Isolation and sequence analysis of a β-tubulin gene from arbuscular mycorrhizal fungi

A full-length β-tubulin gene has been cloned and sequenced from Gigaspora gigantea and Glomus clarum, two arbuscular mycorrhizal fungi (AMF) species in the phylum Glomeromyota. The gene in both species is organized into five exons and four introns. Both genes are 94.9% similar and encode a 447 amino acid protein. In comparison with other fungal groups, the amino acid sequence is most similar to that of fungi in the Chytridiomycota. The codon usage of the gene in both AMF species is broad and biased in favor of an A or a T in the third position. The four introns varied in length from 87 to 168 bp for G. gigantea and from 90 to 136 bp for G. clarum. Of all fungi in which full-length sequences have been published, only AMF do not have an intron before codon 174. The introns positioned at codons 174 and 257 in AMF match the position of different introns in β-tubulin genes of some Zygomycete, Basidiomycete, and Ascomycete fungi. The 5′ and 3′ splice site consensus sequences are similar to those found in introns of most fungi. Sequence analysis from single-strand conformation polymorphism analysis confirmed the presence of two β-tubulin gene copies in G. clarum, but only one copy was evident in G. gigantea based on Southern hybridization analysis.     

Molecular Characterization of β-tubulin gene from Pleurotus sajor-caju

A β-tubulin gene (TUB1) from the basidiomycete Pleurotus sajor-caju was sequenced. TUB1 encodes a 446-amino-acid protein. The coding region is interrupted by 9 introns, all of which had a 5'-GTRNGT…YAG-3' sequence at the boundaries. Locations of the introns in TUB1 were common between the β-tubulin genes of other basidiomycetes, but not with animals, ascomycetes, or plants. This suggests that the introns were inserted independently into the β-tubulin gene after these divisions had diverged.     

Molecular cloning and characterization of the β-catenin gene from fine-wool sheep

β-Catenin is an evolutionarily conserved molecule that functions as a crucial effector in both cell-to-cell adhesion and Wnt signaling. To gain a better understanding of its role in the development of hair follicles, we cloned the cDNA sequence of the β-catenin gene from the skin of Aohan fine-wool sheep and performed a variety of bioinformatics analyses. We obtained the full-length sequence, which was 4573-bp long and contained a 2346-bp open reading frame encoding a protein of 781 amino acids. The protein had a predicted molecular weight of 85.4 kDa and a theoretical isoelectric point of 5.57. Domain architecture analysis of the β-catenin protein revealed an armadillo repeat region, which is a common feature of β-catenin in other species. The ovine β-catenin gene shares 97.91%, 94.25%, 94.59%, 83.89%, and 89.39% sequence identity with its homologs in Bos taurus, Homo sapiens, Sus scrofa, Gallus gallus, and Mus musculus, respectively, while the amino acid sequence is more than 99% identical with each of these species. The expression of β-catenin mRNA was detected in the heart, liver, spleen, lung, kidney, skin, muscle, and adipose tissue. Expression levels were maximal in the lung and minimal in the muscle, and the difference in expression in these tissues was significant (P < 0.01). Western blot analysis revealed the presence of the β-catenin protein in all tissues examined; expression was lowest in the skin and adipose tissues.     

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.     

Molecular cloning and sequence analysis of the β-1,3-glucan synthase catalytic subunit gene from a medicinal fungus, Cordyceps militaris

The entomopathogenic fungus Cordyceps militaris belongs to vegetable wasps and plant worms and is used as herbal medicine, but β-1,3-glucan biosynthesis has been poorly studied in C. militaris. The fungal FKS1 gene encodes an integral membrane protein that is the catalytic subunit of β-1,3-glucan synthase. Here, we isolated cDNA clones encoding a full-length open reading frame of C. militaris FKS1. Cordyceps militaris Fks1 protein is a 1981 amino acid protein that shows significant similarity with other fungal Fks proteins. This study is the first report of molecular cloning of the β-1,3-glucan synthase catalytic subunit gene from vegetable wasps and plant worms.     

Molecular cloning and characterization of a gibberellin-inducible, putative α-glucosidase gene from barley

A putative -glucosidase clone has been isolated from a cDNA library constructed from mRNA of barley aleurones treated with gibberellin A₃ (GA). The clone is 2752 bp in length and has an uninterrupted open reading frame encoding a polypeptide of 877 amino acids. A 680 amino acid region is 43% identical to human lysosomal -glucosidase and other glycosyl hydrolases. In isolated aleurones, the levels of the corresponding mRNA increase strongly after the application of GA, similar to the pattern exhibited by low-pI -amylase mRNA. High levels are also observed in the aleurone and scutellum after germination, while low levels are found in developing seeds. The genome contains a single form of this -glucosidase gene and two additional sequences that may be related genes or pseudogenes.Names are necessary to report factually on available data; however, the USDA neither guarantees nor warrants the standard of the product, and the use of the name by USDA implies no approval of the product to the exclusion of others that may also be suitable.     

Molecular cloning and expression of a Micromonospora chalcae β-glucosidase encoding gene in Escherichia coli

A Sau3A I genomic library from the actinomycete Micromonospora chalae was constructed in Escherichia coli using the expression vector pUC18. Using the chromogenic substrate 5-bromo-4-chloro-3-indolyl--glucoside (X-glu), a number of positive recombinant colonies were identified. One of those exhibiting the strongest phenotype contained a recombinant plasmid, pANNA1 which harboured a 4.2kb DNA insert. Using restriction endonuclease site mapping and subcloning strategies a 2.3kb DNA fragment encoding the -glucosidase activity was identified. Characterization of the strongly expressed recombinant enzyme demonstrated that it had a dramatically increased thermal stability at 50 °C. The Km values obtained for the recombinant enzyme and that from M. chalcae using the substrate p-nitrophenyl--D-glucoside were 0.19mM and 0.25mM, respectively.     

Molecular cloning and biochemical characterization of α- and β-tubulin from potato plants (Solanum tuberosum L.)

Few studies have investigated microtubules from plants that host pathogenic fungi. Considerable efforts are underway to find an antimitotic agent against plant pathogens like Phytophthora infestans. However, screening the effects of antifungal agents on plant tubulin in vivo or using purified native microtubule in vitro is a time consuming process. A recombinant, correctly folded, microtubule-like structure forming tubulin could accelerate research in this area. In this study, we cloned full length cDNAs isolated from potato leaves using reverse-transcribed polymerase chain reaction (RT-PCR). Solanum tuberosum (Stub) α-tubulin and β-tubulin were predicted to encode 449 and 451 amino acid long proteins with molecular masses of 57 kDa and 60 kDa, respectively. Average yields of α- and β-tubulin were 2.0–3.5 mg l^?1 and 1.3–3.0 mg l^?1 of culture, respectively. The amino acids, His6, Glu198, and Phe170 involved in benomyl sensitivity were conserved in Stub tubulin. The dimerization of tubulin monomers was confirmed by western blot analysis. When combined under appropriate conditions, these recombinant α- and β-tubulins were capable of polymerizing into microtubules. Accessibility of cysteine residues of tubulin revealed that important ligand binding sites were folded correctly. This recombinant tubulin could serve as a control of phytotoxicity of selected antimitotic fungicide compounds during in vitro screening experiments.     

Molecular cloning and primary sequence analysis of a gene encoding a putative shitinase gene in Brassica oleracea var.capitata

Chitinase,which catalyzes the hydrolysis of the β-1,4-acetyl-D-glucosamine linkages of the fungal cell wall polymer chitin,is involved in inducible plants defense system.By construction of cabbage(Brassica oleracea var. capitata) genomic library and screening the library with pRCH8,a probe of rice chitinase gene fragment,a chitinase genomic sequence was isolated.The complete uncleotide sequence of the putative cabbage chitinase gene (cabch29) was determined,with its longest open reading frame (ORF) encoding a polypeptide of 413 aa.This polypeptide consists of a 21 aa N-terminal signal peptide,two chitin-binding domains different from those of other classes of plant chitinases,and a catalytic domain.Homology analysis illustrated that this cabch29 gene has 58.8% identity at the nucleotide level with the pRCH8 ORF probe and has 50% identity at the amino acid level tiwh the catalytic domains of chitinase from bean,maize and sugar beet.Meanwhile,several kinds of cis-elements,such as TATA box,CAAT box,GATA motif,ASF-1 binding site,wound-response elements and AATAAA,have also been discovered in the flanking region of cabch29 gene.     

Molecular cloning and primary sequence analysis of a gene encoding a putative chitinase gene in Brassica oleracea var.capitata

INTRODUCTIONPlantshavedevelopedseveralbi0chemicaldefensemechanismsinresp0nsetopath0gensandabioticstress.Fo1l0wingpathogenattack,plantsynthesizephenyl-propaniodpr0ductssuchaslignin,l0wm0l.wt.antimicrobia1comp0undsknownasphyt0alexins,andseveraldefense-relatedproteins.Amongthesepr0teinsare"pathogenesis-relatedproteins"includingthefungalcellwalldegradingenzymeschitinaseandP-1,3-glucanase[1].Endochitinasefromhigherplantscatalyzethehydr0lysis0fchitin,aP-1,4-linkedhomop0lymerofN-acetyl-D-glucos…     

Molecular cloning and structural analysis of human norepinephrine transporter gene（NETHG）

A cDNA molecule encoding a major part of the human Norepinephrine transporter(hNET) was synthesized by means of Polymerase Chain Reaction(PCR) technique and used as a probe for selecting the human genomic NET gene.A positive clone harbouring the whole gene was obtained from a human lymphocyte genomic library through utilizing the “genomic walking” technique.The clone,designated as phNET,harbours a DNA fragment of about 59 kd in length inserted into BamH I site in cosmid pWE15.The genomic clone contains 14 exons encoding all amino acid residues in the protein.A single exon encodes a distinct transmembrane domain,except for transmembrane domain 10 and 11,which are encoded by part of two exons respectively,and exon 12,which encodes part of domain 11 and all of domain 12.These results imply that there is a close relationship between exon splicing of a gene and structureal domains of the protein,as is the case for the human γ－aminobutyric acid transporter(hGAT) and a number of other membrane proteins.     

Characterization,cloning and sequencing of a thermostable endo-(1,3–1,4) β-glucanase-encoding gene from an alkalophilic Bacillus brevis

A Bacillus brevis gene coding for an endo-(1,3–1,4)--glucanase was cloned in Escherichia coli and sequenced. The open reading frame contains a sequence of 759 nucleotides encoding a polypeptide of 252 amino acid residues. The amino acid sequence of the -glucanase gene showed only a 50% similarity to previously published data for Bacillus endo-(1,3–1,4)--glucanases. The optimum temperature and pH for enzyme activity were 65–70°C and 8–10, respectively. When held at 75°C for 1 h, 75% residual activity was measured. The molecular mass was estimated to be about 29 kDa on sodium dodecyl sulphate (SDS)-polyacrylamide gel electrophoresis and the enzyme was found to be resistant to SDS. Correspondence to: T. G. Watson     

Phylogenetic analysis of the Glomeromycota by partial β-tubulin gene sequences

The 3’ end of the β-tubulin gene was amplified from 50 isolates of 45 species in Glomeromycota. The analyses included a representative selection of all families except Pacisporaceae and Geosiphonaceae. Phylogenetic analyses excluded three intron regions at the same relative positions in all species due to sequence and length polymorphisms. The β-tubulin gene phylogeny was similar to the 18S rRNA gene phylogeny at the family and species level, but it was not concordant at the order level. Species in Gigasporaceae and Glomeraceae grouped together but without statistical support. Paralogous sequences in Glomus species likely contributed to phylogenetic ambiguity. Trees generated using different fungal phyla as out-groups yielded a concordant topology. Family relationships within the Glomeromycota did not change regardless if the third codon position was included or excluded from the analysis. Multiple clones from three isolates of Scutellospora heterogama yielded divergent sequences. However, phylogenetic patterns suggested that only a single copy of the β-tubulin gene was present, with variation attributed to intraspecific sequence divergence.