Cloning, mapping and mutation analysis of human gene GJB5 encoding gap junction protein β-5

By homologous EST searching and nested PCR a new human gene GJB5 encoding gap junction protein β-5 was identified. GJB5 was genetically mapped to human chromosome 1p33-p35 by FISH. RT-PCR revealed that it was expressed in skin, placenta and fetal skin. DNA sequencing of GJB5 was carried out in 142 patients with sensorineural hearing impairment and probands of 36 families with genetic diseases, including erythrokeratodermia (5 families), Charcot-Marie-Tooth disease (13), ptosis (4), and retinitis pigmentosa and deafness (14). Two missense mutations (686A→G, H229R; 25C→T, L9F) were detected in two sensorineural hearing impairment families. A heterologous deletion of 18 bp within intron was found in 3 families with heredity hearing impairment, and in one of the 3 families, a missense mutation (R265P) was identified also. But the deletion and missense mutation seemed not segregating with hearing impairment in the family. No abnormal mRNA or mRNA expression was detected in deletion carriers by RT-PCR analysis in skin tissue. Mutation analysis in 199 unaffected individuals revealed that two of them were carriers with the same 18 bp deletion.     

Cloning and characterization of a novel member of human β-1, 4-galactosyltransferase gene family

By using the EST strategy for identifying novel members belonging to homologous gene families, a novel full-length cDNA encoding a protein significantly homologous to UDP-Gal: N-acetylglucosamine β-1, 4-galactosyltransferase (GAlT) was isolated from a human testis cDNA library. A nucleotide sequence of 2 173 bp long was determined to contain an open reading frame of 1032 nucleotides (344 amino acids). In view of the homology to members of the galactosyltransferase gene family and especially the closest relationship to Gallus gallus GalT type I (CK I), the predicted product of the novel cDNA was designated as human β-1, 4-galactosyltransferase homolog I (HumGT-H1). Its mRNA is present in different degrees in 16 tissues examined. Southern analysis of human genomic DNA revealed its locus on chromosome 3.     

Cloning and characterization of a novel member of human β-1,4-galactosyltransferase gene family

By using the EST strategy for identifying novel members belonging to homologous gene families, a novel fulklength cDNA encoding a protein significantly homologous to UDP-Gal: N-acetylglucosamine β-1, 4-galactosyltransferase (GalT) was isolated from a human testis cDNA library. A nucleotide sequence of 2 173 bp long was determined to contain an open reading frame of 1 032 nucleotides (344 amino acids). In view of the homology to memben of the galactosyltransferase gene family and especially the closest relationship toGallus gallus GalT type I (CK I), the predicted product of the novel cDNA was designated as human β-1,4-galactosyltransferase homolog I (HumGT-H1). Its mRNA is present in different degrees in 16 tissues examined. Southern analysis of human genomic DNA revealed its locus on chromosome 3.     

Genomic organization, chromosomal mapping, and analysis of the 5’ promoter region of the human MAdCAM-1 gene

 MAdCAM-1, the endothelial addressin cell adhesion molecule-1, interacts preferentially with the leukocyte β7 integrin LPAM-1 (α4β7), but also with L-selectin, and with VLA-4 (α4β1) on myeloid cells, and serves to direct leukocytes into mucosal and inflamed tissues. Overlapping cosmid and phage λ genomic clones were isolated, revealing that the human MAdCAM-1 gene contains five exons where the signal peptide, two Ig domains, and mucin domain are each encoded by separate exons. The transmembrane domain, cytoplasmic domain, and 3′ untranslated region are encoded together on exon 5. The mucin domain contains eight repeats in total that are subject to alternative splicing. Despite the absence of a human counterpart of the third IgA-homologous domain and lack of sequence conservation of the mucin domain, the genomic organizations of the human and mouse MAdCAM-1 genes are similar. An alternatively spliced MAdCAM-1 variant was identified that lacks exon 4 encoding the mucin domain, and may mediate leukocyte adhesion to LPAM-1 without adhesion to the alternate receptor, L-selectin. The MAdCAM-1 gene was located at p13.3 on chromosome 19, in close proximity to the ICAM-1 and ICAM-3 genes (p13.2-p13.3). PMA-inducible promotor activity was contained in a 700 base pair 5’ flanking fragment conserved with the mouse MAdCAM-1 gene including tandem NF-kB sites, and an Sp1 site; and in addition multiple potential AP2, Adh1 (ETF), PEA3, and Sp1 sites. In summary, the data establish that the previously reported human MAdCAM-1 cDNA does indeed encode the human homologue of mouse MAdCAM-1, despite gross dissimilarities in the MAdCAM-1 C-terminal structures. Received: 5 December 1996 / Revised: 2 January 1997     

Molecular cloning,sequencing and sequence analysis of the fox-2 gene of Neurospora crassa encoding the multifunctional β-oxidation protein

We present the molecular cloning and sequencing of genomic and cDNA clones of the fox-2 gene of Neurospora crassa, encoding the multifunctional β-oxidation protein (MFP). The coding region of the fox-2 gene is interrupted by three introns, one of which appears to be inefficiently spliced out. The encoded protein comprises 894 amino acid residues and exhibits 45% and 47% sequence identity with the MFPs of Candida tropicalis and Saccharomyces cerevisiae, respectively. Sequence analysis identifies three regions of the fungal MFPs that are highly conserved. These regions are separated by two segments that resemble linkers between domains of other MFPs, suggesting a three-domain structure. The first and second conserved regions of each MFP are homologous to each other and to members of the short-chain alcohol dehydrogenase family. We discuss these homologies in view of recent findings that fungal MFPs contain enoyl-CoA hydratase 2 and d-3-hydroxyacyl-CoA dehydrogenase activities, converting trans-2-enoyl-CoA via d-3-hydroxyacyl-CoA to 3-ketoacyl-CoA. In contrast to its counterparts in yeasts, the Neurospora MFP does not have a C-terminal sequence resembling the SKL motif involved in protein targeting to microbodies.     

Cloning,sequencing and analysis of the ggh-A gene encoding a 1,4-β-d-glucan glucohydrolase from Microbispora bispora

The ggh-A gene, encoding a 1,4-β-d-glucan glucohydrolase/β-glucosidase, of Microbispora bispora (Mb) was subcloned and expressed from a 4.0-kb XhoI DNA fragment. The nucleotide sequence of this fragment was determined. Analysis of the sequence revealed one open reading frame (ORF) which encodes a 986-amino-acid (aa) protein with a calculated molecular weight of 107 510. The ggh-A ORF has features typical of an actinomycete gene including high GC content (70.5%) and corresponding biased codon usage. Comparison of the aa sequence of the Mb 1,4-β-d-glucan glucohydrolase (Mbggh-A) with other glycosidases reveals high overall homology to several β-glucosidases and a 1,4-β-d-glucan glucohydrolase belonging to the glycosyl hydrolase family 3. The aa sequence alignments of Mbggh-A and β-glucosidases show that the active site region potentially involves two Asp residues. The aa sequence homology studies revealed a potential two-domain structure for Mbggh-A and other β-glucosidases. Furthermore, Mbggh-A has localized homology to a cellulose-binding domain present in some xylanases. This report is significant, as, to date, 1,4-β-d-glucan glucohydrolases have rarely been reported, though they are assumed to have a critical role in cellulolysis.     

Cloning and sequence analysis of the human cDNA encoding the synaptoporin (Δ), a highly conservative synaptic vesicle protein

Synaptoporin is a membrane protein of synaptic vesicles, which belongs to the synaptophysin family. It was first isolated from rat brain. Here we report the cloning and characterization of the human cDNA that encodes the human homologue of synaptoporin. It has two splicing variants, which is in accordance with its ortholog in chicken. Its deduced amino acid sequence displays 97% and 81% identity with the synaptoporin of rat and chicken, respectively. This gene was mapped to the chromosome 3p14.3 by matching against the Human Genome Sequence Database. 16-tissue RT-PCR analysis shows that human synaptoporin is specifically expressed in the brain.     

Cloning and bioinformatic analysis of an acidophilic β-mannanase gene, Anman5A, from Aspergillus niger LW-1

Using 3′ and 5′ rapid amplification of cDNA ends (RACE) techniques, the full-length cDNA sequence of the Anman5A, a gene that encodes an acidophilic β-mannanase of Aspergillus niger LW-1 (abbreviated to AnMan5A), was identified from the total RNA. The cDNA sequence was 1417 bp in length, harboring 5′- and 3′-untranslated regions, as well as an open reading frame (ORF) which encodes a 21-aa signal peptide, a 17-aa propeptide and a 345-aa mature peptide. Based on the topology of the phylogenetic tree of β-mannanases from glycoside hydrolase (GH) family 5, the AnMan5A belongs to the subfamily 7 of the GH family 5. Its 3-D structure was modeled by the bitemplate-based method using both MODELLER 9.9 and SALIGN programs, based on the known β-mannanase crystal structures of Trichoderma reesei (1QNO) and Lycopersicon esculentum (1RH9) from the GH family 5. In addition, the complete DNA sequence of the Anman5A was amplified from the genomic DNA using the pUCm-T vector-mediated PCR and conventional PCR methods. The DNA sequence was 1825 bp in length, containing a 5′-flanking regulatory region, 2 introns and 3 exons when compared with the full-length cDNA.     

Cloning and bioinformatics analysis of a novel acidophilic β-mannanase gene,Auman5A,from Aspergillus usamii YL-01-78

The full-length cDNA sequence, which encodes a novel acidophilic β-mannanase (abbreviated as AuMan5A) of Aspergillus usamii YL-01-78, was amplified by 3′ and 5′ rapid amplification of cDNA ends (RACE) using the total RNA as template. The cDNA sequence is 1,427 bp in length, including 5′ and 3′ non-coding regions and an open reading frame (ORF). The ORF encodes a 21-aa signal peptide, a 17-aa propeptide, and a 345-aa mature peptide (AuMan5A) with the calculated M.W. of 37,614 Da and pI of 4.09 and two putative N-glycosylation sites. Online analysis of amino acid sequence homology demonstrated that the AuMan5A belongs to the glycoside hydrolase (GH) family 5. Its three-dimensional structure was predicted using Pred3D Web Server 1.0 based on the crystal structure of the T. reesei RutC-30 β-mannanase (1QNO) from the GH family 5. Furthermore, the complete DNA sequence encoding the AuMan5A, designated as Auman5A, was cloned from the genomic DNA of A. usamii YL-01-78 by the conventional PCR and pUCm-T vector-mediated PCR techniques. The cloned Auman5A is 2,168 bp in length, harboring 5′ and 3′ flanking regulatory regions and the full-length cDNA sequence in which two short introns with 63 and 60 bp are inserted, respectively.     

Cloning, sequence analysis, and heterologous expression of a β-mannanase gene from Bacillus subtilis Z-2

Mannanase, an extracellular enzyme that catalyzes the hydrolysis of hemicelluloses to produce oligosaccharides, has potential to be applied in food industries. In this study a mannanase gene from B. subtilis Z-2 was isolated through PCR screening of a genomic DNA library. The nucleotide sequence of the mannanase gene, man, contained an open reading frame of 1080 bp, which codes for a deduced 26 amino-acid signal peptide and a mature protein with a deduced molecular mass of 38 kDa. The man gene can both be expressed heterologously into the periplasm from the plasmid pET22b(+) containing an intact signal peptide (pET-NdeI18) or the pelB signal peptide of the pET22b(+)vector (pET-NcoI3). Escherichia coli BL21 (DE3) containing pET-NcoI3 secreted about twice as much mannanase as that harboring pET-NdeI18. The E. coli DH5α expression of man was under the control of the lac promoter in the pRK415 vector; it was much more effective when the Shine Dalgarno (SD) sequence was changed from GGGGAG to AAGGAG and the start codon was changed from TTG to ATG, respectively. These results suggest that genetic modification of the SD sequence and start codon is practical for a high-level mannanase expression in different bacterial strains. Published in Russian in Molekulyarnaya Biologiya, 2006, Vol. 40, No. 3, pp. 418–424. This article was submitted by the authors in English.     

Cloning, analysis and expression of the gene for β-glycosidase of Thermus caldophilus GK24 and properties of the enzyme

The gene (bglT) encoding Thermus caldophilus GK24 -glycosidase (Tca -glycosidase) was cloned and sequenced. The gene contains an open reading frame encoding 431 amino acids with a M _r of 48 658 Da. The bglT gene was expressed under the control of tac promoter on a high-copy plasmid in E. coli. The recombinant Tca -glycosidase was purified 41.5-fold with a 59% yield and a specific activity of 83 U mg^–1 protein.     

Functional redundancy and compensation among members of gap junction protein families?

Gap junctions are intercellular conduits for small molecules made up by protein subunits called connexins. A large number of connexin genes were found in mouse and man, and most cell types express several connexins, lending support to the view that redundancy and compensation among family members exist. This review gives an overview of the current knowledge on redundancy and functional compensation - or lack thereof. It takes into account the different properties of connexin subunits which comprise gap junctional intercellular channels, but also the compatibility of connexins in gap junctions. Most insight has been gained by the investigation of mice deficient for one or more connexins and transgenic mice with functional replacement of one connexin gene by another. Most single deficient mice show phenotypical alterations limited to critical developmental time points or to specific organs and tissues, while mice doubly deficient for connexins expressed in the same cell type usually show more severe phenotypical alterations. Replacement of a connexin by another connexin in some cases gave rise to rescue of phenotypical alterations of connexin deficiencies, which were restricted to specific tissues. In many tissues, connexin substitution did not restore phenotypical alterations of connexin deficiencies, indicating that connexins are specialized in function. In some cases, fatal consequences arose from the replacement. The current consensus gained from such studies is that redundancy and compensation among connexins exists at least to a limited extent. This article is part of a Special Issue entitled: The Communicating junctions, composition, structure and characteristics.     

Cloning and expression of a β-galactosidase gene of Bacillus circulans

A gene of β-galactosidase from Bacillus circulans ATCC 31382 was cloned and sequenced on the basis of N-terminal and internal peptide sequences isolated from a commercial enzyme preparation, Biolacta(?). Using the cloned gene, recombinant β-galactosidase and its deletion mutants were overexpressed as His-tagged proteins in Escherichia coli cells and the enzymes expressed were characterized.     

Structure and mapping of the human β-defensin HBD-2 gene and its expression at sites of inflammation

We cloned a second human β-defensin gene, HBD-2, and determined its gene structure and expression in inflamed tissue sections. The entire gene spanned about 2 kb with two small exons and one intron. Radiation hybrid studies confirmed the location on chromosome 8p, were consistent with the order HNP-1, HBD-1 and HBD-2, and located HBD-2 as the most centromeric of the genes. By three-color fluorescence in situ hybridization on both free chromatin fiber mapping and interphase mapping, HBD-1, HBD-2 and HNP-1 were mapped to chromosome 8p23. HBD-1 was within 40–100 kb of HNP-1, while HBD-2 was about 500–600 kb from HBD-1, with the most likely order HNP-1, HBD-1, HBD-2. The expression of HBD-2 was locally regulated by inflammation. HBD-2 mRNA was markedly increased in the epidermis surrounding inflamed regions, but not detectable in adjacent non-inflamed areas, a distribution that was confirmed at the peptide level by immunostaining with HBD-2 antibody. The HBD-2 gene is the first member of the human defensin family that is locally inducible by inflammation.     

Expression of modified gene encoding functional human α-1-antitrypsin protein in transgenic tomato plants

Transgenic plants offer promising alternative for large scale, sustainable production of safe, functional, recombinant proteins of therapeutic and industrial importance. Here, we report the expression of biologically active human alpha-1-antitrypsin in transgenic tomato plants. The 1,182 bp cDNA sequence of human AAT was strategically designed, modified and synthesized to adopt codon usage pattern of dicot plants, elimination of mRNA destabilizing sequences and modifications around 5' and 3' flanking regions of the gene to achieve high-level regulated expression in dicot plants. The native signal peptide sequence was substituted with modified signal peptide sequence of tobacco (Nicotiana tabacum) pathogenesis related protein PR1a, sweet potato (Ipomoea batatas) sporamineA and with dicot-preferred native signal peptide sequence of AAT gene. A dicot preferred translation initiation context sequence, 38 bp alfalfa mosaic virus untranslated region were incorporated at 5' while an endoplasmic reticulum retention signal (KDEL) was incorporated at 3' end of the gene. The modified gene was synthesized by PCR based method using overlapping oligonucleotides. Tomato plants were genetically engineered by nuclear transformation with Agrobacterium tumefaciens harbouring three different constructs pPAK, pSAK and pNAK having modified AAT gene with different signal peptide sequences under the control of CaMV35S duplicated enhancer promoter. Promising transgenic plants expressing recombinant AAT protein upto 1.55% of total soluble leaf protein has been developed and characterized. Plant-expressed recombinant AAT protein with molecular mass of around approximately 50 kDa was biologically active, showing high specific activity and efficient inhibition of elastase activity. The enzymatic deglycosylation established proper glycosylation of the plant-expressed recombinant AAT protein in contrast to unglycosylated rAAT expressed in E. coli ( approximately 45 kDa). Our results demonstrate feasibility for high-level expression of biologically active, glycosylated human alpha-1-antitrypsin in transgenic tomato plants.     

Cloning of a gene encoding β-glucosidase from Chaetomium thermophilum CT2 and its expression in Pichia pastoris

A new thermostable β-glucosidase gene (bgl) from Chaetomium thermophilum CT2 was cloned, sequenced and expressed. The full-length DNA of bgl was 3,101 bp and included three introns. The full-length cDNA contained an open reading frame of 2,604-bp nucleotides, encoding 867 amino acids with a potential secretion signal. The C. thermophilum CT2 β-glucosidase gene was functionally expressed in Pichia pastoris. The purified recombinant β-glucosidase was a 119-kDa glycoprotein with an optimum catalytic activity at pH 5.0 and 60°C. The enzyme was stable at 50°C, and retained 67.7% activity after being kept at 60°C for 1 h; the half-time of the enzyme at 65°C was approximately 55 min, and even retained 29.7% activity after incubation at 70°C for 10 min.     

Schistosoma japonicum: Cloning, expression and characterization of a gene encoding the α5-subunit of the proteasome

The development of an effective vaccine against the schistosome is thought to be the most desirable means to control schistosomiasis, even though there is an effective means of chemotherapy with praziquantel. A full-length cDNA encoding the Schistosoma japonicum proteasome subunit alpha type 5 protein (SjPSMA5) was first isolated from 18-day-schistosomulum cDNAs. The cDNA had an open reading frame (ORF) of 747 bp and encoded 248 amino acids. Real-time quantitative RT-PCR analysis revealed that SjPSMA5 is up-regulated in 18-day and 32-day schistosomes, and the level of expression in male is around fourfold higher than that in female worms at 42 days. The SjPSMA5 was subcloned into pET28a(+) and expressed as inclusion bodies in Escherichia coli BL21 (DE3) cells. Western blotting showed that the recombinant SjPSMA5 (rSjPSMA5) was immunogenic. After immunization of BALB/c mice with rSjPSMA5, reductions of 23.29% and 35.24% were obtained in the numbers of worms and eggs in the liver, respectively. The levels of specific IgG antibodies and cells were significantly higher (P < 0.01) in the group vaccinated with rSjPSMA5 combined with Seppic 206 adjuvant than in the other groups, as detected by enzyme linked immunosorbent assay (ELISA) and flow cytometry. The study suggested that rSjPSMA5 induced partial immunoprotection against S. japonicum in BALB/c mice, and it could be a potential vaccine candidate against schistosomiasis.