Electrospray Ionization Mass Spectrometric Study of the Multiple Intracellular Monomeric and Polymeric Hemoglobins of Glycera dibranchiata

The intracellular hemoglobin (Hb) of the marine polychaete Glycera dibranchiata is comprised of two groups of globins differing in their primary structures and state of aggregation. About six electrophoretically and chromatographically distinct monomeric Hbs which have Leu as the distal residue, and an equal number of polymeric Hbs which have the usual distal His, have been identified to date. Deconvolution of the electrospray ionization mass spectra (ESI-MS) of the Hbs and of their carbamidomethylated, reduced, and reduced/carbamidomethylated forms, using a maximum entropy-based approach (MaxEnt), showed the presence of at least 18 peaks attributable to monomer Hbs (14,500–15,200 Da) and an approximately equal number of polymer Hb peaks (15,500–16,400 Da). Although the ratio of the monomer to polymer components in pooled Hb preparations remained constant at 60:40, Hb from individuals had generally less than 6 monomer and 6 polymer components; 2 of the 19 individuals appeared to be deficient in polymer Hbs. Taking into account possible fragmentations of the known monomeric and polymeric globin sequences, we estimate conservatively that there are 10 monomeric and an equal number of polymeric Hbs, the majority comprising a single free Cys. Surprisingly, the calculated mass of the sequence deduced from the high-resolution monomer Hb crystal structures does not correspond to any of the observed masses. ESI-MS of the monomer Hb crystal revealed 11 components, of which 5, accounting for 67% of total, were related to the three major sequences GMG2–4. These findings underline the need for routine mass spectrometric characterization of all protein preparations. The complete resolution of the Glycera Hb ESI-MS using MaxEnt processing illustrates the power of this method to resolve complex protein mixtures.     

Polypeptide chain composition diversity of hexagonal-bilayer haemoglobins within a single family of annelids, the alvinellidae.

Following previous analysis of the structure of Alvinella pompejana heaxagonal-bilayer haemoglobin (HBL Hb) [1], we report in this paper the structure of three other HBL Hbs belonging to Alvinella caudata, Paralvinella grasslei and Paralvinella palmiformis, members of the Alvinellidae, annelid family strictly endemic to deep-sea hydrothermal vents located on the ridge crests in the Pacific ocean. The multi-angle laser light scattering (MALLS) and fast protein liquid chromatography (FPLC) analysis revealed a broad range of molecular masses for the extracellular Hb molecules, 3517 +/- 14 kDa (A. caudata), 3822 +/- 28 kDa (P. grasslei) and 3750 +/- 150 kDa (P. palmiformis). Native and derivative Hbs (reduced, carbamidomethylated and deglycosylated) were analysed by electrospray ionization mass spectroscopy (ESI-MS) and the data was processed by the maximum entropy deconvolution system (MaxEnt). The most important difference between alvinellid HBL Hbs was the variation in their composition, from two to four monomeric globin chains, and from one to four linker chains. Therefore, despite the fact that all these species belong to a single family, notable differences in the polypeptide chain composition of their HBL Hbs were observed, probably accounting for their different functional properties as previously reported by this group Toulmond, A., El Idrissi Slitine, F., De Frescheville, J. & Jouin, C. (1990) Biol. Bull. 179, 366-373.     

Electrospray ionization mass spectrometric determination of the molecular mass of the approximately 200-kDa globin dodecamer subassemblies in hexagonal bilayer hemoglobins.

Hexagonal bilayer hemoglobins (Hbs) are approximately 3.6-MDa complexes of approximately 17-kDa globin chains and 24-32-kDa, nonglobin linker chains in a approximately 2:1 mass ratio found in annelids and related species. Studies of the dissociation and reassembly of Lumbricus terrestris Hb have provided ample evidence for the presence of a approximately 200-kDa linker-free subassembly consisting of monomer (M) and disulfide-bonded trimer (T) subunits. Electrospray ionization mass spectrometry (ESI-MS) of the subassemblies obtained by gel filtration of partially dissociated L. terrestris and Arenicola marina Hbs showed the presence of noncovalent complexes of M and T subunits with masses in the 213. 3-215.4 and 204.6-205.6 kDa ranges, respectively. The observed mass of the L. terrestris subassembly decreased linearly with an increase in de-clustering voltage from approximately 215,400 Da at 60 V to approximately 213,300 Da at 200 V. In contrast, the mass of the A. marina complex decreased linearly from 60 to 120 V and reached an asymptote at approximately 204,600 Da (180-200 V). The decrease in mass was probably due to the progressive removal of complexed water and alkali metal cations. ESI-MS at an acidic pH showed both subassemblies to consist of only M and T subunits, and the experimental masses demonstrated them to have the composition M(3)T(3). Because there are three isoforms of M and four isoforms of T in Lumbricus and two isoforms of M and 5 isoforms of T in Arenicola, the masses of the M(3)T(3) subassemblies are not unique. A random assembly model was used to calculate the mass distributions of the subassemblies, using the known ESI-MS masses and relative intensities of the M and T subunit isforms. The expected mass of randomly assembled subassemblies was 213,436 Da for Lumbricus Hb and 204,342 Da for Arenicola Hb, in good agreement with the experimental values.     

Hemoglobins from deep-sea hydrothermal vent scaleworms of the genus Branchipolynoe: a new type of quaternary structure

Branchipolynoe symmytilida and B. seepensis are two scaleworms (Polychaeta; Polynoidae) living commensally in the mantle cavity of deep-sea hydrothermal vent and cold-seep mussels. In contrast with littoral members of this family, the two species exhibit a large amount of extracellular hemoglobin (Hb) in their coelomic fluid. Gel filtration revealed the existence of four different Hbs: one minor, high molecular mass (3x10(6) Da) Hb, V1-Hb, reminiscent of a vascular hexagonal bilayer annelid Hb; two major coelomic Hbs, C1-Hb, and C2-Hb, with unusual masses for extracellular annelid Hbs of 153 and 124 kDa respectively; and a minor probably coelomic Hb of 23 kDa (C3-Hb). Using electrospray ionization mass spectrometry, SDS-PAGE after subtilisin treatment, and tandem mass spectrometry, we showed that C1-Hb is a trimer of a 57,996 Da chain and C2-Hb is a dimer of a 57,648 Da chain, each chain being a four-domain/four-heme polypeptide. This multimeric, multidomain arrangement is unique among annelid Hbs and appears different from that of other known multidomain Hbs.     

A thermostable protein inhibitor of protein kinase from the swine brain. Isolation of the inhibitor and interaction with the enzyme

A heat-stable protein inhibitor of cAMP-dependent protein kinase has been isolated from pig brain tissue. During gel filtration the protein is eluted in three peaks corresponding to the tetramer, dimer and monomer. The monomer fraction was purified 609-fold. The molecular mass of the monomeric form as determined by gel filtration and electrophoresis is equal to 11,000 Da and 8000 Da, respectively. The inhibition of the phosphotransferase reaction with respect to ATP occurs via a non-competitive mechanism, while that for histone--via a competitive mechanism. A formal kinetic analysis of various modes of the inhibitor binding to different protein kinase forms, e. g., the cAMP-dependent protein kinase catalytic subunit, protein kinase holoenzyme in the presence and absence of cAMP as well as of holoenzyme preparations modified by dimethylsuberimidate and cupric 1,10-phenanthroline, has been carried out. It was demonstrated that 3-4 inhibitor molecules are involved in the interaction with protein kinase.     

Structural Features of Glycera dibranchiata Monomer Hemoglobins. Primary Sequences of Monomer Hemoglobin Components II and III

Primary sequences for the remaining two members (GMH2, GMH3) of the group of three major monomeric hemoglobins from the marine annelid Glycera dibranchiata have been obtained. Full sequences of each 147-amino acid globin were achieved with a high degree of confidence using standard Edman technology in combination with molecular mass determinations of the intact globins and of the cyanogen bromide cleavage fragments using electrospray ionization mass spectrometry. When minor assumptions concerning Q/E identities are made these new results indicate the likely correspondence of GMG2 with the protein represented by the first Glycera dibranchiata monomer hemoglobin complete sequence [Imamura et al., (1972), J. Biol. Chem. 247, 2785–2797]. When these new sequences are combined with the previously determined primary sequence for the third major monomer hemoglobin, GMH4 [Alam et al., J. Protein Chem. (1994), 13, 151–164], it becomes clear that these three (GMG2–4) are truly distinct proteins, contrary to previous suggestions. Surprisingly, our results show that none of these three primary sequences is identical to the published sequence of the refined monomer hemoglobin crystal structure protein; however, there is a strong correspondence to the GMG2 sequence. The present sequencing results, in combination with the published GMH4 sequence, confirm the presence of a distal Leu in place of the more commonly encountered distal His in all three of the major monomer hemoglobins isolated in this laboratory and indicate that the unusual B10 Phe occurs only in GMH4. Analysis of the sequences presented here, along with comparison of amino acid content for Glycera dibranchiata monomer hemoglobins isolated from three different laboratories, and comparison of NMR results from two laboratories suggest further correspondences which unify disparate published isolations.     

Globin and linker sequences of the giant extracellular hemoglobin from the leech Macrobdella decora

A detailed electrospray ionization mass spectrometric study of the 3.5-MDa hexagonal bilayer hemoglobin (HBL Hb) from the pond leech Macrobdella decora has shown it to consist of at least six 17-kDa globin chains, of which two are monomeric and the remaining four occur as disulfide-bonded heterodimers, and three 24-kDa nonglobin linker chains (Weber et al., J. Mol. Biol. 251: 703–720, 1995). The cDNA sequences of the five major constituent chains, globin chains IIA, IIB, B, and C and linker chain L1, are reported here. The globins and linkers share 30%–50% and 20%–30% identity, respectively, with other annelid sequences. Furthermore, IIB and C align with strain A of annelid sequences, whereas IIA and B align with the strain B sequences. Although chains B and C are monomeric, chains IIA and IIB form the main disulfide-bonded dimer. They also have some unusual features: the distal His (E7) is replaced by Phe in IIA, and the highly conserved CD1Phe is replaced by Leu in IIB. In spite of these unusual features, the functional properties of Macrobdella Hb are comparable to those of other HBL Hbs. A phylogenetic analysis of the globin sequences from Macrobdella, the polychaete Tylorrhynchus, the oligochaete Lumbricus, and the vestimentiferan Lamellibrachia, indicates that the two strains originated by gene duplication followed by additional duplication of each of the two strains. The mutation rate of the linkers appeared to be faster than that of the globin chains. The phylogenetic trees constructed using the Maximum Likelihood, Neighbor-Joining and Fitch methods showed the Macrobdella globin sequences to be closest to Lumbricus, in agreement with a view of annelid evolution in which the divergence of the polychaetes occurred before the divergence of the leeches from oligochaetes.     

Primary structure of the common polypeptide chain b from the multi-hemoglobin system of the hydrothermal vent tube worm Riftia pachyptila: An insight on the sulfide binding-site

The deep-sea tube worm Riftia pachyptila Jones possesses a multi-hemoglobin system with three different extracellular Hbs: two dissolved in the vascular blood, V1 (ca. 3,500 kDa) and V2 (ca. 400 kDa), and one in the coelomic fluid, C1 (ca. 400 kDa). V1 Hb consists of four heme-containing, globin chains (b–e) and four linker chains (L1–L4). V2 and C1 Hbs are exclusively built from globin chains, six for V2 (a–f) and five for C1 (a–e). The complete amino acid sequence of the isolated monomeric globin chain b, common to all Riftia Hbs, has been determined by automated Edman degradation sequencing of the peptides derived by digestion with trypsin, chymotrypsin, thermolysin, and CNBr. This polypeptide chain is composed of 144 amino acid residues, providing a Mr of 16, 135.0 Da. Moreover, the primary sequence of chain b revealed 3 Cys residues at position 4, 75, and 134. Cys-4 and Cys-134 are located at positions where an intra-chain disulfide bridge is formed in all annelid, vestimentiferan, or pogonophoran chains, but Cys-75 is located at a unique position only found in three globin chains belonging to Lamellibrachia and Oligobrachia, a vestimentiferan and a pogonophoran. In both groups, Hbs can bind sulfide reversibly to fuel the chemosynthetic process of the symbiotic bacteria they harbor. Sulfide-binding experiments performed on purified Hb fractions (i.e., V1, V2, and C1 Hbs) suggest that free Cys residues on globin chains, and the numerous Cys found in linker chains, as determined previously by ESI-MS, may be the sulfide binding-sites. Blocking the free Cys by N-ethylmaleimide, we confirmed that free cysteines were involved in sulfide-binding but did not account for the whole sulfide-binding capacity of V1 Hb. Furthermore, a phylogenetic tree was constructed from 18 globin-like chains of annelid, vetimentiferan, and pogonophoran extracellular Hbs to clarify the systematic position of tubeworms. Riftia chain b clearly belongs to the “strain A” family with 30 to 80% identity with the other sequences analyzed. Its position in the tree confirmed a close relationship between vestimentiferan, pogonophoran, and annelid Hbs. Proteins 29:562–574, 1997. © 1997 Wiley-Liss, Inc.     

Functional comparison of hemoglobin purified by different methods and their biophysical implications

Hemoglobin (Hb) that is purified from red blood cells (RBCs) is commonly subjected to harsh processing conditions, such as high temperatures and extensive column separation, which may damage the Hb by altering the heme prosthetic group and/or the Hb protein structure. In this study, bovine and human Hb purified by tangential flow filtration (TFF) was compared to commercial preparations of human Hb (Hemosol, Inc., Toronto, Canada) and bovine Hb (Biopure, Inc., Cambridge, MA). Purified Hbs were characterized by measuring their overall purity (SDS–PAGE, SEC, and ESI‐MS), susceptibility to oxidation (k_ox), responses to physiological conditions (pH, [Cl^?], [IHP], and T), and ligand binding kinetics (O₂, NO, and CO). All Hbs evaluated possessed comparable biophysical properties, however, a small amount of catalase was detected in the TFF‐purified Hbs that reduced the rate of autoxidation. Mass changes observed by mass spectrometry suggest that structural alterations may be introduced into Hbs that are purified by extensive chromatographic separations. These results demonstrate that TFF is a suitable process for the purification of Hb from RBCs with a quality equivalent to that of commercial Hb preparations that employ more extensive purification strategies. This work also shows that TFF can yield highly pure Hb which can be used for Hb‐based O₂ carrier synthesis. Biotechnol. Bioeng. 2010; 106: 76–85. © 2010 Wiley Periodicals, Inc.     

Hemoglobins,XLVIIII

Summary Hagfish hemoglobin has three main components, one of which is Hb III. It is monomeric and consists of 148 amino acid residues (M = 17 350). Its complete primary structure, previously published, is discussed here. The proximal amino acid (F8) of the heme linkage is histidine as always in the hemoglobins, but the regularly expected distal histidine E7 is substituted by glutamine. This substitution, leading to a new kind of heme linkage, has hitherto only been demonstrated in opossum hemoglobin. It is suggested that E7, Gln, is directed out of the heme pocket, and that the adjacent Ell, Ile, is directed toward the inside of the pocket, giving the distal heme contact instead of histidine.Myxine Hb III has an additional tail of 9 amino acid residues at its N-terminal end, as has the hemoglobin ofLampetra fluviatilis. The genetic codes ofMyxine andLampetra hemoglobins show 117 differences, in spite of many morphological resemblances between hagfish and lamprey. Their primary hemoglobin structures show differences substantial enough to bo compatible with the divergence of the two families some 400–500 million years ago.     

水蕨血红蛋白基因的分子克隆和序列分析

植物血红蛋白(Hemoglobin)是一类由珠蛋白(Globin)和血红素(Ferroheme)组成的结合蛋白,在植物中广泛分布,迄今已在苔藓植物、裸子植物和被子植物中克隆到血红蛋白基因序列,但在蕨类植物中相关研究还未见报道。该研究采用热不对称交错PCR(TAIL-PCR)方法克隆了水蕨血红蛋白基因的全长序列。该基因的序列总长为949 bp,包含4个外显子和3个内含子,编码189个氨基酸。预测的蛋白质(命名为CtHb)的分子量为21.14 kDa,等电点(pI)为7.81。三维结构模拟表明CtHb具有植物血红蛋白典型的三级结构:即含有A、B、C、E、F、G和H螺旋,形成了3-on-3的"三明治"结构。和水稻血红蛋白的三级结构相比,CtHb的大部分结构(包括具有远端和近端组氨酸定位的E螺旋和F螺旋的位置等)同水稻的结构极为相似。两者的不同之处主要表现在:(1)CtHb含有较长的N-端区域;(2)两者CD-loop的折叠方式不同;(3)两者螺旋B和螺旋C的连接方式不同,CtHb是通过卷曲连接的,而水稻中借助的是螺旋。结构进化分析揭示了植物血红蛋白从非共生到共生进化过程中的一些关键改变,这些改变可能有助于非共生血红蛋白向共生血红蛋白结构的转变,特别是有助于豆血红蛋白共生功能的实现。     

Coupling of m-aminophenylboronic acid to s-triazine-activated Sephacryl: use in the affinity chromatography of glycated hemoglobins

An improved process is described for covalent coupling of m-aminobenzeneboric acid to s-triazine-activated Sephacryl matrices. The derivatized Sephacryl gel contained up to 150–200 μmol boronate per ml. It has been applied to the separation of glycated and non-glycated hemoglobins (Hbs) present in red-cell hemolysate. The new bioaffinity support was evaluated by the analysis of 67 diabetic patients and 20 normal adults. The mean value for glycated Hb was 6.6 ± 0.8% for non-diabetics and 11.2 ± 2.9% for diabetics. The method effects group-specific separation between glycated and non-glycated Hbs even in presence of foetal Hb and abnormal Hb variants. There is an excellent correlation between the glycated Hb levels obtained by the new method and two established procedures, namely high-performance liquid chromatography (r = 0.933) and affinity Merckotest (r = 0.991). The inter-assay and intra-assay coefficient of variations of less than 3.0% suggest that the method is reproducible. The results indicate that the method may serve as an alternative procedure for the study of glycated proteins. The s-triazine-activated Sephacryl could also be used for immobilizing enzymes and for preparing biospecific absorbents.     

Functional differentiation in trematode hemoglobin isoforms.

The Hbs and the major electrophoretic Hb components (isoHbs) were isolated from three species of the trematodes, Explanatum explanatum (Ee), Gastrothylax crumenifer (Gc) and Paramphistomum epiclitum (Pe), that parasitise the common Indian water buffalo Bubalus bubalis. The Hbs are monomeric and resemble the so-called nonfunctional mutant hemoglobins that have Tyr at B10 or E7 positions (replacing Leu and the His residues, respectively). However, they are capable of binding with O2 and CO. O2 equilibrium studies of trematode Hb isoforms reveal extremely high O2 affinities, with half-saturation O2 tension (P50) values up to 800 times lower than those of human hemoglobins. This correlates with Tyr residues at B10 and at the distal position (E7) that decrease the O2 dissociation rate by contributing hydrogen bonds (H-bonds) to the bound O2. These substitutions also increase the O2 association rates either due to orientation of E7-Tyr towards the solvent and/or by sterically hindering the entry of water molecules into the heme pocket. The latter may account for the low rate of autoxidation of trematode Hbs. The Hbs and their isoforms from different species exhibited pronounced variation in O2 affinity, which may relate to subtle differences in the structure of the heme pocket. The O2 affinities of the composite (unfractionated) Hbs were intermediate to those of the individual Hb isoform. The P50 values of Hbs here obtained by direct O2 equilibrium measurements differed from those calculated from kinetic data already published [Kiger, L., Rashid, A. K., Griffon, N., Haque, M., Moens, L.,Gibson, Q. H., Poyart, C., & Marden, M. C. (1998). Biophys. J. 75, 990-998.] Intermediate state(s) due to slow reorientation of E7-Tyr may account for this difference. Some Hb isoforms showed slight (either normal or reverse) Bohr effects. The hyperbolic O2 equilibrium curve, Hill coefficient (n) values near unity accord with a monomeric nature of trematode Hbs. In marked contrast to vertebrate Hbs, CO does not seem to compete effectively with O2 in trematode Hbs, as evident from partition coefficient values (M) below 1.     

Electron and X-ray microscopic analyses of reaggregated materials obtained after fractionation of dissolved sporopollenin

Summary Exines fromTypha angustifolia L. pollen were dissolved in hot 2-aminoethanol. The solubilisate was successively fractionated and reaggregated via a dialysis cascade with dialysis tubings of different exclusion volumina. Four fractions of reaggregated material with different molecular mass were obtained. Fraction 1 with a molecular mass above 25,000 Da, fraction 2 with a molecular mass between 10,000–25,000 Da, fraction 3 with a molecular mass between 5,000–10,000 Da, and fraction 4 of a molecular mass lower than 5,000 Da. The fractions were comparatively analysed by scanning and transmission electron microscopy and X-ray microscopy. The material of the fractions with a molecular mass above 10,000 Da exhibit high congruence to the initial material. Analysis of the reaggregated material with the lowest molecular mass revealed special distinct substructures which in form and size showed high similarities to substructures of exines described in literature. In detail, spherical substructures consisting of an electron-dense core surrounded by an electron-transparent corona and in addition elongated substructures with a distinctive surface sculpture were detected.Abbreviations SEM scanning electron microscopy - TEM transmission electron microscopy     

Discrimination of Aspergillus isolates at the species and strain level by matrix-assisted laser desorption/ionization time-of-flight mass spectrometry fingerprinting

Matrix-assisted laser desorption/ionization time-of-flight mass spectrometry (MALDI–TOF MS) was used to generate highly reproducible mass spectral fingerprints for 12 species of fungi of the genus Aspergillus and 5 different strains of Aspergillus flavus. Prior to MALDI–TOF MS analysis, the fungi were subjected to three 1-min bead beating cycles in an acetonitrile/trifluoroacetic acid solvent. The mass spectra contain abundant peaks in the range of 5 to 20 kDa and may be used to discriminate between species unambiguously. A discriminant analysis using all peaks from the MALDI–TOF MS data yielded error rates for classification of 0 and 18.75% for resubstitution and cross-validation methods, respectively. If a subset of 28 significant peaks is chosen, resubstitution and cross-validation error rates are 0%. Discriminant analysis of the MALDI–TOF MS data for 5 strains of A. flavus using all peaks yielded error rates for classification of 0 and 5% for resubstitution and cross-validation methods, respectively. These data indicate that MALDI–TOF MS data may be used for unambiguous identification of members of the genus Aspergillus at both the species and strain levels.     

Hemoglobin M: effect of the proximal or distal histidine replacement on circular dichroism in the visible region

To examine the effects of a replacement of the proximal or the distal histidine on the structure of hemoglobin (Hb), absorption and circular dichroic (CD) spectra of five species of Hbs M in the visible region were measured. Four Hbs M had a characteristic but a similar absorption spectrum upon amino acid substitution, however, the proximal histidine replaced Hbs M (Hb M Iwate and Hb M Hyde Park) showed considerably different CD spectra from those of the distal histidine replaced ones (Hb M Boston and Hb M Saskatoon). The former exhibited large positive CD but the latter gave a complex CD spectrum with positive and negative extrema. On the other hand, absorption and CD spectra of Hb M Milwaukee did not changed very much from those of Hb A.     

Quadrupole time-of-flight mass spectrometry of the native hemocyanin of the deep-sea crab Bythograea thermydron

Since electrospray ionization mass spectrometry (ESI-MS) has demonstrated capabilities for observing intact, weak interactions, there has been increasing interest in studying by this method noncovalently bound complexes. In this communication, we report for the first time the structure obtained by a commercial ESI quadrupole time-of-flight spectrometer on a native hemocyanin of deep-sea crab Bythograea thermydron with a molecular mass of 1.3 MDa. ESI-MS analysis of the native hemocyanin revealed the formation of a 18-mer noncovalent assembly with a measured molecular mass of 1354940 +/- 480 Da. ESI-MS data also revealed that this huge structure is an equilibrium with several assemblages, dodecamer (measured molecular weight = 902570 +/- 110 Da), hexamer (measured molecular weight = 450310 +/- 260 Da), and monomeric structures (measured molecular weight = 74999 +/- 85 Da).     

Gas chromatographic–mass spectrometric procedures for determination of the catechol-O-methyltransferase (COMT) activity and for detection of unstable catecholic metabolites in human and rat liver preparations after COMT catalyzed in statu nascendi derivatization using S-adenosylmethionine

A procedure is presented for determination of the catechol-O-methyltransferase (COMT) activity in liver cytosolic preparations using 3,4-dihydroxyphenethylamine as substrate and by quantifying the product 3-methoxy-4-hydroxyphenethylamine (3-MHP). For quantification of 3-MHP in liver cytosolic preparations a gas chromatographic–mass spectrometric procedure after liquid–liquid extraction and acetylation was established and validated. The intra- and inter-day accuracy and precision were better than 15% and 20%, respectively. Extraction efficiency and selectivity were also sufficient. For in statu nascendi derivatization of unstable catecholic metabolites in liver microsome preparations, cytosolic preparations with COMT activities of at least 1 nmol product/min/mg protein were used after addition of S-adenosylmethionine. Such catecholic metabolites, which are claimed to be responsible for toxic effects in vivo, e.g., neurotoxicity or carcinogenesis, must not be overlooked in in vitro metabolism studies. Using this trick, gas chromatography–mass spectrometry (GC–MS) was suitable for the determination of catecholic metabolites in human and rat liver preparations after the same sample preparation as for 3-MHP quantification. The applicability was exemplified for the antidepressant paroxetine.     

Isolation and structural analysis of bamylocin A, novel lipopeptide from Bacillus amyloliquefaciens LP03 having antagonistic and crude oil-emulsifying activity

Bacillus amyloliquefaciens strain LP03 isolated from soil, produced an antagonistic compound that strongly inhibited the growth of plant-pathogenic fungi and a lipopeptide biosurfactant. Also, isolated strain LP03 had a marked crude oil-emulsifying activity as it developed a clear zone around the colony after incubation for 24 h at 37°C. LP03 was identified as Bacillus amyloliquefaciens by analysis of partial 16 S rRNA gene and partial gyrA gene sequence. The lipopeptide was purified by acid precipitation of cell-free culture broth, extraction of the precipitates with methanol, silica gel column chromatography, and reverse-phase, high-pressure liquid chromatography. The purified biosurfactant was analyzed biochemical structure by matrix-assisted laser desorption/ionization time-of-flight mass spectrometry (MALDI-TOF) and electrospray ionization mass spectrometry/mass spectrometry (ESI-MS/MS). The masses of the two peaks were observed by HPLC chromatography. Their masses were determined to be 1,044 and 1,058 m/z with MALDI-TOF mass spectrometry. As constituents of the peptide and lipophilic part of the m/z 1,022.6, seven amino acids (Glu-Leu-Met-Leu-Pro-Leu-Leu) and β-hydroxy-C13 fatty acid were determined by ESI-MS/MS. The lipopeptide of 1,022.6 Da differed from surfactins in the substitution of leucine, valine and aspartic acid in positions 3, 4, and 5 by methionine, leucine, and proline, respectively. Novel lipopeptide was designated as bamylocin A.     

Pathway and Mechanism of pH Dependent Human Hemoglobin Tetramer-Dimer-Monomer Dissociations

Hemoglobin dissociation is of great interest in protein process and clinical medicine as well as in artificial blood research. However, the pathway and mechanisms of pH-dependent human Hb dissociation are not clear, whether Hb would really dissociate into monomers is still a question. Therefore, we have conducted a multi-technique investigation on the structure and function of human Hb versus pH. Here we demonstrate that tetramer hemoglobin can easily dissociate into dimer in abnormal pH and the tetramer → dimer dissociation is reversible if pH returns to normal physiological value. When the environmental pH becomes more acidic (<6.5) or alkaline (>8.0), Hb can further dissociate from dimer to monomer. The proportion of monomers increases while the fraction of dimers decreases as pH declines from 6.2 to 5.4. The dimer → monomer dissociation is accompanied with series changes of protein structure thus it is an irreversible process. The structural changes in the dissociated Hbs result in some loss of their functions. Both the Hb dimer and monomer cannot adequately carry and release oxygen to the tissues in circulation. These findings provide a comprehensive understanding on the pH-dependent protein transitions of human Hb, give guideline to explain complex protein processes and the means to control protein dissociation or re-association reaction. They are also of practical value in clinical medicine, blood preservation and blood substitute development.