Cloning and biochemical properties of CDPK gene OsCDPK14 from rice

A rice CDPK gene, OsCDPK14 (AY144497), was cloned from developing caryopses of rice (Oryza sativa cv. Zhonghua 15). Its cDNA sequence (1922 bp) contains an ORF encoding a 514 amino acids protein (56.7kD, pl 5.18). OsCDPK14 shows the typical structural features of the CDPK family, including a conserved catalytic Ser/Thr kinase domain, an autoinhibitory domain and a CaM-like domain with four putative Ca2+-binding EF hands. Subcellular targeting indicated that OsCDPK14 was located in the cytoplasm, probably due to the absence of myristoylation and palmitoylation motifs. OsCDPK14 was expressed in Escherichia coli and purified from bacterial extracts. The recombinant protein was shown to be a functional protein kinase using Syntide-2, a synthetic peptide. Kinase activity was shown to be Ca2+-dependent, and this activation was strongly enhanced by Mn2+ and inhibited by W7 in vitro. These results provide significant insights into the regulation and biochemical properties of OsCDPK14, suggesting OsCDPK14 may be a signal factor of cytoplasm in rice plant.     

Calcium signaling-mediated and differential induction of calmodulin gene expression by stress in Oryza sativa L

Ca(2+)/calmodulin transduction pathways have been implicated in mediating stress response and tolerance in plants. Here, three genes encoding calmodulin (Cam) members of the EF-hand family of Ca(2+)-binding proteins were identified from Oryza sativa L. databases. Complementary DNA for each of the calmodulin genes, OsCam1, OsCam2, and OsCam3 were sequenced. OsCam1 and OsCam2 encode a conventional 148-amino acid calmodulin protein that contains four characteristic Ca(2+)-binding motifs. OsCam3 encode a similar protein with a 38-amino-acid extension containing a putative prenylation site (CVIL) at the carboxyl terminus. RT-PCR showed that each of the genes is expressed in leaves and roots of 2-week old rice seedlings. By RNA gel blot analysis, OsCam1 mRNA levels strongly increased in response to NaCl, mannitol and wounding treatments. In contrast, OsCam2 mRNA levels were relatively unchanged under all conditions investigated. NaCl treatment and wounding also increased the OsCam3 mRNA level, but in a more transient manner. Our results indicate that although the expression of genes encoding different calmodulin isoforms is ubiquitous, they are differentially regulated by various stress signals. In addition, we have demonstrated that the calcium-channel blocker lanthanum chloride inhibited the induction of OsCam1 gene expression by both NaCl and mannitol treatments. These results suggest that osmotic stressinduced expression of OsCam1 gene requires the [Ca(2+)]cyt elevation that is known to occur in response to these stimuli.     

氮磷饥饿诱导的水稻糖转运体基因的cDNA克隆和鉴定

运用快速扣除杂交 (RaSH)方法构建了水稻氮饥饿诱导的cDNA文库。从该文库获得了一个cDNA克隆OsNSI1 (Oryzasativanitrogenstarva tion inducible 1 )。该全长cDNA编码 5 77个氨基酸 ,蛋白分子量为 6 1 .2kD。推测得出的氨基酸序列与其他物种的糖转运体有很高的同源性。水合性分析表明OsNSI1包含有 1 2个跨膜区域和一个中心亲水环。这些数据提示OsNSI1是一个糖转运体蛋白。Southern印迹分析表明OsNSI1是一个单拷贝基因。Northern印迹分析表明OsNSI1主要在叶及根中表达 ,氮、磷饥饿能强烈诱导其表达增强     

Molecular Cloning of Testican-2

We have screened a human cDNA library using an expressed sequence tag related to the BM-40/secreted protein, acidic and rich in cysteine (SPARC)/osteonectin family of proteins and isolated a novel cDNA. It encodes a protein precursor of 424 amino acids that consists of a signal peptide, a follistatin-like domain, a Ca2+-binding domain, a thyroglobulin-like domain, and a C-terminal region with two putative glycosaminoglycan attachment sites. The protein is homologous to testican-1 and was termed testican-2. Testican-1 is a proteoglycan originally isolated from human seminal plasma that is also expressed in brain. Northern blot hybridization of testican-2 showed a 6.1-kb mRNA expressed mainly in CNS but also found in lung and testis. A widespread expression in multiple neuronal cell types in olfactory bulb, cerebral cortex, thalamus, hippocampus, cerebellum, and medulla was detected by in situ hybridization. A recombinant fragment consisting of the Ca2+-binding EF-hand domain and the thyroglobulin-like domain of testican-2 showed a reversible Ca2+-dependent conformational change in circular dichroism studies. Testican-1 and -2 form a novel Ca2+-binding proteoglycan family built of modular domains with the potential to participate in diverse steps of neurogenesis.     

Expression of the Ca2+-binding protein, parvalbumin, during embryonic development of the frog, Xenopus laevis

A cDNA segment encoding the Ca2+-binding protein, parvalbumin, was isolated with the use of antibodies, from a lambda gtll expression library of Xenopus laevis tadpole poly(A)+ RNAs. The bacterially expressed beta-galactosidase-parvalbumin fusion protein of one lambda recombinant shows high affinity 45Ca2+ binding. The sequence of the tadpole parvalbumin is highly similar to previously characterized beta-parvalbumins of other organisms. Data from protein and RNA blotting experiments demonstrate that parvalbumin is absent in oocytes, eggs, and early staged embryos, and only becomes expressed during embryogenesis at the time of myogenesis. The protein can be detected in individual developing muscle cells and in muscle fibers of tadpole tail muscles. A simple method is also described for the isolation of neural tube-notochord-somite complexes from Xenopus embryos.     

Molecular cloning and characterization of a cDNA encoding proline transporter in rice

A cDNA encoding a proline (Pro) transporter (ProT) was isolated and characterized from a cDNA library prepared from 14-d-old seedlings of Oryza sativa cv. Akibare. The deduced amino acid sequence of the rice ProT protein (OsProT) had 68.8% homology to the ProT protein 1 from Arabidopsis thaliana and 59.6% homology to that from Lycopersicon esculentum. Northern blot analysis revealed that the gene for OsProT (OsProT) was expressed in all organs examined, comparatively strongly in leaf sheath and stem. Salt treatment did not induce expression of OsProT but strongly induced expression of the gene for delta1-pyrroline-5-carboxylate synthetase (P5CS), a key enzyme in Pro biosynthesis. Southern blot analysis revealed that OsProT has a gene family. OsProT specifically transported L-Pro in a transport assay using Xenopus laevis oocytes.     

Lymphocyte-specific Ca2+-binding protein LSP1 is associated with the cytoplasmic face of the plasma membrane.

The gene for LSP1 is a lymphocyte-specific gene previously isolated by us using a subtractive hybridization technique. LSP1 mRNA is found in normal and transformed B lymphocytes and in normal T lymphocytes but not in transformed T lymphocytes. To study the expression of the mouse LSP1 protein, we prepared a polyclonal antiserum specific for the LSP1 protein. Here we report that the gene for LSP1 was expressed in transformed B-lymphoma cell lines and in normal mouse thymocytes as a protein doublet with apparent molecular masses of 52 and 50.5 kilodaltons when analyzed on a sodium dodecyl sulfate-10% polyacrylamide gel. BW5147 cells transfected with an LSP1 cDNA clone expressed only the 52-kilodalton protein. No LSP1 protein was expressed in nine T-lymphoma cell lines tested. Immunofluorescence studies of intact and permeabilized cells and subcellular fractionation experiments showed that the LSP1 protein was associated with the cytoplasmic side of the plasma membrane in transformed B-lymphoma cell lines and in normal thymocytes. Using a simple filter-binding assay, we showed that recombinant LSP1 protein was Ca2+ binding, as predicted on the basis of its deduced amino acid sequence. On the basis of the particular expression pattern, the subcellular localization, and the Ca2+-binding property of the LSP1 protein, we hypothesize that the LSP1 protein is a lymphocyte-specific component of a signal transduction pathway involved in the regulation of lymphocyte growth.     

Rice plants take up iron as an Fe3+-phytosiderophore and as Fe2+

Only graminaceous monocots possess the Strategy II iron (Fe)-uptake system in which Fe is absorbed by roots as an Fe3+-phytosiderophore. In spite of being a Strategy II plant, however, rice (Oryza sativa) contains the previously identified Fe2+ transporter OsIRT1. In this study, we isolated the OsIRT2 gene from rice, which is highly homologous to OsIRT1. Real-time PCR analysis revealed that OsIRT1 and OsIRT2 are expressed predominantly in roots, and these transporters are induced by low-Fe conditions. When expressed in yeast (Saccharomyces cerevisiae) cells, OsIRT2 cDNA reversed the growth defects of a yeast Fe-uptake mutant. This was similar to the effect of OsIRT1 cDNA. OsIRT1- and OsIRT2-green fluorescent protein fusion proteins localized to the plasma membrane when transiently expressed in onion (Allium cepa L.) epidermal cells. OsIRT1 promoter-GUS analysis revealed that OsIRT1 is expressed in the epidermis and exodermis of the elongating zone and in the inner layer of the cortex of the mature zone of Fe-deficient roots. OsIRT1 expression was also detected in the ccompanion cells. Analysis using the positron-emitting tracer imaging system showed that rice plants are able to take up both an Fe3+-phytosiderophore and Fe2+. This result indicates that, in addition to absorbing an Fe3+-phytosiderophore, rice possesses a novel Fe-uptake system that directly absorbs the Fe2+, a strategy that is advantageous for growth in submerged conditions.     

Expression of a gene encoding mitochondrial aldehyde dehydrogenase in rice increases under submerged conditions

It is known that alcoholic fermentation is important for survival of plants under anaerobic conditions. Acetaldehyde, one of the intermediates of alcoholic fermentation, is not only reduced by alcohol dehydrogenase but also can be oxidized by aldehyde dehydrogenase (ALDH). To determine whether ALDH plays a role in anaerobic metabolism in rice (Oryza sativa L. cv Nipponbare), we characterized a cDNA clone encoding mitochondrial ALDH from rice (Aldh2a). Analysis of sub-cellular localization of ALDH2a protein using green fluorescent protein and an in vitro ALDH assay using protein extracts from Escherichia coli cells that overexpressed ALDH2a indicated that ALDH2a functions in the oxidation of acetaldehyde in mitochondria. A Southern-blot analysis indicated that mitochondrial ALDH is encoded by at least two genes in rice. We found that the Aldh2a mRNA was present at high levels in leaves of dark-grown seedlings, mature leaf sheaths, and panicles. It is interesting that expression of the rice Aldh2a gene, unlike the expression of the tobacco (Nicotiana tabacum) Aldh2a gene, was induced in rice seedlings by submergence. Experiments with ruthenium red, which is a blocker of Ca(2+) fluxes in rice as well as maize (Zea mays), suggest that the induction of expression of Adh1 and Pdc1 by low oxygen stress is regulated by elevation of the cytosolic Ca(2+) level. However, the induction of Aldh2a gene expression may not be controlled by the cytosolic Ca(2+) level elevation. A possible involvement of ALDH2a in the submergence tolerance of rice is discussed.     

A new lymphocyte-specific gene which encodes a putative Ca2+-binding protein is not expressed in transformed T lymphocyte lines

The LSP1 gene is a new lymphocyte-specific gene which is expressed in normal mouse B and T lymphocytes and in transformed B cells but not (or in much smaller amounts) in nine T lymphoma lines tested. No LSP1 mRNA is found in myeloid cells or in liver, kidney, or heart tissue. Inspection of the predicted LSP1 protein sequence reveals the presence of two putative Ca2+-binding domains in the LSP1 protein. Southern blotting analysis of genomic DNA from mouse liver suggests that the LSP1 gene is present as one copy per haploid genome. Similar analysis of genomic DNA extracted from three transformed B cell lines and five transformed T cell lines shows that the absence of LSP1 mRNA in T cell lines is not due to deletion or gross rearrangements of the LSP1 locus. With the use of the mouse LSP1 cDNA as a probe we can detect a cross-hybridizing RNA species in four normal human functional T cell lines but not in three transformed human T cell lines. This suggests that at least part of the DNA sequence and the expression pattern of the LSP1 gene is conserved between mouse and man. These conserved features, together with the particular expression pattern and the protein sequence homologies, suggest that the LSP1 protein is involved in a Ca2+-dependent aspect of normal T cell growth.     

一种水稻酰基辅酶A结合蛋白cDNA的鉴定(英文)

对一水稻ｃＤＮＡ 克隆（Ｒ１９０８） 的分析表明, 其可能编码水稻酰基辅酶Ａ 结合蛋白（ａｃｙｌＣｏＡｂｉｎｄｉｎｇ ｐｒｏｔｅｉｎ,ＡＣＢＰ）。Ｓｏｕｔｈｅｒｎ 杂交显示水稻（ Ｏｒｙｚａ ｓａｔｉｖａ Ｌ．） 基因组中仅有一个该基因的拷贝。Ｎｏｒｔｈｅｒｎ 分析表明水稻的ＡＣＢＰ基因在水稻的根、茎、叶、叶鞘、黄化苗和幼穗中皆表达,而以黄化苗的绿苗叶鞘中的表达强度高于绿苗叶片。     

Characterization and hetereologous expression of cDNAs encoding two novel closely related Ca(2+)-binding proteins in Dictyostelium discoideum

During a yeast two hybrid screen of a Dictyostelium cDNA library using the Ca(2+)-binding protein CBP1 as bait, we isolated a full-length cDNA encoding a novel Ca(2+)-binding protein (termed CBP4a). The protein is composed of 162 amino acids and contains four consensus EF-hands. PCR amplification of Dictyostelium genomic DNA using primers specific for the cDNA sequence resulted in the isolation of a gene encoding a different Ca(2+)-binding protein of 162 amino acids (designated CBP4b) with 90% amino acid sequence identity to CBP4a. Southern blot analysis confirmed the presence of two closely related genes in the Dictyostelium genome. CBP4a and CBP4b mRNAs are expressed at the same stages of development as CBP1 mRNA. In addition, both novel proteins bind (45)Ca(2+) and interact with CBP1 in vitro in a Ca(2+)-dependent manner.     

Ca2+-binding proteins in nuclei

Nuclei isolated from skeletal muscle of 15-day-old chick embryos, adult chickens, rabbits and from rat liver contain on the average 8-18 nmol Ca2+/mg protein. Digestion of nuclei with DNAase I and RNAase at 37 degrees C for 8--12 h reduced the Ca2+ binding by more than 90%. After nuclease treatment, Ca2+-binding proteins were identified in the nonhistone chromosomal protein fractions and in the insoluble residue by equilibrium dialysis and centrifuge transport, in media of 0.1 M KCl and 1 mM MgCl2. The interaction of Ca2+-binding proteins with chromatin may be of importance in the regulation of the gene expression in response to changes in cytoplasmic and nucleoplasmic free-Ca2+ concentration.     

Mlo, a modulator of plant defense and cell death, is a novel calmodulin-binding protein. Isolation and characterization of a rice Mlo homologue

Transient influx of Ca(2+) constitutes an early event in the signaling cascades that trigger plant defense responses. However, the downstream components of defense-associated Ca(2+) signaling are largely unknown. Because Ca(2+) signals are mediated by Ca(2+)-binding proteins, including calmodulin (CaM), identification and characterization of CaM-binding proteins elicited by pathogens should provide insights into the mechanism by which Ca(2+) regulates defense responses. In this study, we isolated a gene encoding rice Mlo (Oryza sativa Mlo; OsMlo) using a protein-protein interaction-based screening of a cDNA expression library constructed from pathogen-elicited rice suspension cells. OsMlo has a molecular mass of 62 kDa and shares 65% sequence identity and scaffold topology with barley Mlo, a heptahelical transmembrane protein known to function as a negative regulator of broad spectrum disease resistance and leaf cell death. By using gel overlay assays, we showed that OsMlo produced in Escherichia coli binds to soybean CaM isoform-1 (SCaM-1) in a Ca(2+)-dependent manner. We located a 20-amino acid CaM-binding domain (CaMBD) in the OsMlo C-terminal cytoplasmic tail that is necessary and sufficient for Ca(2+)-dependent CaM complex formation. Specific binding of the conserved CaMBD to CaM was corroborated by site-directed mutagenesis, a gel mobility shift assay, and a competition assay with a Ca(2+)/CaM-dependent enzyme. Expression of OsMlo was strongly induced by a fungal pathogen and by plant defense signaling molecules. We propose that binding of Ca(2+)-loaded CaM to the C-terminal tail may be a common feature of Mlo proteins.     

Molecular characterization and expression profile of a novel porcine gene differentially expressed in the muscle and backfat tissues from Chinese Meishan and Russian Large White pigs

The mRNA differential display technique was performed to investigate the differences of gene expression in the longissimus dorsi muscle and backfat tissues from Chinese Meishan and Russian Large White pigs. One novel gene that was differentially expressed was identified through semi-quantitative RT-PCR and the cDNA complete sequence was then obtained using the rapid amplification of cDNA ends (RACE) method. The cDNA sequence of this gene is not homologous to any of the known porcine genes. The sequence prediction analysis revealed that the open reading frame of this gene encodes a protein of 402 amino acids that contains the putative conserved transposase DDE domain and further Blast analysis revealed that this protein has 100% homology with the Tn10 transposase from Oryza sativa, Serratia marcescens, and Salmonella, and therefore, this gene can be defined as the swine Tn10 transposase gene. This novel porcine gene was finally assigned to Gene ID: 100049649. The RT-PCR analysis of the tissue expression profile was carried out using the tissue cDNAs of one Meishan pig as the templates, and the result indicated that this novel swine gene is moderately expressed in fat, and weakly expressed in small intestine, liver, kidney, and spleen but almost not expressed in heart, ovary, muscle, and lung. Our experiment established the primary foundation for further research into the biological significance of swine Tn10 transposase gene.     

水稻谷蛋白GluA-2基因在小麦胚乳中的表达(英文)

水稻(Oryza sativa L.)谷蛋白(Glutelin)约占水稻储藏蛋白总量的80％,谷蛋白赖氨酸含量较高并易于被人体消化吸收。为了提高小麦(Triticum aestivum L. )的营养品质,将水稻谷蛋白GluA-2基因的cDNA序列导入小麦栽培品种Bobwhite(T. aestivum cv. Bobwhite)。共轰击了600个小麦幼胚,经PCR和Southern杂交鉴定,共获得4棵转GluA-2基因小麦;SDS-PAGE分析表明,GluA-2基因在3棵转基因植株及其后代中表达,在1棵转基因植株中未表达,但其内源的高分子量麦谷蛋白亚基Bx7和By9含量显著降低,并且可遗传至T_代。     

稻瘟病菌侵染诱导的水稻早期反应基因的cDNA片段克隆与序列分析

以稻瘟病菌感染水稻,利用ｍＲＮＡ 差异显示技术分离了稻瘟病菌侵染诱导的水稻早期反应基因ＥＲ１（ｅａｒｌｙ ｒｅｓｐｏｎｓｉｖｅ ｇｅｎｅ） 的ｃＤＮＡ 片段。Ｎｏｒｔｈｅｒｎ ｂｌｏｔ 分析表明,ＥＲ１ 基因在稻瘟病菌侵染水稻叶片６ ｈ 后开始表达,８ ｈ 最强,１０ ～１２ ｈ 开始减弱,１６ ｈ 消失。Ｓｏｕｔｈｅｒｎ ｂｌｏｔ 分析表明,ＥＲ１ 基因属于水稻基因组。对ＥＲ１ 基因片段（２１９ ｂｐ） 进行了克隆和序列分析。经查询,在ＧｅｎＢａｎｋ 中没有与ＥＲ１ 同源的基因序列。     

Expression of a gibberellin 2-oxidase gene around the shoot apex is related to phase transition in rice

A major catabolic pathway for gibberellin (GA) is initiated by 2beta-hydroxylation, a reaction catalyzed by GA 2-oxidase. We have isolated and characterized a cDNA, designated Oryza sativa GA 2-oxidase 1 (OsGA2ox1) from rice (Oryza sativa L. cv Nipponbare) that encodes a GA 2-oxidase. The encoded protein, produced by heterologous expression in Escherichia coli, converted GA(1), GA(4), GA(9), GA(20), and GA(44) to the corresponding 2beta-hydroxylated products GA(8), GA(34), GA(51), GA(29), and GA(98), respectively. Ectopic expression of the OsGA2ox1 cDNA in transgenic rice inhibited stem elongation and the development of reproductive organs. These transgenic plants were deficient in endogenous GA(1). These results indicate that OsGA2ox1 encodes a GA 2-oxidase, which is functional not only in vitro but also in vivo. OsGA2ox1 was expressed in shoot apex and roots but not in leaves and stems. In situ hybridization analysis revealed that OsGA2ox1 mRNA was localized in a ring at the basal region of leaf primordia and young leaves. This ring-shaped expression around the shoot apex was drastically decreased after the phase transition from vegetative to reproductive growth. It was absent in the floral meristem, but it was still present in the lateral meristem that remained in the vegetative phase. These observations suggest that OsGA2ox1 controls the level of bioactive GAs in the shoot apical meristem; therefore, reduction in its expression may contribute to the early development of the inflorescence meristem.