粤北地区的抗肿瘤药用真菌资源研究

调查和统计了粤北地区具有抗肿瘤活性的药用真菌种类。结果发现有75种药用真菌具有抗肿瘤作用,为合理开发利用该地区的药用真菌资源提供了依据。     

碳源和氮源对彩绒革盖菌液体发酵合成漆酶的影响

研究了碳源、氮源对彩绒革盖菌液体发酵合成漆酶的影响。结果表明,在所选的几种碳、氮源中,麸皮为试验菌株合成漆酶的较好碳源;酵母浸膏、酒石酸铵、蛋白胨均是比较理想的氮源。不同的碳氮比对彩绒革盖菌漆酶的产量有着显著的影响,高碳高氮是其生产漆酶的最佳条件。在适宜的培养条件下该菌株能合成高活力的漆酶,其酶活力可达298 U/mL以上,产酶周期为6~7 d。     

多肽∶N-寡糖酶在小鼠人工隐睾中表达下调

真核多肽∶N-寡糖酶（peptide∶N-glycanase或PNGase）可切除错误折叠糖蛋白上的N-寡糖链,并可与内质网关联降解（endoplasmic reticulum-associated degradation, ERAD）途径中的多种关键成分相结合.然而,对于PNGase的生理功能及其与疾病的关系尚无明确报道.本研究利用重组技术表达和纯化了包含人PNGase N末端片段的融合蛋白,并经融合蛋白免疫与亲和层析纯化家兔抗血清,制备了PNGase的特异性抗体.利用该抗体和Western 印迹技术研究了PNGase在小鼠组织中的表达.结果显示PNGase在7种小鼠组织（脑、心、肺、肝、脾、肾、睾丸）中均有不同程度的表达,其中表达量最高者为睾丸;PNGase表达水平在不同品系小鼠（C57BL/6N、BALB/cAnN和昆明小鼠）间有显著差异.在小鼠单侧隐睾模型中首次观察到,与对照侧阴囊内的正常睾丸相比,隐睾内PNGase含量明显下降,提示PNGase在睾丸生精过程中可能有重要作用.     

Arabidopsis irregular xylem8 and irregular xylem9: implications for the complexity of glucuronoxylan biosynthesis

Mutations of Arabidopsis thaliana IRREGULAR XYLEM8 (IRX8) and IRX9 were previously shown to cause a collapsed xylem phenotype and decreases in xylose and cellulose in cell walls. In this study, we characterized IRX8 and IRX9 and performed chemical and structural analyses of glucuronoxylan (GX) from irx8 and irx9 plants. IRX8 and IRX9 are expressed specifically in cells undergoing secondary wall thickening, and their encoded proteins are targeted to the Golgi, where GX is synthesized. 1H-NMR spectroscopy showed that the reducing end of Arabidopsis GX contains the glycosyl sequence 4-beta-D-Xylp-(1-->4)-beta-D-Xylp-(1-->3)-alpha-L-Rhap-(1-->2)-alpha-D-GalpA-(1-->4)-D-Xylp, which was previously identified in birch (Betula verrucosa) and spruce (Picea abies) GX. This indicates that the reducing end structure of GXs is evolutionarily conserved in woody and herbaceous plants. This sequence is more abundant in irx9 GX than in the wild type, whereas irx8 and fragile fiber8 (fra8) plants are nearly devoid of it. The number of GX chains increased and the GX chain length decreased in irx9 plants. Conversely, the number of GX chains decreased and the chain length heterodispersity increased in irx8 and fra8 plants. Our results suggest that IRX9 is required for normal GX elongation and indicate roles for IRX8 and FRA8 in the synthesis of the glycosyl sequence at the GX reducing end.     

Isolation and expression of GA 2-oxidase2 in tomato.

GA 2-oxidases, a key enzyme involves GA biosynthesis, catalyze the degradation of active C(19)-Gibberellins (GAs) through 2-hydroxylation yields inactive GA product. Searching public tomato database, the putative GA2ox2 sequences were assembled. We isolated a full-length GA2ox2 cDNA with primers designed from the assembled sequence. This gene was designed as SlGA2ox2 (GenBank accession No. EF017805). The full-length GA2ox2 gene contained a complete open reading frame (ORF) of 1203 bp, which encoded 322 amino acid residues. Amino acid sequence homology analysis of SlGA2ox2 showed an 88% identity with NtGA2ox2 in tobacco. And alignments of SlGA2ox2 with other known GA2ox from Arabidopsis, Pea, Adzuki Bean, Winter Squash etc indicate low similarity of 47-70%. Semi-quantitative RT-PCR analysis showed a specific expression profile of SlGA2ox2 in different tissues, which mainly expressed in flowers and traces were detected in roots, stems, leaves and immature fruits.     

Expression, purification, and characterization of recombinant human soluble BAFF secreted from the yeast Pichia pastoris

The B lymphocyte stimulator (BAFF) is a novel member of the tumor necrosis factor (TNF) ligand family which is important in B lymphocyte maturation and survival. Herein, the cDNA coding for the extracellular domain of the BAFF (hsBAFF) has been cloned into the secreting expression organism Pichia pastoris. SDS-PAGE and Western blotting assays of culture broth from a methanol-induced expression strain demonstrated that recombinant hsBAFF, a 20.2 kDa glycosylated protein, was secreted into the culture medium. The recombinant protein was purified to greater than 95% using DEAE-Sepharose ion exchange and Superdex 75 size-exclusion chromatography steps. Finally, 102 mg of the protein was obtained in high purity from 1 L of the supernatant and its identity to hsBAFF was confirmed by NH(2)-terminal amino acid sequence analysis Bioactivity of the recombinant hsBAFF was confirmed by the ability of the protein to stimulate human B lymphocyte proliferation in vitro. Our results suggest that the P. pastoris expression system can be used to produce large quantities of fully functional hsBAFF for both research and industrial purpose.     

Geranylgeranyl diphosphate synthase in fission yeast is a heteromer of farnesyl diphosphate synthase (FPS), Fps1, and an FPS-like protein, Spo9, essential for sporulation

Both farnesyl diphosphate synthase (FPS) and geranylgeranyl diphosphate synthase (GGPS) are key enzymes in the synthesis of various isoprenoid-containing compounds and proteins. Here, we describe two novel Schizosaccharomyces pombe genes, fps1(+) and spo9(+), whose products are similar to FPS in primary structure, but whose functions differ from one another. Fps1 is essential for vegetative growth, whereas, a spo9 null mutant exhibits temperature-sensitive growth. Expression of fps1(+), but not spo9(+), suppresses the lethality of a Saccharomyces cerevisiae FPS-deficient mutant and also restores ubiquinone synthesis in an Escherichia coli ispA mutant, which lacks FPS activity, indicating that S. pombe Fps1 in fact functions as an FPS. In contrast to a typical FPS gene, no apparent GGPS homologues have been found in the S. pombe genome. Interestingly, although neither fps1(+) nor spo9(+) expression alone in E. coli confers clear GGPS activity, coexpression of both genes induces such activity. Moreover, the GGPS activity is significantly reduced in the spo9 mutant. In addition, the spo9 mutation perturbs the membrane association of a geranylgeranylated protein, but not that of a farnesylated protein. Yeast two-hybrid and coimmunoprecipitation analyses indicate that Fps1 and Spo9 physically interact. Thus, neither Fps1 nor Spo9 alone functions as a GGPS, but the two proteins together form a complex with GGPS activity. Because spo9 was originally identified as a sporulation-deficient mutant, we show here that expansion of the forespore membrane is severely inhibited in spo9Delta cells. Electron microscopy revealed significant accumulation membrane vesicles in spo9Delta cells. We suggest that lack of GGPS activity in a spo9 mutant results in impaired protein prenylation in certain proteins responsible for secretory function, thereby inhibiting forespore membrane formation.     

Cloning,characterization, and transformation of the phosphoethanolamine <Emphasis Type="Italic">N</Emphasis>-methyltransferase gene (<Emphasis Type="Italic">ZmPEAMT1</Emphasis>) in maize (<Emphasis Type="Italic">Zea mays</Emphasis> L.)

N-methylation of phosphoethanolamine, the committing step in choline (Cho) biosynthesis in plants, is catalyzed by S-adenosyl-l-methionine: phosphoethanolamine N-methyltransferase (PEAMT, EC 2.1.1.103). Herein we report the cloning and characterization of the novel maize phosphoethanolamine N-methyltransferase gene (ZmPEAMT1) using a combination of bioinformatics and a PCR-based allele mining strategy. The cDNA sequence of ZmPEAMT1 gene is 1,806 bp in length and translates a 495 amino acids peptide. The upstream promoter sequence of ZmPEAMT1 were obtained by TAIL-PCR, and contained four kinds of putative cis-acting regulatory elements, including stress-responsive elements, phytohormone-responsive elements, pollen developmental special activation elements, and light-induced signal transduction elements, as well as several other structural features in common with the promoter of rice and Arabidopsis homologies. RT-PCR analysis showed that expression of ZmPEAMT1 was induced by salt stress and suppressed by high temperature. Over-expression of ZmPEAMT1 enhanced the salt tolerance, root length, and silique number in transgenic Arabidopsis. These data indicated that ZmPEAMT1 maybe involved in maize root development and stress resistance, and maybe having a potential application in maize genetic engineering. Note: Nucleotide sequence data are available in GenBank under the following accession numbers: maize (Zea mays, ZmPEAMT1, AY626156; ZmPEAMT2, AY103779); rice (Oryza sativa, OsPEAMT1/Os01g50030, NM_192178; OsPEAMT2/Os05g47540, XM_475841); wheat (Triticum aestivum, TaPEAMT, AY065971); Arabidopsis (Arabidopsis thaliana, AtNMT1/At3g18000, AY091683; AtNMT2/At1g48600, NM_202264; AtNMT3/At1g73600, NM_106018); oilseed rape (Brassica napus, BnPEAMT, AY319479), tomato (Lycopersicon esculentum, AF328858), spinach (Spinacia oleracea, AF237633).     

Ginsenosides promote proliferation of chicken primordial germ cells via PKC-involved activation of NF-kappaB

The effect of ginsenosides on proliferation of chicken primordial germ cells (PGCs) was evaluated and involvement of nuclear factor (NF)-kappaB in the signaling pathway was investigated. PGCs were isolated from the genital ridge of 3.5-4 day embryos and cultured in Medium 199 supplemented with 5% FCS and 10 ng/ml LIF. PGCs subcultured on chicken embryonic fibroblast feeder were challenged with ginsenosides alone or in combination with PKC inhibitor H(7) or activator phorbol 12-myristate 13-acetate (PMA) for 24h. Moreover, the translocation of NF-kappaB and degradation level of IkappaBalpha were investigated by Western blot analysis. Results show that PGCs were identified by periodic acid-Schiff, alkaline phosphatase histochemistry as well as c-kit, SSEA-1 and Oct-4 immunocytochemistry. Treatment with ginsenosides at 1-100 microg/ml significantly increased the number and area of PGC colonies in a dose-dependent manner. However, this proliferating effect was obviously attenuated by combined treatment of H(7) (10(-7)-10(-5)M). Similarly, PKC staining of PGC colonies was more intensive after ginsenosides treatment compared with the control group. In addition, treatment with ginsenosides at 1-10 microg/ml stimulated the translocation of NF-kappaB (p65). However, the NF-kappaB translocation and the degradation of IkappaBalpha were significantly blocked by combined treatment with 10(-6)M H(7). These results indicated that ginsenosides promote proliferation of chicken PGCs through activation of PKC-involved NF-kappaB signaling pathway.