Trans-cis isomerization of retinal and a mechanism for ion translocation in halorhodopsin

The chromophore in halorhodopsin (HR) which acts as a light-driven chloride pump in halobacteria shares many properties with its counterpart in bacteriorhodopsin (BR): (i) a similar retinal protein interaction, (ii) trans to cis isomerization and (iii) similar intermediates of its photocycle. One major difference between the two chromoproteins is that the HR chromophore does not become deprotonated during its photocycle. A mechanism for the photocycle of HR is presented, which, in close analogy to an earlier proposed mechanism for BR, involves the sequence of all-trans 13-cis, 14s-cis 13-cis all-trans isomerizations of the chromophore, a Schiff base of retinal. In contrast to the situation in BR the 13-cis, 14s-cis13-cis isomerization is induced not by deprotonation of the retinal Schiff base chromophore but rather by the movement of an anion (Cl^-) towards the protonated nitrogen of the Schiff's base. The suggested mechanism involves the Schiff base directly in the chloride translocation in halorhodopsin.     

Photochemistry and Photoinduced Proton-Transfer by Pharaonis Phoborhodopsin

Phoborhodopsin (pR or sensory rhodopsin II, sRII) is a photoreceptor of the negative phototaxis of Halobacterium salinarum, and pharaonis phoborhodopsin (ppR or pharaonis sensory rhodopsin II, psRII) is a corresponding protein of Natronobacterium pharaonis. The photocycle of ppR is essentially as follows: ppR(498) ppR_K(540) ppR_KL(512) ppR_L(488) ppR_M(390) ppR_O(560) ppR (numbers in parenthesis denote the maximum absorbance). The photocycle is very similar to that of bacteriorhodopsin, but the rate of initial pigment recovery is about two-orders of magnitude slower. By low-temperature spectroscopy, two K-intermediates were found but the L intermediate was not detected. The lack of L indicates extraordinary stability of K at low temperature. ppR_M is photoactive similar to M of bR. The ground state ppR contains only all-trans retinal whereas ppR_M and ppR_O contain 13-cis and all-trans, respectively. ppR has the ability of lightinduced proton transport from the inside to the outside. Proton uptake occurs at the formation of ppR_O and the release at its decay. ppR associates with its transducer and this complex transmits a signal to the cytoplasm. The proton transport ability is lost when the complex forms, but the proton uptake and release still occur, suggesting that the proton movement is non-electrogenic (release and uptake occur from the same side). The stoichiometry of the complex between ppR and the transducer is 1 : 1. ppR or pR has absorption maximum at 500 nm, which is blue-shifted from those of other archaeal rhodopsins. The molecular mechanism of this color regulation is not yet solved.     

Production and characterization of antibodies to the β-(1→6)-galactotetraosyl group and their interaction with arabinogalactan-proteins

Rabbit antisera were raised against -(16)-galactotetraose coupled to bovine serum albumin (Gal₄-BSA). The antisera reacted with arabinogalactan-proteins (AGPs) isolated from seeds, roots, or leaves of radish (Raphanus sativus L.) as revealed by immunodiffusion analysis. Extensive removal of -l-arabinofuranosyl residues from these AGPs enhanced the formation of precipitin with the antisera. The antisera did not react with such other polysaccharides as soybean arabinan-4-galactan, -(14)-galactan, and -(13)-galactan, indicating their high specificity toward the consecutive -(16)-galactosyl side chains of AGPs. The antibodies were purified by affinity chromatography on a column of immobilized -(16)-galactotetraose as ligand. The specificity of the antibodies toward consecutive (16)-linked -galactosyl residues was confirmed by enzyme-linked immunosorbent assay for hapten inhibition against Gal₄-BSA as antigen, which revealed that -(16)-galactotriose and-tetraose were potent inhibitors, while -(13)-or -(14)-galactobioses and -trioses were essentially unreactive. Electron-microscopic observation of immunogold-stained tissues demonstrated that AGPs were localized in the middle lamella as well as at the plasma membrane of primary roots of radish. Agglutination of protoplasts prepared from cotyledons occurred with the antibodies, supporting the evidence for localization of AGPs in the plasma membrane. The antibody-mediated agglutination was inhibited by addition of AGPs or -(16)-galactotetraose.Abbreviations AGP arabinogalactan-protein - BSA bovine serum albumin - ELISA enzyme-linked immunosorbent assay - FITC fluorescein isothiocyanate - Gal₃-BSA -(16)-galactotriose coupled to BSA - Gal₄-BSA -(16)-galactotetraose coupled to BSA - Ig immunoglobulin - 4-Me-GlcpA 4-O-methyl-d-glucopyranosyluronic acid - M_r relative molecular mass The authors wish to thank Dr. J. Ohnishi of Department of Biochemistry, Saitama University, for his help in preparing protoplasts.     

High resolution 13C-solid state NMR of bacteriorhodopsin: assignment of specific aspartic acids and structural implications of single site mutations

Three mutant strains of Halobacterium sp. GRB with the site of mutation in the bacterioopsin gene (PM 326: Asp96 Asn; PM 374: Asp96 Gly; PM 384: Asp85 Glu) were grown in a synthetic medium containing (4-¹³C)-Asp. The mutant bacteriorhodopsins labeled with (4-¹³C)-Asp (37%–45%), and owing to the metabolism of Halobacteria also with (11-¹³C)-Trp (50%–100%), were isolated as purple membranes and ¹³C Solid State Magic Angle Sample Spinning (MASS) Nuclear Magnetic Resonance (NMR) spectra of the samples were taken. The Asp96 mutants lacked the signal at 171.3 ppm which was previously assigned to a protonated internal Asp (Engelhard et al. 1989 a). This observation supports the conclusion that Asp96 is protonated in the ground state. PM 384 (Asp85 Glu) has an absorption maximum at 610 run. It can be converted into a purple form (_max = 5.40 nm) by treatment with a detergent (CHAPSO). The NMR-spectra of these two species differ from each other and from the wild type. The intensity of the resonance at 173 ppm in the wild type spectrum is reduced in both forms of the mutant protein. It is probable that this signal is caused by Asp85. The amino acid changes result not only in a perturbation of their direct environment but also effects on Trp residues and the chromophore protein interaction can be observed.Abbreviations CHAPSO 3-(3-cholamidopropyl)-dimethylammonio2-hydroxy-1-propane sulfonate - CP crosspolarization - bR bacteriorhodopsin - FTIR Fourier-transform-infrared - FID free induction decay - IR Infrared - MASS Magic angle sample spinning - NMR Nuclear magnetic resonance - TMS tetramethylsilane This research was supported by the Deutsche Forschungsgemeinschaft #SFB 60G9 Offprint requests to: M. Engelhard     

Primary structure of hemoglobin α-chain ofColumba livia (gray wild pigeon)

Primary structure of hemoglobin of -chain ofColumba livia is presented. The separation of -chain was obtained from globin by ion-exchange chromatography (CMC-52) and reversed-phase HPLC (RP-2 column). Amino acid sequence of intact as well as tryptic digested chain was determined on gas-phase sequencer. Structure is aligned homologously with 21 other species. Among different exchanges, positions 24 (TyrLeu), 26 (AlaGly), 32 (MetLeu), 64 (AspGlu), 113 (LeuPhe), and 129 (LeuVal) are unique to pigeon hemoglobin. The various exchanges in -chain are discussed with reference to evolution and phylogeny. The results show that the order Columbiformes is evolutionarily closer to the order Anseriformes. Since the pigeon is homogeneous, having HbA (^A-chain) and lacks ^D-chain, its phylogenetic placement could be established among birds having single hemoglobin components.     

Differential expression of enzyme activities initiating anoxic metabolism of various aromatic compounds via benzoyl-CoA

The regulation of the expression of enzyme activities catalyzing initial reactions in the anoxic metabolism of various aromatic compounds was studied at the whole cell level in the denitrifying Pseudomonas strain K 172. The specific enzyme activities were determined after growth on six different aromatic substrates (phenol, 4-hydroxybenzoate, benzoate, p-cresol, phenylacetate, 4-hydroxyphenylacetate) all being proposed to be metabolized anaerobically via benzoyl-CoA. As a control cells were grown on acetate, or aerobically on benzoate. The expression of the following enzyme activities was determined.Phenol carboxylase, as studied by the isotope exchange between ¹⁴CO₂ and the carboxyl group of 4-hydroxybenzoate; 4-hydroxybenzoyl-CoA reductase (dehydroxylating); p-cresol methylhydroxylase; 4-hydroxybenzyl alcohol dehydrogenase; 4-hydroxybenzaldehyde dehydrogenase; coenzymeA ligases for the aromatic acids benzoate, 4-hydroxybenzoate, phenylacetate, and 4-hydroxyphenylacetate; phenylglyoxylate: acceptor oxidoreductase and 4-hydroxyphenylglyoxylate: acceptor oxidoreductase; aromatic alcohol and aldehyde dehydrogenases.The formation of most active enzymes is strictly regulated; they were only induced when required, the basic activities being almost zero. The observed whole cell regulation pattern supports the postulate that the enzyme activities play a role in anoxic aromatic metabolism and that the compounds are degraded via the following intermediates: Phenol 4-hydroxybenzoate 4-hydroxybenzoyl-CoA benzoyl-CoA; 4-hydroxybenzoate 4-hydroxybenzoyl-CoA benzoyl-CoA; benzoate benzoyl-CoA; p-cresol 4-hydroxybenzaldehyde 4-hydroxybenzoate 4-hydroxybenzoyl-CoA benzoyl-CoA; phenylacetate phenylacetyl-CoA phenylglyoxylate benzoyl-CoA plus CO₂; 4-hydroxyphenylacetate 4-hydroxyphenylacetyl-CoA 4-hydroxyphenylglyoxylate 4-hydroxybenzoyl-CoA plus CO₂ benzoyl-CoA.     

XylS domain interactions can be deduced from intraallelic dominance in double mutants of Pseudomonas putida.

Summary The XylS protein is the positive regulator of the TOL plasmid-encoded meta-cleavage pathway for the metabolism of alkylbenzoates in Pseudomonas putida. This protein is activated by a variety of benzoate analogues. To elucidate the functional domains of the regulator and their interactions, several fusions of the XylS C-terminus to MS2 polymerase and of the N-terminus to -galactosidase were constructed but all are inactive. In addition, 15 double mutant xylS genes were constructed in vitro by fusing parts of various mutant genes to produce mutant regulators exhibiting C-terminal and N-terminal amino acid substitutions. The phenotypic properties of the parental single mutant genes, and those of the double mutant genes, suggest that the C-terminal region is involved in binding to DNA sequences at the promoter of the meta-cleavage pathway operon, and that the benzoate effector binding pocket includes critical residues present at both the N-terminal and C-terminal ends of the protein. The intraallelic dominance of the Ile229 (Ser229 Ile) and Val274 (Asp274 Val) substitutions over the N-terminal His4l (Arg4l His) substitution, and the intraallelic dominance of Thr45 (Arg45 Thr) over Ile229 and Val274, support the proposal that these two regions of the regulator interact functionally. Combination of the Leu88 (Trp88 Leu) and Arg256 (Pro256 Arg) substitutions did not suppress the semiconstitutive phenotype conferred by Leu88, but resulted in a protein with altered ability to recognize benzoates. In contrast, the Leu88 semiconstitutive phenotype was suppressed by Va1288 (Asp288 Val), and the double mutant was susceptible to activation by benzoates. The results suggest that intramolecular interactions between the C- and N-terminal regions of XylS are critical for activation of the regulator by the effector.     

Pathways for Electron Tunneling in Cytochrome c Oxidase

Warburg showed in 1929 that the photochemical action spectrum for CO dissociation from cytochrome c oxidase is that of a heme protein. Keilin had shown that cytochrome a does not react with oxygen, so he did not accept Warburg's view until 1939, when he discovered cytochrome a ₃. The dinuclear cytochrome a ₃-Cu_B unit was found by EPR in 1967, whereas the dinuclear nature of the Cu_A site was not universally accepted until oxidase crystal structures were published in 1995. There are negative redox interactions between cytochrome a and the other redox sites in the oxidase, so that the reduction potential of a particular site depends on the redox states of the other sites. Calculated electron-tunneling pathways for internal electron transfer in the oxidase indicate that the coupling-limited rates are 9×10⁵ (Cu _A a) and 7×10⁶ s^–1 (a a ₃); these calculations are in reasonable agreement with experimental rates, after corrections are made for driving force and reorganization energy. The best Cu_A-a pathway starts from the ligand His204 and not from the bridging sulfur of Cys196, and an efficient a-a ₃ path involves the heme ligands His378 and His376 as well as the intervening Phe377 residue. All direct paths from Cu_A to a ₃ are poor, indicating that direct Cu_A a ₃ electron transfer is much slower than the Cu_A a reaction. The pathways model suggests a means for gating the electron flow in redox-linked proton pumps.     

Substitution of a proline for alanine 183 in the hinge region of phosphoglycerate kinase: Effects on catalysis, activation by sulfate, and thermal stability

A hinge-bending domain movement has been postulated as an important part of the catalytic mechanism of phosphoglycerate kinase (PGK) (Bankset al., 1979). In order to test the role of the flexibility of a putative interdomain hinge in the substrate- and sulfate-induced conformational transitions, alanine-183 was replaced by proline using site-directed mutagenesis. The maximal velocity of the Ala 183Pro mutant, measured at saturating concentrations of ATP and phosphoglycerate (5 mM and 10 mM, respectively) and in the absence of sulfate ions, is increased approximately 21% in comparison to the wild type PGK. TheK _m values for both substrates are essentially unchanged. The effect of sulfate on the specific activity of the Ala 183Pro mutant and the wild type PGK was measured in the presence of 1 mM ATP and 2 mM 3-phosphoglycerate (3-PG). A maximum activation of 70% was observed at 20 mM sulfate for the mutant enzyme, as compared to 130% activation at 30 mM sulfate for the wild type PGK. These results demonstrate that the increased rigidity of the putative hinge, introduced by the AlaPro mutation, does not impair catalytic efficiency of phosphoglycerate kinase, while it appears to decrease the sulfate-dependent activation. The differential scanning calorimetry (DSC) studies demonstrate an increased susceptibility of the Ala 183 Pro mutant to thermal denaturation. In contrast to one asymmetric transition observed in the DSC scan for the wild type PGK, withT _m near 54°C, two transitions are evident for the mutant enzyme withT _m values of about 45 and 54°C. Using a thermodynamic model for two interacting domains, a decrease in the free energy of domain-domain interactions of about 2 kcal was estimated from the DSC data.     

Quantum-mechanical kinetic study of the primary reaction of the photochemical cycle of Halobacterium halobium

A two-frequency oscillator model for the primary photochemical reaction bacteriorhodopsin batho-bacteriorhodopsin (K₆₁₀) is proposed. According to this model two conformational changes in the reaction are considered to take place: the first one is a distortion of the retinal in the bacteriorhodopsin active site and the second one is a conformational transition of the bacterioopsin, affecting the native structure hydrogen bonds. On the basis of this model the temperature dependences of the rate constants for normal and deuterated reactants are calculated in good agreement with the available experimental data. The relations of the reaction considered to the primary photochemical reaction of vision are discussed.     

Regional mapping of the gene for human lysosomal acid phosphatase (ACP2) using a hybrid clone panel containing segments of human chromosome 11

Summary A clone panel containing various segments of human chromosome 11 has been selected and used for regional assignment of the gene for human lysosomal acid phosphatase (ACP₂) to the short arm of chromosome 11, in the region 11p11 11p12. Further evidence has also been presented to update the regional assignment of the gene for lactate dehydrogenase A (LDH_A) to 11p12 11p13, and to support a previous assignment of the genes for the two components of the human cell-surface antigens of the SA11 (previously designated A_L) group, SA11-1 and SA11-3 (previously designated A_L-a₁ and A_L-a₃), to 11pter 11p13. This regional clone panel will be useful for rapid regional mapping of other genes assigned to chromosome 11.     

Structures of the N-linked sugar chains in the PAS-6 glycoprotein from the bovine milk fat globule membrane

The structures of the N-linked sugar chains in the PAS-6 glycoprotein (PAS-6) from the bovine milk fat globule membrane were determined. The sugar chains were liberated from PAS-6 by hydrazinolysis, and the pyridylaminated sugar chains were separated into a neutral (6N) and two acidic chains (6M and 6D), the acidic sugar chains then being converted to neutral sugar chains (6MN and 6DN). 6N was separated into two neutral fractions (6N13 and 6N5.5), while 6MN and 6DN each gave a single fraction (6MN13 and 6DN13). The structure of 6N5.5, which was the major sugar chain in PAS-6, is proposed to be Man16 (Man13) Man14GlcNAc14GlcNAc-PA; 6N13, 6MN13 and 6DN13 are proposed to be Gal13Gal14GlcNAc12Man16 (Gal13Gal14GlcNAc12Man13) Man14GlcNAc14 (Fuc16)GlcNAc-PA;6M and 6D had 1 or 2 additional NeuAc residues at the non-reducing ends of 6MN13 and 6DN13, respectively. © 1998 Rapid Science Ltd     

Amino acid sequences of ovomucoid third domain from 25 additional species of birds

Ovomucoids were isolated from 25 avian species other than the 101 studied in Laskowskiet al. (1987,Biochemistry 26, 202–221). These were subjected to limited proteolysis with an appropriate enzyme, and connecting peptide extended ovomucoid third domains were isolated and sequenced to the end in a protein sequencer. Of the 25 new sequences, 13 duplicate ones were already known, and 12 are unique. Probably the most striking findings are a Pro¹⁴ Ser¹⁴ replacement in weka, an Ala¹⁴Thr¹⁵ replacement in Bulwer's pheasant, the discovery of two additional amino acid residues Ile¹⁸ and Gly¹⁸ at the P₁ reactive site position in Kalij pheasant and tawny frogmouth, respectively, and the first finding of a negative (Glu³⁴) rather than positive (Lys³⁴ or Arg³⁴) amino acid residue at the NH₂ terminus of the helix in caracara ovomucoid third domain. These results complete the determination of all the sequences of ovomucoid third domains in the four species genusGallus, in the five species genusSyrmaticus, and in the two species generaAix andPavo.     

Structural diversity of O-polysaccharides and serological classification of <Emphasis Type="Italic">Pseudomonas syringae</Emphasis> pv. <Emphasis Type="Italic">garcae</Emphasis> and other strains of genomospecies 4

Novel O-serotypes were revealed among Pseudomonas syringae pv. garcae strains by using a set of mouse monoclonal antibodies specific to the lipopolysaccharide O-polysaccharide. Structural studies showed that the O-polysaccharide of P. syringae pv. garcae NCPPB 2708 is a hitherto unknown linear L-rhamnan lacking strict regularity and having two oligosaccharide repeating units I and II, which differ in the position of substitution in one of the rhamnose residues and have the following structures: I:3)--L Rha (12)-- L Rha (12)--L-Rha-(13)--L Rha (1;II: 2)--L-Rha-(13) -L-Rha-(12)--L-Rha-(13)--L Rha (1.The branched O-polysaccharides of P. syringae pv. garcae ICMP 8047 and NCPPB 588^T have the same L-rhamnan backbone with repeating units I and II and a lateral chain of 14)- or 13)-linked residues of 3-acetamido-3,6-dideoxy-D-galactose (D-Fuc3NAc). Several monoclonal antibody epitopes associated with the L-rhamnan backbone or the lateral -D-Fuc3NAc residues were characterized.Translated from Mikrobiologiya, Vol. 73, No. 6, 2004, pp. 777–789.Original Russian Text Copyright © 2004 by Ovod, Zdorovenko, Shashkov, Kocharova, Knirel.     

Role of Conserved TGDGVND-Loop in Mg2+ Binding, Phosphorylation, and Energy Transfer in Na,K-ATPase

In the P-domain, the 369-DKTGTLT and the 709-GDGVNDSPALKK segment are highly conserved during evolution of P-type E₁–E₂-ATPase pumps irrespective of their cation specificities. The focus of this article is on evaluation of the role of the amino acid residues in the P domain of the subunit of Na,K-ATPase for the E₁P[3Na] E₂P[2Na] conversion, the K⁺-activated dephosphorylation, and the transmission of these changes to and from the cation binding sites. Mutations of residues in the TGDGVND loop show that Asp⁷¹⁰ is essential, and Asn⁷¹³ is important, for Mg²⁺ binding and formation of the high-energy MgE₁P[3Na] intermediate. In contrast Asp⁷¹⁰ and Asp⁷¹³ do not contribute to Mg²⁺ binding in the E₂P–ouabain complex. Transition to E₂P thus involves a shift of Mg²⁺ coordination away from Asp⁷¹⁰ and Asn⁷¹³ and the two residues become more important for K⁺-activated hydrolysis of the acyl phosphate bond at Asp³⁶⁹. Transmission of structural changes between the P-domain and cation sites in the membrane domain is evaluated in light of the protein structure, and the information from proteolytic or metal-catalyzed cleavage and mutagenesis studies.     

Specific Status of Propithecus spp.

Controversial taxonomic relationships within Propithecus have consistently made conservation and management decisions difficult. We present a multidisciplinary phylogenetic analysis of Propithecus supporting the elevation of 4 subspecies to specific status: P. diadema perrieri P. perrieri, P. diadema candidus P. candidus, P. diadema edwardsi P. edwardsi, and P. verreauxi coquereliP. coquereli; leaving P. diadema diadema as P. diadema and P. verreauxi verreauxi as P. verreauxi.     

A Comparison of the Lipopolysaccharides and O-Specific Polysaccharides of Azospirillum brasilense Sp245 and Its Omegon-Km Mutants KM018 and KM252

The lipopolysaccharides (LPSs) extracted from the outer membrane of Azospirillum brasilense Sp245 and its Omegon-Km mutants KM018 and KM252 with a hot aqueous solution of phenol were found to differ in the content of carbohydrates, glucosamine, and total phosphorus and in the proportion of octadecenoic and hexadecanoic acids in the lipid moieties of the LPSs. The carbohydrate moieties of the LPSs were heterogeneous in charge. The analysis of the O-specific polysaccharides (O-PSs) of the mutants KM018 and KM252 by gas–liquid chromatography, IR spectroscopy, and NMR spectroscopy showed that they are composed of the same linear pentasugar repeating units 2)--D-Rhap-(1 3)--D-Rhap-(1 3)--D-Rhap-(1 2)--D-Rhap-(1 2)--D-Rhap-(1 as the O-PSs of the parent strain Sp245. The reported differences in the biological activity of the LPSs of the parent and mutant strains can be due to their different chemical composition.     

Separation of membranes by flotation centrifugation for in vitro synthesis of plant cell wall polysaccharides

Summary Membranes from etiolated maize seedlings were isolated using sucrose gradients for in vitro studies of polysaccharide synthesis. Following downward centrifugation, flotation centrifugation improved the purity of membrane fractions, in particular the Golgi apparatus. Based on naphthylphthalamic acid binding to plasma membrane and inosine-5-diphosphatase activity in Golgi apparatus, flotation centrifugation removed about 70% of the plasma membrane which cosedimented with the Golgi apparatus in downward centrifugation. The addition of chelators during flotation centrifugation allowed separation of the Golgi apparatus from endoplasmic reticulum, as indicated by NADH cytochromec reductase activity. Glucan and xylan synthase activities were measured as the radioactivity incorporated from either UDP-¹⁴C-glucose or UDP-¹⁴C-xylose into 80% ethanol insoluble materials. Glucan synthase activity at a substrate concentration of 1 mM UDP-glucose without CaCl₂ was greatest in fractions enriched in Golgi apparatus, but in the presence of 3 mM CaCl₂ the activity was greatest in fractions enriched in plasma membrane. Glucan synthase activity at a substrate concentration of 10M UDP-glucose in the presence of 3 mM MnCl₂ was greatest in fractions enriched in plasma membrane, but was also high in fractions enriched in Golgi apparatus. Xylan synthase activity, at a substrate concentration of 1 M UDP-xylose in the presence of 3 mM MnCl₂, was greatest in fractions enriched in Golgi apparatus. To further characterize these synthase reactions, the glycosyl linkages of the products formed were analyzed with a gas chromatograph coupled to a radiogas proportional counter. With the substrate, UDP-¹⁴C-glucose, and fractions enriched in Golgi apparatus, both (13)- and (14)-radioactive glucosyl linkages were formed, whereas the main linkage formed by fractions enriched in plasma membrane was (13)-glucosyl. With the substrate, UDP-¹⁴C-xylose, mostly (14)-xylosyl and some terminal-xylosyl linkages were formed by fractions enriched in Golgi apparatus. Only xylan synthase activity copurified with Golgi apparatus and, because plasma membrane lacked this activity, xylan synthase may be used as a reasonable indicator of Golgi apparatus.Abbreviations ATP adenosine-5-triphosphate - CR crude fraction from downward centrifugation - FL purified fraction from flotation centrifugation - GC gas chromatography - GC-RPC gas chromatography-radiogas proportional counting - IDP inosine-5-disphosphate - NPA naphthylphthalamic acid - UDP uridine-5-diphosphate - TEM transmission electron microscopy     

Monoclonal antibody specific for α2→8-linked oligo deaminated neuraminic acid (KDN) sequences in glycoproteins. Preparation and characterization of a monoclonal antibody and its application in immunohistochemistry

Two particular types of sialoglycoproteins have been detected in fish: polysialoglycoproteins containing 28-linked polysialic acid (8Neu5Gc2) _n present in unfertilized Salmonidae fish eggs, and glycoproteins bearing oligo/polymers of deaminated neuraminic acids (KDN) found in the vitelline envelope of the eggs and ovarian fluid. We report the preparation and characterization of a monoclonal antibody specifically recognizing oligo/polymers of KDN sequences in glycoproteins and its application in immunohistochemistry. Fusion of spleen cells from a BALB/c mouse immunized with a KDN-rich glycoprotein (KDN-gp) containing (8KDN2) _n 6(KDN23Gal13GlNAc13) GalNAc1 residues, with mouse myeloma cells yielded a hybrid cell line producing a monoclonal antibody that bound to KDN-gp, but not to KDN-gp depleted of KDN residues. The specificity of the monoclonal antibody, designated mAb.kdn8kdn, was determined by an enzyme-linked immunosorbent assay using KDN-gp samples that varied in KDN content. These antigens were prepared by the selective removal of KDN residues from the native KDN-gp. The mAb.kdn8kdn reacted most strongly with the intact KDN-gp and less strongly with KDN-gp samples containing decreased numbers of KDN residues. The mAb.kdn8kdn was shown specifically to recognize the 28-linked oligo/polyKDN sequences, (8KDN2) _n , and to be able to distinguish specifically (8KDN2) _n chains from (8Neu5Ac2) _n and (8Neu5Gc2) _n chains. The antibody was used successfully for the immunohistochemical detection of reactive KDN epitopes in sections of paraffin embedded rat pancreas. Several controls verified the specificity of the immunohistochemical staining, thus providing the first demonstration of (8KDN2) _n sequences in a mammalian tissue. The mAb.kdn8kdn can now be used to search further for glycoconjugates containing (8KDN2) _n chains and will facilitate studies on their biosynthesis, intracellular localization and function.