Cloning,characterization and functional expression of a new beta-D-fructofuranosidase (Os beta fruct2) cDNA from Oryza sativa

A new cDNA (Osfruct2) encoding an acid –d-fructofuranosidase from rice has been cloned, sequenced and expressed in Pichia pastoris. The full-length cDNA is 2453 base pairs long and encodes a pre-pro-protein of 682 amino acids. The cDNA fragment coding for mature enzyme was sub-cloned into vector pPICZA for extracellular expression in the methylotrophic yeast. The recombinant product was purified by Ni²⁺-nitrilotriacetic acid agarose column and biochemically characterized. The enzyme could hydrolyze sucrose and raffinose. Molecular mass is 66 kDa. The activity optimum was at pH 4.8 and 40 °C.     

Cloning and expression of a lipase gene from rice (Oryza sativa cv. Dongjin)

Lipases are useful enzymes that are primarily responsible for the hydrolysis of acylglycerides during lipid processing. We have cloned a lipase gene from a rice seed coat cDNA library (Oryza sativa cv. Dongjin). The cDNA was 1,445 bp in length and encoded 361 amino acid residues (GenBank accession No. AY580163). The deduced amino acid sequence had 82 and 56% identity to Oryza sativa (cv. Chuchung) and Arabidopsis thaliana lipase genes, respectively, and there was a GxSxG consensus motif near the catalytic triad at the active serine site. The deduced sequence had little homology to mammalian and microbial lipases. When the Oryza sativa lipase gene was expressed in Escherichia coli with the pET expression system, activity was found mainly in the pellet fraction. The purified product had lipolytic activity towards tributyrin and was about 40 kDa in size.     

Cloning and characterization of a gene encoding novel zinc finger protein transcription factor induced under water deficit stress from rice (Oryza sativa) cv. N-22

A gene OsZnI encoding Cys3/His1-type zinc finger protein was isolated from the water stress-induced cDNA library of rice (Oryza sativa) cv. N-22, an early maturing, deep-rooted, drought-tolerant genotype adapted to upland conditions. The in-silico analysis revealed an insert of 800 bp with an ORF of 663 nucleotides, encoding 221 amino acids. OsZnI had three distinct features--nuclear localization signal (NLS) present in Arg152-Arg168, Zn finger domain between 185-193 amino acids and 12 amino acids conserved domain in 71-82 amino acids homologous to LEA motif, and belonged to C-type family of Zn finger protein. OsZnI showed induced expression under water deficit stress.     

Cloning, expression and characterization of a cDNA encoding a lipase from Rhizopus delemar.

A lambda gt11 cDNA library was constructed in Escherichia coli using poly(A)-selected mRNA from the fungus, Rhizopus (Rp.) delemar. Lipase-producing members of the library were identified by means of a phenotypic score wherein the release of fatty acids by lipase causes a characteristic color change in the growth medium. One such isolate contained a 1287-bp insert (LIP cDNA) which hybridizes to 1.25- to 1.35-kb mRNA species from Rp. delemar. The lipase produced in E. coli containing the LIP cDNA exhibits the same substrate selectivity as the authentic fungal enzyme, hydrolyzing ester bonds at the stereospecific numbering (sn) sn-1 and sn-3, but not the sn-2, positions of triglycerides. The complete nucleotide sequence of the LIP cDNA was determined. By reference to the N-terminal sequence of authentic Rp. delemar lipase, the lipase-encoding region was identified within this fragment. The LIP cDNA encodes a putative preprolipase consisting of a 26-amino-acid(aa) signal sequence, a 97-aa propeptide, and a 269-aa mature enzyme. The predicted mature lipase has the same molecular weight and aa composition as that of Rp. delemar, is highly homologous to that produced by the fungus Rhizomucor miehei, and contains the consensus pentapeptide (Gly-Xaa-Ser-Yaa-Gly) which is conserved among lipolytic enzymes. It is concluded that the LIP cDNA is an essentially full-length analogue of the lipase-encoding gene of Rp. delemar. The lipase encoded by the LIP cDNA occupies a cytoplasmic location when synthesized in E. coli. Unprocessed forms of the lipase accumulate in E. coli.     

Cloning, expression, and characterization of a cDNA encoding snake venom metalloprotease

A cDNA clone, MT-c, encoding metalloprotease was isolated from snake (Agkistrodon halys brevicadus) venom gland cDNA library. Deduced amino acid sequence indicated that MT-c is composed of a signal sequence, amino-terminal propeptide, a central metalloprotease domain, and a Lys-Gly-Asp (KGD) disintegrin domain. The partial cDNA encoding metalloprotease and disintegrin domain was subcloned and expressed in E. coli. The expressed MT-c protein was purified and successfully refolded into functional form retaining the enzyme activity. Analyses of the purified recombinant protease activity revealed that the enzyme hydrolyzes extracellular matrix proteins including type I gelatin, type IV and type V collagen, while type I, II, III collagens and fibronectin were insensitive to the proteolytic digestion. The recombinant enzyme was also able to degrade fibrinogen by specifically cleaving A alpha chain of the protein.     

Cloning, characterization and prokaryotic expression of cytosolic malate dehydrogenase from Oryza sativa.

cDNA sequences of malate dehydrogenase (MDH) were cloned from various species, and MDH was identified to play an important role in cell energy metabolism. Here, we present the isolation and characterization of its homologue (OscMDH) in Oryza sativa. Comparison of the results to the genome details indicated that OscMDH consisted of seven exons. Sequence alignment showed that the deduced amino acid sequence of OscMDH shared a significant similarity with cMDH protein in Zea mays, as well as with other cMDH gene products. The different expression patterns of OscMDH in different tissues revealed that OscMDH mRNA was highly transcribed in either young panicle or immature seed, while its abundance was much low in green leaf and root. A nearly 56-kDa fusion protein generated by adding a Trx-His-tag at the N-terminal of OscMDH was induced by IPTG in Escherichia coli BL21 and an obvious MDH activity was detected in the protein by native PAGE analysis. All these results suggest that OscMDH encodes a cytosolic MDH in rice.     

Cloning, characterization, and expression of calcyphosine 2, a novel human gene encoding an EF-hand Ca(2+)-binding protein

Calcyphosine is a calcium-binding protein containing four EF-hand domains, initially identified as thyroid protein p24. It was first cloned and its counterparts in rabbit, human, and mouse, crayfish and lobster of invertebrate were also cloned. Here we describe the cloning and characterization of a novel human calcyphosine gene. The 3829-bp cDNA encodes a EF-hand Ca(2+)-binding protein homologous to the dog calcyphosine. It also contains two EF-hand Ca(2+)-binding motif. It is abundantly expressed in many tissues including by RT-PCR analysis and believed to play important role in calcium signaling. It was mapped to human genome 12q15.     

Cloning and characterization of a novel splicing isoform of the iron-superoxide dismutase gene in rice (Oryza sativa L.)

Superoxide dismutases (SODs) are ubiquitous metalloenzymes in aerobic organisms that play a crucial role in protecting organisms against ROS. Here, we report the molecular cloning and functional characterization of a novel alternatively spliced variant of the iron-superoxide dismutase gene, OsFe-SODb, from a rice panicle cDNA library. The alternative splicing event occurred in the fourth exon of the OsFe-SOD gene, and led to the translation of two isoforms of different sizes. The 5′ flanking region of the OsFe-SOD was cloned and many cis-acting regulatory elements were found that are involved in light responsiveness, including a G-box and an I-box. RT-PCR analysis showed that the two alternative forms of OsFe-SOD were expressed in both the vegetative and reproductive tissues of Cpslo17. Moreover, accumulation of both isoforms was upregulated by light induction. In addition, the alternative splicing of OsFe-SOD mRNA was sensitive to low temperature. High yield production of the two recombinant OsFe-SOD isoforms was achieved in Escherichia coli. SOD assays showed that C-terminal truncation in OsFe-SODb did not result in a loss of SOD enzyme activity.     

Cloning, expression and function of phosphate transporter encoded gene in Oryza sativa L.

OsPT6:1, a phosphate transporter encoding gene from the leaf samples of Oryza sativa, was identified through PCR with specifically designed primers. The phylogenetic analysis and the conserved amino acid residue site detection suggested OsPT6:1 a possible high-affinity phosphate transporter encoding gene. In situ hybridization and RT-PCR demonstrated the expression of OsPT6:1 in both roots and leaves. The peak expression signal was observed in mesophyll cells under low phosphorus (P) induction. A homologous recombination study indicated that OsPT6:1 can enhance the Pi uptake efficiency of Pichia pastoris. At the meantime, the introduction of OsPT6:1 was able to complement the Pi uptake function of yeast cells with high-affinity phosphate transporters deficient. Those results substantiated our contention that OsPT6:1 encoded a high-affinity phosphate transporter of Oryza sativa. These authors contributed equally to this work.     

Cloning,expression and function of phosphate transporter encoded gene in Oryza sativa L.

OsPT6:1,a phosphate transporter encoding gene from the leaf samples of Oryza sativa, was identified through PCR with specifically designed primers.The phylogenetic analysis and the conserved amino acid residue site detection suggested OsPT6:1 a possible high-affinity phosphate transporter encoding gene.In situ hybridization and RT-PCR demonstrated the expression of OsPT6:1 in both roots and leaves.The peak expression signal was observed in mesophyll cells under low phosphorus(P)induction.A homologous recombination study indicated that OsPT6:1 can enhance the Pi uptake efficiency of Pichia pastoris.At the meantime,the introduction of OsPT6:1 was able to complement the Pi uptake function of yeast cells with high-affinity phosphate transporters de- ficient.Those results substantiated our contention that OsPT6:1 encoded a high-affinity phosphate transporter of Oryza sativa.     

Isolation, characterization and expression analysis of a leaf-specific phosphoenolpyruvate carboxylase gene in Oryza sativa.

Suppression subtractive hybridization was carried out to enrich gene fragments over-expressed in rice leaves by subtraction to rice roots, from which two identical cDNA fragments were identified to encode putative phosphoenolpyruvate carboxylase. Then the corresponding full-length cDNA (Osppc) is isolated by RT-PCR and sequenced, which indicates an open reading frame of 2895bp is contained. Its deduced protein is encoded in 10 exons and shows high similarity to many other plant PEPCs. Comparing with maize and bacterial PEPCs, it is revealed that OSPPC shares many conserved domains and active sites that responsible for the structure, activity and regulation of this enzyme. Phylogenetic analysis demonstrates that OSPPC is grouped with C3 form PEPCs of wheat, maize and sorghum, which is consistent with the classification of rice. And a putative promoter element is predicted with DOF binding box, CAAT box and TATA box in the 5'-flanking sequence of Osppc gene. Moreover, Quantitative RT-PCR analyses are performed in hybrid rice and its parents, which show that Osppc is specifically expressed in leaf including leaf vein and sheath.