Cloning and sequence analysis of a novel xylanase gene, Auxyn10A, from Aspergillus usamii

A full-length cDNA sequence, encoding a novel endo-1,4-β-d-xylanase (AuXyn10A) of Aspergillus usamii, was obtained by using rapid amplification of cDNA ends (RACE) methods and cloned into the pUCm-T vector, followed by DNA sequencing. The cDNA gene, designated as Auxyn10A, is 1,235 bp in length harboring 5′- and 3′-non-encoding regions, as well as an ORF of 984 bp that encodes a 19-aa signal peptide, a 6-aa propeptide and a 302-aa mature peptide with a calculated MW of 32,756 Da. The AuXyn10A displays high similarity to the xylanases of Aspergillus niger, Aspergillus kawachii and Aspergillus niger, members of the glycoside hydrolase family 10. Its three-dimensional structure was predicted using programs based on the crystal structure of Penicillium simplicissimum xylanase (1B30_A) from the family 10. The complete DNA gene was cloned from the genomic DNA of A. usamii using conventional PCR and hairpin structure-mediated PCR techniques. The DNA gene is 2,255 bp in length, containing a 510 bp of 5′-flanking promoter region and a 1,745 bp of downstream fragment that consists of ten exons and nine short introns ranging from 52 to 62 bp.     

Cloning and sequence analysis of an acidophilic xylanase (XynI) gene from <Emphasis Type="Italic">Aspergillus usamii</Emphasis> E001

The full-length cDNA gene that encodes an acidophilic endo-1,4-β- xylanase XynI of Aspergillus usamii E001 was amplified by rapid amplification of cDNA 3′ and 5′ ends (RACE) using the total RNA as template and then cloned onto the pUCm-T vector, followed by sequencing. The cloned cDNA is 881 bp in length including 5′ and 3′ non-encoding regions, as well as a 678 bp of open reading frame (ORF) which encodes an E001 XynI of 188 amino acid residues together with a signal peptide of 37 amino acid residues. The homologies of E001 XynI with xylanases of Aspergillus niger, Aspergillus kawachii, Emericella nidulans and Penicillium funiculosum are 97.8, 92.0, 74.6 and 60.5%, respectively. From a BLAST search result, we concluded that E001 XynI belongs to the glycoside hydrolase family 11. Its three-dimensional structure was predicted using programs based on that of the P. funiculosum xylanase (1TE1B) from the family 11. In addition, the complete DNA gene xynI encoding E001 XynI was cloned from the genomic DNA of A. usamii E001 by conventional PCR and ligation-mediated PCR amplification. The cloned xynI is 1,206 bp in length, composed of a promoter region, a 68 bp of intron and two exons when compared with the cDNA of E001 XynI.     

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, sequencing and expression of cDNA encoding growth hormone from Indian catfish (Heteropneustes fossilis)

A tissue-specific cDNA library was constructed using polyA⁺ RNA from pituitary glands of the Indian catfishHeteropneustes fossilis (Bloch) and a cDNA clone encoding growth hormone (GH) was isolated. Using polymerase chain reaction (PCR) primers representing the conserved regions of fish GH sequences the 3′ region of catfish GH cDNA (540 bp) was cloned by random amplification of cDNA ends and the clone was used as a probe to isolate recombinant phages carrying the full-length cDNA sequence. The full-length cDNA clone is 1132 bp in length, coding for an open reading frame (ORF) of 603 bp; the reading frame encodes a putative polypeptide of 200 amino acids including the signal sequence of 22 amino acids. The 5′ and 3′ untranslated regions of the cDNA are 58 bp and 456 bp long, respectively. The predicted amino acid sequence ofH. fossils GH shared 98% homology with other catfishes. Mature GH protein was efficiently expressed in bacterial and zebrafish systems using appropriate expression vectors. The successful expression of the cloned GH cDNA of catfish confirms the functional viability of the clone.     

Molecular cloning,characterization and expression analysis of adenylosuccinate lyase gene in grass carp (<Emphasis Type="Italic">Ctenopharyngodon idella</Emphasis>)

Adenylosuccinate lyase (ADSL) is a bifunctional enzyme acting in de novo purine synthesis and purine nucleotide recycling. In the present study, we have constructed a grass carp (Ctenopharyngodon idella) intestinal cDNA library that has over 2.3 × 10⁵ primary clones. An expressed sequence tag (EST) of grass carp adenylosuccinate lyase (gcADSL) gene was screened from this library. Both 5′-RACE and 3′-RACE were carried out in order to obtain the complete cDNA sequence, which contains a 1,446 bp open reading frame encoding 482 amino acids about 54.552 kDa. The deduced amino acid sequence shares high homology with its vertebrate counterparts, which shares 94% similarity with zebrafish, 81% with African clawed frog as well as chicken, 77% with human and 76% with mouse. This gcADSL genomic sequence, consisted of 13 exons and 12 introns, is 8,557 bp in size. Real-time quantitative PCR analysis revealed that the highest expression level of gcADSL was detected in muscle and the lowest in gill. In western blotting analysis, His₆-tagged gcADSL protein expressed in Escherichia coli could be recognized not only by an anti-His₆-tag monoclonal antibody but also by an anti-human ADSL polyclonal antibody, indicating immunological crossreactivity occurs between grass carp and human ADSL protein. 1,082 bp 5′-flanking region sequence was cloned and analyzed.     

Cloning and heterologous expression of nitrate reductase genes from <Emphasis Type="Italic">Dunaliella salina</Emphasis>

A cDNA corresponding to the nitrate reductase (NR) gene from Dunaliella salina was isolated by RT-PCR and (5′/3′)-RACE techniques. The full-length cDNA sequence of 3,694 bp contained an open reading frame of 2,703 bp encoding 900 amino acids, a 5′-untranslated region of 151 bp and a 3′-untranslated sequence of 840 bp with a poly (A) tail. The putative gene product exhibited 78%, 65%, 59% and 50% identity in amino acid sequence to the corresponding genes of Dunaliella tertiolecta, Volvox carteri, Chlamydomonas reinhardtii, and Chlorella vulgaris, respectively. Phylogenetic analysis showed that D. salina NR clusters together with known NR proteins of the green algae. The molecular mass of the encoded protein was predicted to be 99.5 kDa, with an isoelectric point of 8.31. This protein shares common structural features with NRs from higher plants and green algae. The full-length cDNA was heterologously expressed in Escherichia coli as a fusion protein, and accumulated to up to 21% of total bacteria protein. Recombinant NR protein was active in an enzyme assay, confirming that the cloned gene from D. salina is indeed NR.     

Cloning and bioinformatics analysis of an endoglucanase gene (Aucel12A) from Aspergillus usamii and its functional expression in Pichia pastoris

Using 3′ and 5′ rapid amplification of cDNA ends methods, the full-length cDNA sequence encoding an endo-1,4-β-glucanase of Aspergillus usamii E001 (abbreviated as AuCel12A) was amplified from the total RNA. The clone cDNA sequence of the gene encoding the AuCel12A, named as Aucel12A, is 1,027 bp in length harboring 5′ and 3′ non-coding regions, as well as a 720 bp of open reading frame that encodes a 16-aa signal peptide, and a 223-aa mature AuCel12A with a theoretical M.W. of 24,294 Da, a calculated pI of 4.15, and one putative N-glycosylation site. The complete DNA sequence of the gene Aucel12A was amplified from the genomic DNA of A. usamii E001 by using the conventional PCR and pUCm-T vector-mediated PCR initially developed in our lab. The clone DNA sequence is 1,576 bp in length, consisting of a 5′ flanking regulatory region, three exons, and two introns with sizes of 50 and 66 bp. The cDNA fragment encoding the mature AuCel12A was expressed in a fully active form in Pichia pastoris. One P. pastoris transformant expressing the highest recombinant AuCel12A (rAuCel12A) activity, labeled as P. pastoris GSCel2-1, was chosen for subsequent studies. Integration of the Aucel12A into P. pastoris genome was confirmed by PCR analysis using 5′- and 3′-AOX1 primers. SDS-PAGE and enzyme activity assays demonstrated that the rAuCel12A, a glycosylated protein with an apparent M.W. of 27.0 kDa and a carbohydrate content of 4.82%, was secreted into the culture medium. The purified rAuCel12A displayed the highest activity at pH 5.0 and 60°C. It was highly stable at a pH range of 3.5–7.0, and at a temperature of 55°C or below. Its activity was not significantly affected by an array of metal ions and EDTA, but inhibited by Ag⁺, Hg²⁺ and Fe²⁺. The K _m and V _max of the rAuCel12A, towards carboxymethylcellulose-Na (CMC-Na) at pH 5.0 and 50°C were 4.85 mg/ml and 160.5 U/mg, respectively.     

Identification and characterization of interferon regulatory factor-1 from orange-spotted grouper (<Emphasis Type="Italic">Epinephelus coioides</Emphasis>)

Interferon-regulatory factor 1 (IRF-1) is the first member of IRF family, which is involved in many biological processes such as immune response, antiviral defense, cell growth regulation, and apoptosis. In this study, an IRF-1 gene, EcIRF-1, was isolated and characterized from orange-spotted grouper (Epinephelus coioides). The full-length cDNA of EcIRF-1 is 1,730 bp, including an open reading frame of 906 bp, a 5′-terminal untranslated region (5′-UTR) of 153 bp, and a 3′-UTR of 671 bp. The EcIRF-1 gene consists of 10 exons and 9 introns, spanning over approximate 4.3 kb of genomic sequence. The 5′-UTR sequence contains an exon and an intron, and the 3′-UTR sequence is included in the last exon. Expression analysis by real-time PCR reveals that the EcIRF-1 gene is ubiquitously expressed in various healthy fish tissues, whereas its expression is upregulated in vivo in response to polyinosinic–polycytidylic acid or lipopolysaccharide stimulation. Subcellular localization analysis shows the EcIRF-1 is an intranuclearly localized and immobile protein in the cultured fish cells. Data presented in this paper provide an important base to further understand EcIRF-1 gene function and its regulation associated with interferon immune system in orange-spotted grouper.     

Identification of two processed pseudogenes of the human Tom20 gene

The open reading frame (ORF) of the human Tom20 gene (hTom20) was amplified by PCR from a HeLa cDNA library using primers based on the sequence of HUMRSC145 and cloned into a pET15b vector. Amplification of human genomic DNA using these primers yielded a DNA fragment of the same size as that of the ORF of hTom20 cDNA. Sequencing of this fragment revealed that: (1) it has the same number of base pairs as the ORF of hTom20 cDNA (438 bp); and (2) the two sequences differ by 14 single base pair substitutions (97% similarity) causing eight changes in the amino acid sequence and two premature stop codons. Further amplification of human genomic DNA adaptor-ligated libraries using primers based on HUMRSC145 revealed three different sequence-related genomic regions; one corresponding to the fragment referred above, another corresponding to the hTom20 gene, and a third fragment of which the sequence differs from the ORF of hTom20 cDNA by only 22 base pair substitutions and a deletion of 4 bp. We conclude that, in addition to the hTom20 gene, there are two genomic DNA sequences (Ψ1Tom20 and Ψ2Tom20) that are processed pseudogenes of hTom20. Aspects concerning their evolutionary origin are discussed. Received: 12 September 1997 / Accepted: 29 November 1997     

Characterization and multi-generational stability of the growth hormone transgene (EO-1α) responsible for enhanced growth rates in Atlantic Salmon

Transgenic technologies provide a promising means by which desirable traits can be introduced into cultured fish species within a single generation thus accelerating the production of genetically superior broodstock for aquaculture. However, before such fish are allowed to be marketed as food they must receive government regulatory approval. Two pivotal regulatory requirements are: (1) complete characterization of the genomically integrated transgene and, (2) demonstration that the transgene remains stable over multiple generations. We have generated a stable line of growth hormone (GH) transgenic Atlantic salmon (Salmo salar) using an “all fish” gene construct (opAFP-GHc2) containing a growth hormone cDNA from chinook salmon whose expression is regulated by the 5′ promoter and 3′ termination regions derived from an ocean pout antifreeze protein (AFP) gene. In this study we show that a reorganized form of the opAFP-GHc2 construct (termed EO-1α) integrated as a single functional copy into a 35 bp repeat region of the genomic DNA. PCR based mapping revealed that the linear sequence of the EO-1α integrant was organized as follows: base pairs 1580–2193 of the ocean pout promoter region followed by the intact chinook salmon GH cDNA, the complete ocean pout antifreeze 3′ region, and the first 1678 bp of the ocean pout antifreeze 5′ region. Sequence analysis of the EO-1α integrant and genomic flanking regions in F₂ and F₄ generation salmon revealed that they were identical. In addition, apart from the disruption at the integration sites, the consensus sequences of the integrant in these two generations of salmon were identical to the sequence of the opAFP-GHc2 construct. These results indicate that the EO-1α transgene codes for the chinook salmon GH, and that the transgene and the integration site have remained stable over multiple generations.     

Local repeat sequence organization of an intergenic spacer in the chloroplast genome ofChlamydomonas reinhardtii leads to DNA expansion and sequence scrambling: A complex mode of “copychoice replication”?

Parent-specific, randomly amplified polymorphic DNA (RAPD) markers were obtained from total genomic DNA ofChlamydomonas reinhardtii. Such parent-specific RAPD bands (genomic fingerprints) segregated uniparentally (through mt⁺) in a cross between a pair of polymorphic interfertile strains ofChlamydomonas (C. reinhardtii andC. minnesotti), suggesting that they originated from the chloroplast genome. Southern analysis mapped the RAPD-markers to the chloroplast genome. One of the RAPD-markers, “P2” (1.6 kb) was cloned, sequenced and was fine mapped to the 3 kb region encompassing 3′ end of 23S, full 5S and intergenic region between 5S and psbA. This region seems divergent enough between the two parents, such that a specific PCR designed for a parental specific chloroplast sequence within this region, amplified a marker in that parent only and not in the other, indicating the utility of RAPD-scan for locating the genomic regions of sequence divergence. Remarkably, the RAPD-product, “P2” seems to have originated from a PCR-amplification of a much smaller (about 600 bp), but highly repeat-rich (direct and inverted) domain of the 3 kb region in a manner that yielded no linear sequence alignment with its own template sequence. The amplification yielded the same uniquely “sequence-scrambled” product, whether the template used for PCR was total cellular DNA, chloroplast DNA or a plasmid clone DNA corresponding to that region. The PCR product, a "unique" new sequence, had lost the repetitive organization of the template genome where it had originated from and perhaps represented a “complex path” of copy-choice replication.     

Rapid amplification of genomic DNA ends bynla III partial digestion and polynucleotide tailing

We report a simple and efficient method, which combines restriction endonuclease digestion and deoxynucleotide tailing, for cloning unknown genomic sequences adjacent to a known sequence. Total genomic DNA is partially digested with the frequent-cutting restriction enzymeNla III. A homo-oligomeric cytosine tail is added by terminal transferase. The tailed DNA fragments are used as the template for cloning flanking regions from all sequences of interest. A first round PCR amplification is performed with a gene-specific primer and the selective (modified polyguanine) anchor primer complementary to the cytosine tail and theNla III recognition site, with a universal amplification primer sequence at its 5′ end. This is followed by another PCR amplification with a nested gene-specific primer and the universal amplification primer. Finally, the amplified products are fractionated, cloned, and sequenced. Using this method, we cloned the upstream region of a salt-induced gene based upon a partial cDNA clone (RSC5-U) obtained from sunflower (Helianthus annuus L.).     

cDNA Clone, fusion expression and purification of the novel gene related to ascorbate peroxidase from Chinese wild Vitis pseudoreticulata in E. coli

Powdery mildew, caused by Uncinula necator Burr, is one of the most seriously damaging diseases of grapevine all over the world. To gain the novel gene and investigate the resistance mechanism in Chinese Wild Vitis pseudoreticulata clone Baihe-35-1, mRNA differential display was employed to study the differential expression of the resistant gene to the disease of it when inoculated by Uncinula necator under natural field conditions, 5′ RACE and 3′ RACE have been used to clone the whole cDNA sequences of VpAPX, the novel gene related to Ascorbate Peroxidase which involved in resistant to the disease, is composed of specific sequence 1077 bp and has an open reading frame of 750 bp coding for 250 amino acid residues with a molecular weight of 27.566 kDa. The VpAPX gene was obtained by polymerase chain reaction (PCR) with the special primers synthesized according to the sequences of cDNA, and further cloned it into the pGEM-T easy vector. The cloned VpAPX gene was cut out again with two restriction enzymes and was inserted into the prokaryotic expression vector pGEX-4T-1, then transferred into E. coli BL21. As result, GST-VpAPX fusion protein was successfully expressed by induction of IPTG and purified by GST affinity resin. After injecting rabbit, the polyclonal antibodies were produced. Western blot analyses showed that the antibody reacted specifically to GST-VpAPX fusion protein and the titer for this antibody is 10⁵. This research made the foundation to transform the VpAPX gene into grape plants for follow research in processing. Ling Lin, Xiping Wang: These two authors contributed equally to this work.     

Structure of the human biotinidase gene

Biotinidase cleaves biotin from biocytin, thereby recycling the vitamin. We have determined the structure of the human biotinidase gene. A genomic clone, containing three exons that code for the mature enzyme, was obtained by screening a human genomic bacteriophage library with the biotinidase cDNA by plaque hybridization. To obtain a clone containing the most 5′ exon of the biotinidase cDNA, a human PAC library by PCR was screened. The human biotinidase gene is organized into four exons and spans at least 23 kb. The 5′-flanking region of exon 1 contains a CCAAT element, three initiator sequences, an octamer sequence, three methylation consensus sites, two GC boxes, and one HNF-5 site, but has no TATA element. The region from nt −600 to +400 has features of a CpG island and resembles a housekeeping gene promoter. The structure and sequence of this gene are useful for identifying and characterizing mutations that cause biotinidase deficiency. Received: 30 September 1997 / Accepted: 5 December 1997     

Molecular cloning and expression analysis of a heat shock protein (Hsp90) gene from black tiger shrimp (<Emphasis Type="Italic">Penaeus monodon</Emphasis>)

The techniques of homology cloning and anchored PCR were used to clone the Hsp90 gene from black tiger shrimp. The full length cDNA of black tiger shrimp Hsp90 (btsHsp90) contained a 5′ untranslated region (UTR) of 72 bp, an ORF (open reading frame) of 2160 bp encoding a polypeptide of 720 amino acids with an estimated molecular mass of 83-kDa and a 3′ UTR of 288 bp. The sequence of the coding region showed 90 and 84% homology with that of the Chiromantes haematocheir and Homo sapiens, respectively. Conserved signature sequences of Hsp90 gene family were found in the btsHsp90 deduced amino acid sequence. The temporal expressions of Hsp90 gene were constitutively in the black tiger shrimp tissues including liver, ovary, muscle, brain stomach, and heart, and their levels were markedly enhanced after 30-min heat treatment at 37°C. In ovarian maturation stages, the expression of btsHsp90 was strongest in the second stage, weaker in the fourth and first stage.     

Partial sequence analysis of randomly selected watermelon [Citrullus lanantus (Thunb.) Mansf.] cDNA clones

An expressed sequence tag (EST) is simply a segment of a sequence over 150 bp from a randomly selected cDNA. EST helps to quickly identify functions of expressed genes and to understand the complexity of gene expression with database comparison. Sequencing of random cDNA clones can be applicable to discovery of new genes, mapping of the genome, identification of coding regions in genomic sequences, and antisense method. To accomplish these goals, in this research, randomly selected cDNA sequencing was performed with watermelon plant. Among 30 clones picked up and analyzed, all clones had an insert length over 0.5 kb. The average size of insert was about 1.3 kb. The size range of most cDNA insert was 1.0–2.0 kb. For sequence comparison, data from the coding region at 5′ end of selected cDNA should be much more informative than those from the untranslated 3′ tail. Thirty clones were sequenced from one end (5′ end). Of these, 29 had no poly (A) tail in this direction, while only one was inverted. Thus, this library is over 96% unidirectional. Two clones had homologies to ribulose bisphosphate carboxylase/oxigenase (Rubisco) small subunit precursor gene. Thirteen cDNAs had high degree of sequence similarity to genes from other organisms. The remaining cDNA clones seem to be new genes not only in watermelon but also in all organisms.