and shared common signature domains and repeats with those from other organisms. Recombinant alpha- and beta-subunits, co-expressed in Escherichia coli, formed a heterodimer and showed activity to transfer farnesyl using farnesylpyrophosphate as a donor to human H-Ras possessing a C-terminal CVLS, but not a mutant H-Ras possessing CVLL. Among a number of small GTPases that belong to the Ras superfamily from this parasite, we identified EhRas4, which possesses CVVA at the C terminus, as a sole farnesyl acceptor for EhFT. This is in contrast to mammalian FT, which utilizes a variety of small GTPases that possess a C-terminal CaaX motif, where X is serine, methionine, glutamine, cysteine, or alanine. EhFT also showed remarkable resistance against a variety of known inhibitors of mammalian FT. These results suggest that remarkable biochemical differences in binding to substrates and inhibitors exist between amebic and mammalian FTs, which highlights this enzyme as a novel target for the development of new chemotherapeutics against amebiasis.     

Chorionic gonadotropin synthesis by human tumor cell lines: examination of subunit accumulation, steady-state levels of mRNA, and gene structure

A number of tumor cell lines have been examined that differentially produce human chorionic gonadotropin and the isolated alpha- or beta-subunits. It has been demonstrated that all of the cell lines studied to date contain genes for both alpha- and beta-subunits, indicating that differential and exclusive expression of one subunit is not the result of a particular cell line having lost the gene for the alternate subunit as a consequence of chromosome changes accompanying cell transformation. Because many of these established cell lines are aneuploid, it is also significant that no evidence was found for gene amplification in cell lines producing alpha-subunit at very high levels compared to those with very low level expression. Analysis of restriction endonuclease digests of tumor cell DNAs has demonstrated identical patterns for beta-subunit in KpnI digests and KpnI/HindIII double digests. Polymorphisms were observed for alpha-subunit in EcoRI and HindIII digests, but these did not correspond with expression of the alpha-subunit. Significant levels of either mRNA (as determined by dot blot and Northern transfer hybridization analysis) were accompanied by corresponding elevated levels of alpha- and beta-subunits (as determined by radioimmunoassay), suggesting that regulation of subunit production most likely occurs at a pretranslational stage. However, there were apparent differences in the relative ratio of alpha- and beta-subunits and their cognate mRNAs among the cell lines.     

Purification and properties of pig liver kynureninase.

Kynureninase [L-kynurenine hydrolase, EC 3.7.1.3] was purified from pig liver by a procedure including DEAE-cellulose chromatography, hydroxyapatite chromatography, ammonium sulfate fractionation, DEAE-Bio Gel chromatography, Sephacryl S-200 gel filtration, kynurenine-Sepharose affinity chromatography, and Sephadex G-200 gel filtration. The enzyme was found to be homogeneous by the criterion of disc-gel electrophoresis. The enzyme has a molecular weight of about 100,000 and exhibits absorption maxima at 280 and 420 nm. The optimum pH and the isoelectric point of the enzyme are 8.5 and 5.0, respectively. The Michaelis constants were determined to be as follows: L-kynurenine, 7.7 X 10(-4) M; L-3-hydroxykynurenine, 1.3 X 10(-5) M; and pyridoxal 5'-phosphate, 1.8 X 10(-6) M. L-3-Hydroxykynurenine is hydrolyzed more rapidly than L-kynurenine; the liver enzyme can be regarded as a 3-hydroxy-kynureninase.     

Isolation and characterization of rare earth element-binding protein in roots of maize

Rare earth element-binding protein was isolated from maize, which was grown under greenhouse conditions and characterized in terms of molecular weight, amino acid composition, and ultraviolet absorption. The molecular weight of the maize protein was determined to be 183,000, with two distinct subunits of approximately molecular weights of 22,000 and 69,000, respectively. The protein is particularly rich in asparagine/aspartic acid, glutamine/glutamic acid, glycine, alanine, and leucine and contains 8.0% of covalently bound carbohydrate. The ultraviolet absorption of the protein is low at 280 nm and no change in the adsorption was observed with a change in pH. Compared to the unique features of the metallothioneins with a molecular weight of approximately 10,000, a high cysteine content of 30%, high absorption at 254 nm and a low absorption at 280 nm, and absorption change with pH, the REE-binding protein is unlikely to be plant metallothionein in nature. It was found that an almost twofold greater concentration was found for most of the REEs in the protein isolated from the maize with REE fertilizer use than that without REE fertilizer. This study suggests that the REE-binding protein is a glycoprotein and REEs can be firmly bound with the protein of maize roots.     

The light-harvesting core-complex and the B820-subunit from Rhodopseudomonas marina. Part I. Purification and characterisation.

The BChla-containing B880-complex (core-complex) of Rhodopseudomonas marina (Rhodospirillaceae) was isolated with a new purification method. The isolation of the B880-complex was performed by solubilisation of the photosynthetic membranes with the detergent LDAO and subsequent fractionated ammonium-sulfate precipitation with about 50% recovery. The B880-complex retained its original spectral properties as revealed with absorption, fluorescence and circular dichroism spectroscopy. Furthermore, we dissociated the B880-complex with the detergent n-octyl-beta-glucoside (OG) and purified the developed subcomplex by the method of Miller et al. [1], which showed an absorption maximum at 820 nm (B820). The alpha- to beta-polypeptide ratio and the alpha- or beta-polypeptide to BChla ratio, respectively, were estimated to be 1:1 in both complexes. The molecular weights of the B880 and the B820-complexes, determined by gel filtration chromatography, were 181 and 32 kDa, respectively. Thus, it appears that the B880-complex of Rp. marina consists of 24 polypeptides and the B820-complex of four polypeptides. Six B820-complexes or possible subunits could form the B880-complex. On the basis of these data we propose a model for the structure of BChla containing core-complexes.     

Effect of alternative glycosylation on insulin receptor processing.

The mature insulin receptor is a cell surface heterotetrameric glycoprotein composed of two alpha- and two beta-subunits. In 3T3-L1 adipocytes as in other cell types, the receptor is synthesized as a single polypeptide consisting of uncleaved alpha- and beta-subunits, migrating as a 190-kDa glycoprotein. To examine the importance of N-linked glycosylation on insulin receptor processing, we have used glucose deprivation as a tool to alter protein glycosylation. Western blot analysis shows that glucose deprivation led to a time-dependent accumulation of an alternative proreceptor of 170 kDa in a subcellular fraction consistent with endoplasmic reticulum localization. Co-precipitation assays provide evidence that the alternative proreceptor bound GRP78, an endoplasmic reticulum molecular chaperone. N-Glycosidase F treatment shows that the alternative proreceptor contained N-linked oligosaccharides. Yet, endoglycosidase H insensitivity indicates an aberrant oligosaccharide structure. Using pulse-chase methodology, we show that the synthetic rate was similar between the normal and alternative proreceptor. However, the normal proreceptor was processed into alpha- and beta-subunits (t((1)/(2)) = 1.3 +/- 0.6 h), while the alternative proreceptor was degraded (t((1)/(2)) = 5.1 +/- 0.6 h). Upon refeeding cells that were initially deprived of glucose, the alternative proreceptor was processed to a higher molecular weight form and gained sensitivity to endoglycosidase H. This "intermediate" form of the proreceptor was also degraded, although a small fraction escaped degradation, resulting in cleavage to the alpha- and beta-subunits. These data provide evidence for the first time that glucose deprivation leads to the accumulation of an alternative proreceptor, which can be post-translationally glycosylated with the readdition of glucose inducing both accelerated degradation and maturation.     

Characterization and immunochemistry of pyruvate dehydrogenase complex of Ascaris muscle

Pyruvate dehydrogenase complex and lipoamide dehydrogenase were purified from muscle of Ascaris lumbricoides var. suum which contains relatively a large amount of the complex. Molecular weights of three constituent enzymes of Ascaris pyruvate dehydrogenase complex were as follows; alpha- and beta-subunits of pyruvate dehydrogenase were 42,000 and 37,000, respectively, lipoate acetyltransferase was 76,000 and lipoamide dehydrogenase was 56,000. Furthermore, two unknown polypeptides having molecular weight of 46,000 and 41,000 were detected. Anti-Ascaris lipoamide dehydrogenase antibody precipitated three constituent enzymes and two unknown polypeptides, suggesting that lipoamide dehydrogenase not only binds tightly to complex, but also two unknown polypeptides bind tightly to complex.     

A chimera-like alpha-amylase inhibitor suggesting the evolution of Phaseolus vulgaris alpha-amylase inhibitor

White kidney bean (Phaseolus vulgaris) contains two kinds of alpha-amylase inhibitors, one heat-stable (alpha AI-s) and one heat-labile (alpha AI-u). alpha AI-s has recently been revealed to be a tetrameric complex, alpha(2)beta(2), with two active sites [Kasahara et al. (1996) J. Biochem. 120, 177-183]. The present study was undertaken to reveal the molecular features of alpha AI-u, which is composed of three kinds of subunits, alpha, beta, and gamma. The gamma-subunit, in contrast to the alpha- and beta-subunits that are indistinguishable from the alpha- and beta-subunits of alpha AI-s, was found to correspond to a subunit of an alpha-amylase inhibitor-like protein, which has been identified as an inactive, evolutionary intermediate between arcelin and the alpha-amylase inhibitor in a P. vulgaris defense protein family. The polypeptide molecular weight of alpha AI-u determined by the light-scattering technique, together with the polypeptide molecular weights of the subunits, suggests that alpha AI-u is a trimeric complex, alpha beta gamma. The inhibition of alpha AI-u by increasing amounts of porcine pancreatic alpha-amylase (PPA) indicates that an inactive 1:1 complex is formed between alpha AI-u and PPA. Molecular weight estimation of the complex by the light-scattering technique confirmed that it is a complex of alpha AI-u with one PPA molecule. Thus it seems probable that alpha AI-u is an evolutionary intermediate of the P. vulgaris alpha-amylase inhibitor.     

白鲢鱼与黄鳝血清转铁蛋白的分离纯化及其结构和性质的比较

1.白鲢鱼与黄鳝血清转铁蛋白在分离纯化上的差异。2.用SDS-PAGE测定分子量,白鲢鱼血清转铁蛋白有两个组份,分子量分别为77kD和70kD;黄鳝血清转铁蛋白为单一组份,分子量为68.1 kD。3.白鲢鱼与黄鳝血清转铁蛋白都含糖,但都不与ConA-Sepharose柱结合。4.白鲢鱼与黄鳝血清转铁蛋白氨基酸组成的测定和比较。5.白鲢鱼与黄鳝血清转铁蛋白用胰蛋白酶在相同条件下进行酶解,白鲢鱼能得到分子量在37kD左右的二个片段,而黄鳝则几乎不能被胰蛋白酶酶解。6.白鲢鱼血清转铁蛋白在404.5nm处有一特异吸收峰,而黄鳝则在407.5nm处。     

Structure/function of the beta-barrel domain of F1-ATPase in the yeast Saccharomyces cerevisiae.

The first 90 amino acids of the alpha- and beta-subunits of mitochondrial F1-ATPase are folded into beta-barrel domains and were postulated to be important for stabilizing the enzyme (Abrahams, J. P., Leslie, A. G., Lutter, R., and Walker, J. E. (1994) Nature 370, 621-628). The role of the domains was studied by making chimeric enzymes, replacing the domains from the yeast Saccharomyces cerevisiae enzyme with the corresponding domains from the enzyme of the thermophilic bacterium Bacillus PS3. The enzymes containing the chimeric alpha-, beta-, or alpha- and beta-subunits were not functional. However, gain-of-function mutations were obtained from the strain containing the enzyme with the chimeric PS3/yeast beta-subunit. The gain-of-function mutations were all in codons encoding the beta-barrel domain of the beta-subunit, and the residues appear to map out a region of subunit-subunit interactions. Gain-of-function mutations were also obtained that provided functional expression of the chimeric PS3/yeast alpha- and beta-subunits together. Biochemical analysis of this active chimeric enzyme indicated that it was not significantly more thermostable or labile than the wild type. The results of this study indicate that the beta-barrel domains form critical contacts (distinct from those between the alpha- and beta-subunits) that are important for the assembly of the ATP synthase.     

Purification and characterization of Bacillus coagulans oligo-1,6-glucosidase

A p-nitrophenyl-alpha-D-glucopyranoside-hydrolyzing oligo-1,6-glucosidase of Bacillus coagulans ATCC 7050 (facultative thermophile) was purified to homogeneity. The relative molecular mass, Stokes radius, sedimentation coefficient at 20 degrees C in water, molecular absorption coefficient at 280 nm and pH 6.8, and isoelectric point were estimated as 60 000, 3.29 nm, 4.8 X 10(-13) s, 1.34 X 10(5) M-1 cm-1, and 4.3, respectively. The amino-terminal amino acid was threonine. There was no common antigenic group between the enzyme and each of its homologous counterparts from Bacillus cereus ATCC 7064 (mesophile) and Bacillus thermoglucosidasius KP 1006 (obligate thermophile). These oligo-1,6-glucosidases strongly resembled one another in their amino acid composition, except that the proline content increased with the elevation of thermostability in the order, mesophile----facultative thermophile----obligate thermophile enzymes.     

Occurrence of a novel nucleotide, Zpp5'A2'p, in rat liver extracts

The nucleotide Zpp5'A2'p has been isolated from rat liver. Z stands for an unknown compound, probably a nucleoside. The preliminary structure of Zpp5'A2'p has been elucidated by treatment with phosphodiesterase and/or alkaline phosphatase and analysis of the products of the reaction by high pressure liquid chromatography. The following ultraviolet absorption spectral characteristics were determined at pH 7.0: Zpp5'A2'p (lambda max = 265 nm; A250/A260 = 0.76; A280/A260 = 0.83); Zp (lambda max = 280 nm; A250/A260 = 0.88; A280/A260 = 1.46). The molar extinction coefficient found for Zp, at 280 nm, was (7.5 + 0.9) X 10(3) M-1 cm-1. The base of Zp could correspond to an indole derivative.     

A direct microassay for serum retinol (vitamin A alcohol) by using size-exclusion high-pressure liquid chromatography with fluorescence detection

Serum retinol (bound to plasma retinol-binding protein, RBP) can be determined by direct injection of as little as 20 microliter of serum or plasma by using size-exclusion high-pressure liquid chromatography (SE-HPLC) with fluorescence detection. Toyo Soda TSK G-3000SW columns (0.75 X 7.5-cm guard column plus 0.75 X 30-cm analytical column) were eluted with 0.2 M NaCl/0.01 M phosphate buffer (pH 6.8) at 1 ml/min, with detection at 280 nm for protein elution. Fluorescence of the retinol-RBP complex was monitored with excitation at 334 nm (interference filter) and emission at 425 nm (long-pass filter). The retinol-RBP complex eluted as two peaks, the holo-RBP-transthyretin complex (apparent molecular weight 70,000) and holo-RBP (apparent molecular weight 9000). Identities of these peaks were established by immunodiffusion assay of the proteins and by extraction and analysis of retinol. Nonideal interactions with the column packing seem to be responsible for the low apparent molecular weight of holo-RBP. The first peak predominated when large volumes of serum (100 to 250 microliters) were injected, and the second when small volumes (5 to 50 microliters) were analyzed. The integrated area of the two fluorescence peaks due to retinol bound to RBP was proportional to the volume of a serum sample injected over the range 5 to 250 microliters.(ABSTRACT TRUNCATED AT 250 WORDS)