Molecular characterization and expression analysis of a gene encoding mannose-binding lectin from bulb of Zephyranthes grandiflora

In this paper we report on the molecular cloning, sequencing and partially characterisation of a lectin from bulb of the Chinese medicinal plant Zephyranthes grandiflora. The full-length cDNA of Z. grandiflora bulb lectin (ZGBL) consisted of 986 bp and contained a 576 bp ORF encoding a 191 amino acid protein. Bioinformatics analysis results clearly indicate that ZGBL belongs to the monocot mannose-binding lectin family, which contains 3 putative mannose-binding sites per subunit. RT-PCR analysis results indicate that ZGBL is constitutively expressed in all the tested tissue types including root, bulb, leaf and flower. Interestingly, ZGBL is more closely related to the Orchidaceae rather than the Amaryllidaceae family on molecular evolution.     

Optimization of induction and culture conditions and tropane alkaloid production in hairy roots of <Emphasis Type="Italic">Anisodus acutangulus</Emphasis>

In this study, an efficient transformation system for the medicinal plant Anisodus acutangulus was successfully developed and optimized using Agrobacterium rhizogenes. Three bacterial strains, A4, R1601, and modified C58C1 and three explant types, leaf blade, petiole, and stem, were examined. The highest transformation efficiency of 94.44% was achieved using strain C58C1 with stem explants. Over 20 independent hairy root lines were successfully established with strain C58C1 using stem explants, all of which contained the ro/B and ro/C genes as confirmed by polymerase chain reaction (PCR). Out of four media compositions, the liquid 1/2 MS medium was found the most suitable for hairy root growth. The maximum biomass of one hairy root line increased up to 80 times in liquid 1/2 MS medium after a 30 day culture period. Different hairy root lines displayed a varied capacity for tropane alkaloid production and the best hairy root line (T4) from the C58C1-stem combination produced up to 10.21 mg/g (dw) of hyoscyamine, which was about 1.5-fold higher than in the wild type plants. To our knowledge, this is the first report to demonstrate the production of tropane alkaloids in hairy roots of A. acutangulus.     

Molecular characterization and expression analysis of a new cDNA encoding strictosidine synthase from <Emphasis Type="Italic">Ophiorrhiza japonica</Emphasis>

A new full-length cDNA encoding strictosidine synthase (designated as OjSTR, GenBank Accession No. 1087598), which catalyzes a committed step in camptothecin biosynthetic pathway, was isolated from young leaves of Ophiorrhiza japonica for the first time. OjSTR was 1,258 bp and contained a 1,062 bp open reading frame encoding a deduced protein of 353 amino acid residues. Sequence analyses showed that OjSTR had high homology with other STRs from some TIA-producing plants. Phylogenetic tree analysis showed that OjSTR had closest relationship with STR from O. pumila. Tissue expression pattern analysis revealed that OjSTR constitutively expressed in all the tested tissues at different levels, which was high in flower, moderate in leaf and root, low in stem. Expression profiles under plant defense signals such as methyl jasmonate and salicylic acid were investigated, and the results revealed that expression of OjSTR was all induced, implying that OjSTR was high elicitor responsive.     

ARTP mutation and genome shuffling of ABE fermentation symbiotic system for improvement of butanol production

Butanol is an ideal renewable biofuel which possesses superior fuel properties. Previously, butanol-producing symbiotic system TSH06 was isolated in our lab, with microoxygen tolerance ability. To boost butanol yield for large-scale industrial production, TSH06 was used as parental strain and subjected to atmospheric and room temperature plasma (ARTP) and four rounds of genome shuffling (GS). ARTP mutant and GS strain were co-cultured with facultative anaerobic Bacillus cereus TSH2 to form a symbiotic system with microoxygen tolerance, which was then subjected to fermentation. Relative messenger RNA (mRNA) level of key enzyme gene was measured by real-time PCR. The highest butanol titer of TS4-30 reached 15.63 g/L, which was 34% higher than TSH06 (12.19 g/L). Compared with parental strain, mRNA of acid-forming gene in TS4-30 decreased in acidogenesis phase, while solvent-forming gene increased in solventogenesis phase. This gene expression pattern was consistent with high butanol yield and low acid level in TS4-30. In summary, symbiotic system TS4-30 was obtained with butanol titer improvement and microoxygen tolerance.

     

A molecular dynamics investigation into the mechanisms of material removal and subsurface damage of nanoscale high speed laser-assisted machining

Molecular dynamics is employed to study the mechanism of material removal and subsurface damage of monocrystalline silicon when it is under a nanoscale high-speed laser-assisted grinding of a diamond tip. Laser-assisted machining (LAM) is that the workpiece is locally heated by an intense laser beam before material removal. The effects of laser moving speed, laser pulse intensity and laser spot radius are thoroughly investigated in terms of atomic trajectories, phase transformation, temperature distribution, grinding temperature, grinding force and friction coefficient. The investigation shows that a higher laser moving speed reduces the subsurface damage and improves the material remove rate because of fewer atoms with five and six coordination atoms and more chips. Besides, both tangential grinding force (Fx) and normal grinding force (Fy) decrease as the laser moving speed increases. The distribution of high-temperature zone strongly depends upon the effect of laser pulse intensity and laser spot radius. Larger laser pulse intensity can make the material more fully softened before being removed. Moreover, as the laser pulse intensity becomes larger, the friction coefficients became smaller, the material remove rate improves and the depth of grinding increases. However, larger laser pulse intensity may result in a larger thermal deformation of workpiece. A larger laser spot radius reduces the grinding depth but increases the width of laser irradiation zone on machined surface. Thus, a suitable laser spot radius can improve the material removal rate. These results indicate that it is possible to control and adjust the laser parameters according to laser moving speed, laser pulse intensity and laser spot radius, and it provides a potential technology to improve a surface integrity and a smoothness of ground surface.     

拟南芥中一个未知功能蛋白的叶绿体亚细胞定位研究

生物信息学分析表明,模式植物拟南芥叶绿体中含有大约4000多种蛋白质,目前只分离得到1000多种,其他预测的叶绿体蛋白的实验验证对叶绿体功能研究有重要意义。本文对一个预测的叶绿体未知功能蛋白AT5G48790进行了亚细胞定位研究。我们克隆了该基因5端长178bp的DNA片段,与绿色荧光蛋白（GFP）基因构建重组载体pMON530-cTP-GFP。转基因植株通过激光共聚焦显微镜观察,GFP只在叶绿体中特异表达。实验结果表明,AT5G48790的确为叶绿体蛋白。本实验方法也可用于其他预测的蛋白质的实验验证。     

Molecular cloning and characterization of a new cDNA encoding hyoscyamine 6beta-hydroxylase from roots of Anisodus acutangulus

A new full-length cDNA encoding hyoscyamine 6beta-hydroxylase (designated as aah6h, GenBank Accession No. EF187826), which catalyzes the last committed step in the scopolamine biosynthetic pathway, was isolated from young roots of Anisodus acutangulus by rapid amplification of cDNA ends (RACE) for the first time. The full-length cDNA of aah6h was 1380 bp and contained a 1035 bp open reading frame (ORF) encoding a deduced protein of 344 amino acid residues. The deduced protein had an isoelectric point (pI) of 5.09 and a calculated molecular mass of about 38.7 kDa. Sequence analyses showed that AaH6H had high homology with other H6Hs isolated from some scopolamine-producing plants such as Hyoscyamus niger, Datura metel and Atropa belladonna etc. Bioinformatics analyses results indicated AaH6H belongs to 2-oxoglutarate-dependent dioxygenase superfamily. Phylogenetic tree analysis showed that AaH6H had closest relationship with H6H from A. tanguticus. Southern hybridization analysis of the genomic DNA revealed that aah6h belonged to a multi-copy gene family. Tissue expression pattern analysis firstly founded that aah6h expressed in all the tested tissues including roots, stems and leaves and indicated that aah6h was a constitutive-expression gene, which was the first reported tissue-independent h6h gene compared to other known h6h genes.     

拟南芥中一个未知功能蛋白的叶绿体亚细胞定位研究

生物信息学分析表明, 模式植物拟南芥叶绿体中含有大约4 000多种蛋白质, 目前只分离得到1 000多种, 其他预测的叶绿体蛋白的实验验证对叶绿体功能研究有重要意义。本文对一个预测的叶绿体未知功能蛋白AT5G48790进行了亚细胞定位研究。我们克隆了该基因5'端长178 bp的DNA片段, 与绿色荧光蛋白(GFP)基因构建重组载体pMON530-cTP-GFP。转基因植株通过激光共聚焦显微镜观察, GFP只在叶绿体中特异表达。实验结果表明, AT5G48790的确为叶绿体蛋白。本实验方法也可用于其他预测的蛋白质的实验验证。