Cloning and Expression of a Mannose-Binding Jacalin-Related Lectin from Leaves of Japanese Cycad (Cycas revoluta Thunb.)

Cycad leaf lectin (CRLL), a mannose-recognizing jacalin-related lectin (mJRL), was first cloned as a gymnosperm lectin and expressed. The cDNA sequence of CRLL (DDBJ, accession no. AB198328), coding 291 amino acid residues, has a tandem repeat of about 150 amino acids divided into N- and C-terminal domains as Japanese chestnut mJRL. Sequence alignment showed deletion and insertion of the sequence, and its putative carbohydrate-binding sites showed some differences from other JRLs. PCR analysis showed that this lectin was expressed in the cycad leaf but not in the root or seed. Recombinant CRLL (rCRLL) was expressed in Escherichia coli and purified by affinity chromatography after refolding procedures. Properties of active rCRLL appeared to be almost the same as those of native CRLL.     

Cloning and expression of a mannose-binding jacalin-related lectin from leaves of Japanese cycad (Cycas revoluta Thunb.)

Cycad leaf lectin (CRLL), a mannose-recognizing jacalin-related lectin (mJRL), was first cloned as a gymnosperm lectin and expressed. The cDNA sequence of CRLL (DDBJ, accession no. AB198328), coding 291 amino acid residues, has a tandem repeat of about 150 amino acids divided into N- and C-terminal domains as Japanese chestnut mJRL. Sequence alignment showed deletion and insertion of the sequence, and its putative carbohydrate-binding sites showed some differences from other JRLs. PCR analysis showed that this lectin was expressed in the cycad leaf but not in the root or seed. Recombinant CRLL (rCRLL) was expressed in Escherichia coli and purified by affinity chromatography after refolding procedures. Properties of active rCRLL appeared to be almost the same as those of native CRLL.     

Analysis of the sugar-binding specificity of mannose-binding-type Jacalin-related lectins by frontal affinity chromatography--an approach to functional classification

The Jacalin-related lectin (JRL) family comprises galactose-binding-type (gJRLs) and mannose-binding-type (mJRLs) lectins. Although the documented occurrence of gJRLs is confined to the family Moraceae, mJRLs are widespread in the plant kingdom. A detailed comparison of sugar-binding specificity was made by frontal affinity chromatography to corroborate the structure-function relationships of the extended mJRL subfamily. Eight mJRLs covering a broad taxonomic range were used: Artocarpin from Artocarpus integrifolia (jackfruit, Moraceae), BanLec from Musa acuminata (banana, Musaceae), Calsepa from Calystegia sepium (hedge bindweed, Convolvulaceae), CCA from Castanea crenata (Japanese chestnut, Fagaceae), Conarva from Convolvulus arvensis (bindweed, Convolvulaceae), CRLL from Cycas revoluta (King Sago palm tree, Cycadaceae), Heltuba from Helianthus tuberosus (Jerusalem artichoke, Asteraceae) and MornigaM from Morus nigra (black mulberry, Moraceae). The result using 103 pyridylaminated glycans clearly divided the mJRLs into two major groups, each of which was further divided into two subgroups based on the preference for high-mannose-type N-glycans. This criterion also applied to the binding preference for complex-type N-glycans. Notably, the result of cluster analysis of the amino acid sequences clearly corresponded to the above specificity classification. Thus, marked correlation between the sugar-binding specificity of mJRLs and their phylogeny should shed light on the functional significance of JRLs.     

Comparative analysis of carbohydrate-binding properties of two tandem repeat-type Jacalin-related lectins, Castanea crenata agglutinin and Cycas revoluta leaf lectin

Lectins belonging to the jacalin-related lectin family are distributed widely in the plant kingdom. Recently, two mannose-specific lectins having tandem repeat-type structures were discovered in Castanea crenata (angiosperm) and Cycas revoluta (gymnosperm). The occurrence of such similar molecules in taxonomically less related plants suggests their importance in the plant body. To obtain clues to understand their physiological roles, we performed detailed analysis of their sugar-binding specificity. For this purpose, we compared the dissociation constants (K(d)) of Castanea crenata agglutinin (CCA) and Cycas revoluta leaf lectin (CRLL) by using 102 pyridylaminated and 13 p-nitrophenyl oligosaccharides with a recently developed automated system for frontal affinity chromatography. As a result, we found that the basic carbohydrate-binding properties of CCA and CRLL were similar, but differed in their preference for larger N-linked glycans (e.g. Man7-9 glycans). While the affinity of CCA decreased with an increase in the number of extended alpha1-2 mannose residues, CRLL could recognize these Man7-9 glycans with much enhanced affinity. Notably, both lectins also preserved considerable affinity for mono-antennary, complex type N-linked glycans, though the specificity was much broader for CCA. The information obtained here should be helpful for understanding their functions in vivo as well as for development of useful probes for animal cells. This is the first systematic approach to elucidate the fine specificities of plant lectins by means of high-throughput, automated frontal affinity chromatography.     

Molecular cloning,expression, and cytokinin (6-benzylaminopurine) antagonist activity of peanut (<Emphasis Type="Italic">Arachis hypogaea</Emphasis>) lectin SL-I

Isolation and purification of a α-methyl-mannoside specific lectin (SL-I) of peanut was reported earlier [Singh and Das (1994) Glycoconj J 11:282–285]. Native SL-I is a glycoprotein having ∼31 kDa subunit molecular mass and forms dimer. The gene encoding this lectin is identified from a 6-day old peanut root cDNA library by anti-SL-I antibody and N-terminal amino acid sequence homology to the native lectin. Nucleotide sequence derived amino acid sequence of the re-SL-I shows amino acid sequence homology with the N-terminal and tryptic digests’ amino acid sequence of the native SL-I (nSL-I). Presence of a putative glycosylation (QNPS) site and a hydrophobic adenine-binding (VLVSYDANS) site is also identified in SL-I. Homology modeling of the lectin suggests it to be an archetype of legume lectins. It is expressed as a ~30 kDa apoprotein in E. coli and has the carbohydrate specificity and secondary structure identical to its natural counterpart. The lectin SL-I inhibits cytokinin 6-benzylaminopurine (BA)-induced “delayed leaf senescence” and “cotyledon expansion”. Equilibrium dialysis revealed a single high-affinity binding site for adenine (7.6 × 10⁻⁶ M) and BA (1.09 × 10⁻⁵ M) in the SL-I dimer and thus suggesting that the cytokinin antagonist effect of SL-I is mediated by the direct interaction of SL-I with BA.The nucleotide sequence data reported here are available in the DDBJ/EMBL/GenBank databases under the Accession No. AJ585523     

Binding site amino acid residues of jack fruit (artocarpus integrifolia) seed lectin: chemical modification and protein difference spectral studies

The effect of chemical modification of amino acid residues essential for sugar binding in the α-D-galactoside specific jack fruit (Artocarpus integrifolia) seed lectin and the protection of the residues by specific sugar from modification were studied. Citraconylation or maleylation of 75 % of its lysyl residues or acetylation of 70 % of the tyrosyl residues completely abolished sugar binding and agglutination without dissociation of subunits. 1-O-methyl α-D-galactoside could protect its essential lysyl and tyrosyl groups from modification. Tryptophan could not be detected in the protein. Difference absorption spectra on binding of the above sugar confirmed the role of tyrosine residues and showed an association constantK = 0.4 × 10³ M⁻¹. Data suggests that the lectin could be immobilized without any loss of sugar binding activity     

Search for fucose binding domains in recently sequenced hypothetical proteins using molecular modeling techniques and structural analysis

The crystal structure of a fucose-binding lectin from the bacteria Pseudomonas aeruginosa in complex with α-L-fucose has been recently determined. It is a tetramer; each monomer displays a nine-stranded, antiparallel, β-sandwiched arrangement and contains two calcium ions that mediate the binding of fucose in a recognition mode unique among protein-carbohydrate interactions. In search of this type of unique interactions in other newly discovered protein sequences, we have used molecular modeling techniques to predict and analyze the 3-D structures of some proteins, which exhibited reasonable degree of homology with the amino acid sequence of the bacterial protein. A BLAST search with the sequence of Pseudomonas aeruginosa as query in the non-redundant sequence database identified four proteins from different species, three organisms from bacteria and one from archaea. We have modeled the structures of these proteins as well as those of the complexes with carbohydrates and studied the nature of physicochemical forces involved in the complex formation both in presence and absence of calcium. The calcium-binding loops have been found to be highly conserved both in terms of primary and tertiary structures in these proteins, although a less acidic character is observed in Photorhabdus lectin due to the absence of two aspartic acid residues on the calcium-binding loop which also resulted in lower binding affinity. All these structures exhibited highly negative electrostatic environment in the vicinity of the calcium-binding loops which was essential for neutralizing the positive charges of two closely situated Ca⁺² ions. The comparison of the binding affinities of some monosaccharides other than fucose, e.g. mannose and fructose, showed higher binding energies confirming the fucose specificity of these proteins.     

Isolation and determination of the primary structure of a lectin protein from the serum of the American alligator (Alligator mississippiensis)

Mass spectrometry in conjunction with de novo sequencing was used to determine the amino acid sequence of a 35 kDa lectin protein isolated from the serum of the American alligator that exhibits binding to mannose. The protein N-terminal sequence was determined using Edman degradation and enzymatic digestion with different proteases was used to generate peptide fragments for analysis by liquid chromatography tandem mass spectrometry (LC MS/MS). Separate analysis of the protein digests with multiple enzymes enhanced the protein sequence coverage. De novo sequencing was accomplished using MASCOT Distiller and PEAKS software and the sequences were searched against the NCBI database using MASCOT and BLAST to identify homologous peptides. MS analysis of the intact protein indicated that it is present primarily as monomer and dimer in vitro. The isolated 35 kDa protein was ~ 98% sequenced and found to have 313 amino acids and nine cysteine residues and was identified as an alligator lectin. The alligator lectin sequence was aligned with other lectin sequences using DIALIGN and ClustalW software and was found to exhibit 58% and 59% similarity to both human and mouse intelectin-1. The alligator lectin exhibited strong binding affinities toward mannan and mannose as compared to other tested carbohydrates.     

Isolation of cDNAs encoding for two distinct isoforms of the TATA-Box binding proteins from common bean (<Emphasis Type="Italic">Phaseolus vulgaris</Emphasis> L.)

The TATA-box binding protein (TBP) is one of the 4 DNA-binding proteins that has been shown to associate with the proximal promoter region (−295) of the gene for bean seed storage protein phaseolin. The −295 promoter is essential for spatial and temporal control of the phaseolin gene expression. We designed a pair of degenerated primers based on the highly conserved sequence of the carboxyl-terminal domain of yeast TBP and used PCR to amplify the corresponding sequence from the bean cDNA. By using the amplified fragment as a probe, we screened a cDNA library derived from poly A(+) RNA from developing bean seeds and isolated 2 nearly full-length cDNA clones (813 and 826 bp long). The cDNAs encode 2 distinct isoforms of bean TBP, PV1 and PV2, each with an open reading frame of 200 amino acid residues. The 2 cDNA sequences share an 85.8% overall nucleotide sequence identity, with the coding region showing a higher degree of identity (94.4%) than the 5′- and 3′-untranslated regions (69%). The deduced amino acid sequence of the bean TBP isoforms differ in only 3 amino acid residues at positions 5, 9, and 16, all located in the amino-terminal region. The carboxyl-terminal domain of 180 amino acid residues shows a high degree (>82%) of evolutionary sequence conservation with the TBP sequences from other eukaryotic species. This domain possesses the 3 highly conserved structural motifs, namely the 2 direct repeat sequences, a central basic region rich in basic amino acid residues, and a region similar to the sigma factor of prokaryote. On the basis of this and other findings, we suggest that higher plants in general may have at least 2 copies of TBP gene, presumably resulting from the global duplication of the genome. Accession numbers AF015784 and AF015785 at the GenBank.     

Cloning and Sequencing of a Lectin Protein Gene from the Roots of Sophora flavescens (in English)

A lectin protein（SFL） with molecular weight about 32 kD which markedly agglutinated rabbit and human red blood cells was purified from the roots of Sophora flavescens Ait. This protein, and apparently inhibited the growth of Fusarium vasinfectum Atk., Gibberella saubinetii (Mont.) Sacc., and Piricularia oryzae Cav. A set of degenerate PCR primer was synthesized according to the N-terminal sequence of the purified protein. The full-length cDNA coding the lectin was cloned by RT-PCR and 5′-RACE and sequenced (GenBank AF285121). The deduced amino acid sequence indicates that a preprotein with 284 amino acid residues is firstly translated and then processed to a mature protein with 254 amino acids. A N-Glycosylation site is the Asn 182 residue.      

Purification and Characterization of a Lectin with High Hemagglutination Property Isolated from <Emphasis Type="Italic">Allium altaicum</Emphasis>

A lectin was purified from the leaves of Allium altaicum and corresponding gene was cloned. The lectin namely Allium altaicum agglutinin (AAA) was ~24 kDa homodimeric protein and similar to a typical garlic leaf lectin. It was synthesized as 177 amino acid residues pre-proprotein, which consisted of 28 and 43 amino acid long N and C-terminal signal peptides, respectively. The plant expressed this protein more in scapes and flowers in comparison to the bulbs and leaves. Hemagglutination activity (with rabbit erythrocytes) was 1,428 fold higher as compared to Allium sativum leaf agglutinin (ASAL) although, the insecticidal activity against cotton aphid (Aphis gossypii) was relatively low. Glycan array revealed that AAA had higher affinity towards GlcAb1-3Galb as compared to ASAL. Homology analysis showed 57–94% similarity with other Allium lectins. The mature protein was expressed in E. coli as a fusion with SUMO peptide in soluble and biologically active form. Recombinant protein retained high hemagglutination activity.     

Fluorescence studies on the interaction of some ligands with carcinoscorpin,the sialic acid specific lectin,from the horseshoe crab,Carcinoscorpius rotundacauda

The binding affinities of some ligands towards the sialic acid-specific lectin carcinoscorpin, from hemolymph of the horseshoe crabCarcinoscorpius rotundacauda have been determined by protein fluorescence quenching in presence of ligands. Among the ligands studied, the disaccharide O-(N-acetylneuraminyl)-(2→6)-2-acetamido-2-deoxy-D-galactitol has the highest K_a(l.15 × 10⁶ M^-1) for carcinoscorpin. Studies on the effect of pH on Ka values of disaccharide suggests the possible involvement of amino acid residues having pKa values around 6.0 and 9.0 in the binding activity of carcinoscorpin. There were distinct changes in the accessibility of the fluorescent tryptophan residues of carcinoscorpin by ligand-binding as checked through potassium iodide quenching.     

Molecular cloning and characterization of a gene encoding glutaminase from Aspergillus oryzae

 A glutaminase from Aspergillus oryzae was purified and its molecular weight was determined to be 82,091 by matrix-assisted laser desorption ionization time-of-flight mass spectrometry. Purified glutaminase catalysed the hydrolysis not only of l-glutamine but also of d-glutamine. Both the molecular weight and the substrate specificity of this glutaminase were different from those reported previously [Yano et al. (1998) J Ferment Technol 66: 137–143]. On the basis of its internal amino acid sequences, we have isolated and characterized the glutaminase gene (gtaA) from A. oryzae. The gtaA gene had an open reading frame coding for 690 amino acid residues, including a signal peptide of 20 amino acid residues and a mature protein of 670 amino acid residues. In the 5′-flanking region of the gene, there were three putative CreAp binding sequences and one putative AreAp binding sequence. The gtaA structural gene was introduced into A. oryzae NS4 and a marked increase in activity was detected in comparison with the control strain. The gtaA gene was also isolated from Aspergillus nidulans on the basis of the determined nucleotide sequence of the gtaA gene from A. oryzae. Received: 23 August 1999 / Received last revision: 7 January 2000 / Accepted: 14 January 2000     

Cassettes for seed-specific expression tested in transformed embryogenic cultures of soybean

Soybean (Glycine max [L.] Merrill) lectin is a seed protein that accumulates in protein bodies of cotyledons during seed development. We have constructed two expression cassettes containing the 5′ and 3′ regions of the soybean lectin gene connected by aNot I restriction site. One vector also contains the 32 amino acid signal sequence. Using polymerase chain reaction (PCR), the coding region of the β-glucuronidase (uidA) gene was inserted into theNot I site of each vector. We tested the function of the expression cassettes in transformed embryogenic cultures of soybean. Development-specific GUS expression was observed in developing somatic embryos transformed with the chimeric lectin promoter-GUS constructs as determined by histochemical assays. Our data indicate that these cassettes could be used to drive expression of foreign genes to modify embryo-specific traits of soybean as protein quality or quantity in the seed.     

Amino acid sequence and characterization of C-type lectin purified from the snake venom of Crotalus ruber

Galactoside-binding lectin was purified from the snake venom of Crotalus ruber by affinity chromatography on a lactose-agarose column, and the complete amino acid sequence was determined. The C. ruber venom lectin (CRL) showed a single band of 28 kDa by SDS-polyacrylamide electrophoresis under non-reducing conditions, but it showed a single band of 15 kDa under reducing conditions, indicating that CRL is a disulfide-linked homodimer of 15 kDa subunit. CRL specifically recognized beta-galactosides such as thiodigalactoside followed by N-acetylgalactosamine when examined with their inhibitory effects on CRL-induced hemagglutination. A CRL subunit was composed of 135 residues containing nine Cys residues and showed a high similarity to other C-type galactoside-binding lectins from snake venoms. C. atrox lectin (CAL) showed almost the same sequence except for eight amino acid residues. Neither CRL nor CAL induced platelet aggregation by itself or inhibited platelet aggregation mediated by von Willebrand factor or fibrinogen with agonists. CRL showed a similar oligomeric form and the sugar specificity as CAL, but it showed different divalent cation sensitivity such as Mn(2+) and Ni(2+). Homology modeling suggested that the amino acid substitution found in CRL does not affect sugar recognition of the lectin but might alter the conformation and influence the sugar binding pocket induced by the metal-ion binding.     

Structure of cDNA clones for the small subunit of ribulose-1,5-bisphosphate carboxylase/oxygenase from a fern (Asplenium cataractarum rosenstock,aspleniaceae), and its comparison with those of various seed plants

We isolated the small subunit of ribulose-1, 5-bisphosphate carboxylase/oxygenase (RuBisCO SSu) from a fern,Asplenium cataractarum and determined its 34 N-terminal amino acid sequence. We obtained a cDNA clone that contains the entire coding region of the SSu from the same fern species, using synthetic oligonucleotide probes derived from the above amino acid sequence. It contains a 525 bp open reading frame capable of coding for a polypeptide with 174 amino acids, 31 bp 5′-and 206 bp 3′-noncoding regions. It was also elucidated that the precursor to the SSu contains a transit peptide of 53 amino acid residues and a mature protein of 121 residues. We compared the deduced amino acid sequence of the fern SSu with those of 11 other vascular plant species (including gymnosperms, monocots and dicots). As low as 55% homology was observed between those of a fern and seed plants. Constancy of the amino acid substitution rate in RuBisCO SSu was supported by our relative rate test. Amino acid substitution rate per year per site for RuBisCO SSu was calculated to be 0.81×10⁻⁹ assuming that the separation between pteridophytes and seed plants arose 380 million years ago.     

Purification and characterization of a galactose-binding lectin from the skin mucus of the conger eel Conger myriaster

1. A galactose-binding lectin was purified from the skin mucus of the conger eel Conger myriaster by affinity chromatography and HPLC. 2. The lectin was a simple protein having the same two subunits with a mol. wt of 12,500 and a N-terminal amino acid of phenylalanine. 3. Electrofocusing suggested that the purified lectin was composed of several isolectins. 4. From the ultraviolet difference spectra attributable to tryptophanyl residues in the binding site, the binding constant of the lectin for D-galactose was estimated to be 5.3 x 10(3)/M.     

Comparison of Non-covalent Interactions Between a Series of <Emphasis Type="Italic">N</Emphasis>-Phosphoryl Dipeptide or Methyl Esters and Protein by Electrospray Ionization Mass Spectrometry

The non-covalent interaction between a series of N-phosphoryl dipeptides (or methyl esters) (DPP) and protein was studied by ESI-MS and UV–vis spectrometer. The function of different groups in DPP and binding sites of protein were investigated. The results revealed that hydroxyl and aromatic ring in DPP were both important group for the interaction, and aromatic ring had double functions on the interaction. In addition, the molecular size, flexibility and steric hindrance showed obvious effects on the interaction, while, the chirality, sequence and length of carbon chains (changing 1–2C) of amino acid residue in DPP showed little effects on the interaction under the experimental conditions. Phosphoryl oligopeptides having extended structure, good molecular flexibility and smaller spatial hindrance could contract the protein conformation in solution. The aromatic, basic, acid and amide amino acid residues of protein may be the main binding sites and contributed to the survival of the complexes.     

Heterologous Expression,Purification and Characterization of a Peroxidase Isolated from <Emphasis Type="Italic">Lepidium draba</Emphasis>

Peroxidase is one of the most widely used enzymes in biotechnology and medicine. In the current study, cDNA encoding peroxidase from Lepidium draba (LDP) was cloned and expressed in Escherichia coli BL21 (DE3) cells in the form of inclusion bodies (IBs). To achieve purified active enzyme, IBs were solubilized before being purified and refolded. The deduced amino acid sequence (308) of the LDP gene (924 bp) revealed 88.96% identity to horseradish peroxidase C1A (HRP C1A). The results of basic local alignment search tool (BLAST) and phylogenetic analysis of the protein sequence showed that this enzyme belongs to the neutral group of class III plant peroxidases. According to sequence analysis and structural modeling, critical amino acids in heme and calcium binding domain as well as cysteine residues were conserved as HRP C1A except for calcium binding domain where valine228 was replaced with isoleucine. The far-UV circular dichroism (CD) results were confirmed by homology modeling data showing the enzyme consists mainly of α-helices as other plant peroxidases. Overall, according to the results of catalytic activity and refolding yield, LDP can be introduced as a novel peroxidase for medical and biotechnology applications.     

Structural Bioinformatics of <Emphasis Type="Italic">Neisseria meningitidis</Emphasis> LD-Carboxypeptidase: Implications for Substrate Binding and Specificity

Neisseria meningitidis, a gram negative bacterium, is the leading cause of bacterial meningitis and severe sepsis. Neisseria meningitidis genome contains 2,160 predicted coding regions including 1,000 hypothetical genes. Re-annotation of N. meningitidis hypothetical proteins identified nine putative peptidases. Among them, the NMB1620 protein was annotated as LD-carboxypeptidase involved in peptidoglycan recycling. Structural bioinformatics studies of NMB1620 protein using homology modeling and ligand docking were carried out. Structural comparison of substrate binding site of LD-carboxypeptidase was performed based on binding of tetrapeptide substrate ‘l-alanyl-d-glutamyl-meso-diaminopimelyl-d-alanine’. Inspection of different subsite-forming residues showed changeability in the S1 subsite across different bacterial species. This variability was predicted to provide a structural basis to S1-subsite for accommodating different amino acid residues at P1 position of the tetrapeptide substrate ‘l-alanyl-d-glutamyl-meso-diaminopimelyl-d-alanine’.