Genetic characterization of <Emphasis Type="Italic">Perna viridis</Emphasis> L. in peninsular Malaysia using microsatellite markers

A total of 19 polymorphic microsatellite loci were used to analyse levels of genetic variation for 10 populations of Perna viridis L. collected from all over peninsular Malaysia. The populations involved in this study included Pulau Aman in Penang, Tanjung Rhu in Kedah, Bagan Tiang in Perak, Pulau Ketam in Selangor, Muar, Parit Jawa, Pantai Lido and Kampung Pasir Puteh in Johore, and Kuala Pontian and Nenasi in Pahang state. The number of alleles per locus ranged from two to seven, with an average of 3.1. Heterozygote deficiencies were observed across all the 10 populations. Characterization of the populations revealed that local populations of P. viridis in peninsular Malaysia were genetically similar enough to be used as a biomonitoring agent for heavy metal contamination in the Straits of Malacca. Cluster analysis grouped the P. viridis populations according to their geographical distributions with the exception of Parit Jawa. The analysis also revealed that P. viridis from the northern parts of peninsular Malaysia were found to be the most distant populations among the populations of mussels investigated and P. viridis from the eastern part of peninsular Malaysia were closer to the central and southern populations than to the northern populations.     

Structure and Catalytic Mechanism of the Thioesterase CalE7 in Enediyne Biosynthesis

The biosynthesis of the enediyne moiety of the antitumor natural product calicheamicin involves an iterative polyketide synthase (CalE8) and other ancillary enzymes. In the proposed mechanism for the early stage of 10-membered enediyne biosynthesis, CalE8 produces a carbonyl-conjugated polyene with the assistance of a putative thioesterase (CalE7). We have determined the x-ray crystal structure of CalE7 and found that the subunit adopts a hotdog fold with an elongated and kinked substrate-binding channel embedded between two subunits. The 1.75-Å crystal structure revealed that CalE7 does not contain a critical catalytic residue (Glu or Asp) conserved in other hotdog fold thioesterases. Based on biochemical and site-directed mutagenesis studies, we proposed a catalytic mechanism in which the conserved Arg³⁷ plays a crucial role in the hydrolysis of the thioester bond, and that Tyr²⁹ and a hydrogen-bonded water network assist the decarboxylation of the β-ketocarboxylic acid intermediate. Moreover, computational docking suggested that the substrate-binding channel binds a polyene substrate that contains a single cis double bond at the C4/C5 position, raising the possibility that the C4=C5 double bond in the enediyne moiety could be generated by the iterative polyketide synthase. Together, the results revealed a hotdog fold thioesterase distinct from the common type I and type II thioesterases associated with polyketide biosynthesis and provided interesting insight into the enediyne biosynthetic mechanism.Enediyne natural products represent a family of structurally unique secondary metabolites with potent antitumor and antibiotic activities. Based on the structure of the bicyclic enediyne core, enediyne natural products are categorized into two groups with either a 9- or 10-membered enediyne moiety (1, 2). The antitumor activity of enediyne natural products derives from their capacity to induce chromosomal DNA cleavage through an oxidative radical mechanism (3). The biosynthetic mechanism for the enediyne moiety has been, however, elusive despite clues gleaned from early isotope-feeding experiments (4, 5). Pioneering genetic studies of the biosynthesis of calicheamicin and C-1027 from two research groups yielded major insights into the biosynthetic pathways, suggesting that an iterative polyketide synthase (PKS)5 plays a central role in the assembly of both the 9- and 10-membered enediyne moieties (6, 7). The gene clusters also contain open reading frames encoding hypothetical proteins for the downstream processing of the PKS product. The involvement of similar genes in enediyne biosynthesis was later confirmed for neocarzinostatin, maduropeptin, dynemicin, and several putative enediyne natural products in soil and marine microorganisms (8–11). Recently, based on the study on the 9-membered enediyne-containing C-1027, Shen and coworkers found that the iterative PKS (SgcE) and the putative thioesterase (SgcE10) generated a conjugated polyene (1,3,5,7,9,11,13-pentadecaheptaene) through an ACP-tethered 3-hydroxy-4,6,8,10,12,14-hexadecahexaene intermediate during co-expression in Escherichia coli (12). The release of the product catalyzed by the putative thioesterase SgcE10 presumably occurs through a combination of hydrolysis, decarboxylation, and dehydration steps. Recent biochemical studies of the iterative PKS (CalE8) from the biosynthetic pathway of calicheamicin also provided insight into the early steps of 10-membered enediyne biosynthesis (13, 14). It was observed that CalE8 produced a linear carbonyl-conjugated polyene (3,5,7,9,11,13-pentadecen-2-one (1)) with the assistance of the putative thioesterase CalE7 (Fig. 1). The putative biosynthetic intermediate 1 was proposed to derive from a 16-carbon-long β-ketocarboxylic intermediate tethered to CalE8 (13). Given the loss of one carbon unit during product release, a decarboxylation process was speculated to occur following the hydrolysis of the thioester bond.Open in a separate windowFIGURE 1.Calicheamicin and its biosynthesis. A, structure of calicheamicin γ′₁ with the incorporated acetate units in the 10-membered enediyne moiety highlighted in bold sticks. B, early steps of the biosynthetic pathway of the 10-membered enediyne as proposed by Kong et al. (13). The incorporated acetate units are highlighted in bold sticks with the configuration of the double bonds in the intermediates arbitrarily assigned. (AT, acyl transferase; KS, ketoacyl synthase; ACP, acyl carrier protein; KR, ketoreductase; DH, dehydratase; and PPTase, phosphopantetheinyl transferase.).Polyketide and non-ribosomal peptide synthesis generally involves the so-called type I and type II thioesterases for the release of final product or removal of aberrant products. Type I thioesterases (TE I) are cis-acting domains fused to the C terminus of the most downstream module of PKS or non-ribosomal peptide synthase for the release and cyclization of the final product (15, 16). By contrast, type II thioesterases (TE II) are discrete proteins responsible for the trans hydrolytic release of aberrant products (17–19). TE II proteins are structurally and evolutionarily related to a family of well known α/β hydrolase that contain 240–260 residues (20). A common serine esterase motif GXSXG and another downstream motif GXH are conserved in TE II proteins (21, 22). The stand-alone 146-amino acid-containing CalE7 does not belong to the TE II family, because it is neither an α/β fold hydrolase nor a protein containing the two conserved motifs for TE II. Instead, CalE7 shares moderate sequence homology with a family of hotdog fold proteins characterized by a long central α-helix packed against a five-stranded anti-parallel β-sheet. Such hotdog fold proteins include many characterized and hypothetical thioesterases that use acyl CoA as substrates (23). The three-dimensional structure and substrate specificity of several hotdog fold thioesterases have been determined, including YbgC from Helicobacter pylori (24), Paal from E. coli (25), HB8 from Thermos thermophilis (26), FcoT from Mycobacterium tuberculosis (27), YciA from Haemophilus influenzae (28), human THEM2 (25) and 4-hydroxylbenzoyl-CoA thioesterases (4-HBT) from Pseudomonas sp. Strain CBS and Arthrobacter sp. strain SU (29–31). Despite their diverse specificity toward acyl substrates (23, 25), all known hotdog fold thioesterases catalyze the hydrolysis of thioester bond using a Glu/Asp residue as nucleophile or general-base catalyst with the exception of FcoT (27). Here we present structural and biochemical data showing that CalE7 does not contain an acidic residue in its active site and is thus likely to utilize a different catalytic mechanism. The results also suggest that CalE7 facilitates a subsequent decarboxylation step to yield the carbonyl-conjugated polyene (1). Hence, the results introduce a hotdog fold thioesterase with a novel product-releasing mechanism in comparison with the traditional type I and II thioesterases associated with the biosynthesis of polyketide natural products. Furthermore, the crystal structure revealed a kinked substrate-binding channel that is predicted to bind a cis-double bond-containing polyene substrate, raising the possibility that CalE8 is able to generate a cis-double bond.     

云南省甲基苯丙胺等新型毒品滥用群体性特征分析及思考

部分甲基苯丙胺等新型毒品滥用群体的情况进行分析,就其群体性特征与传统毒品滥用群体特征作分析比较,提出新型毒品滥用的四个群体性特征:(1)年龄"低龄化";(2)滥用"群体化";(3)职业"多样化";(4)群体"转换化".该研究有助于新型毒品滥用的预防和控制工作,同时使我们的工作更具有针对性和实效性.     

Crystal structure of the MH2 domain of Drosophila Mad

The decapentaplegic(Dpp), a member of the TGF-β superfamily, plays a pivotal role in the control of proliferation, global patterning and induction of specific cell fates during Drosophila development. Mother against Dpp(Mad) is the founding member of the conserved Smad protein family which specifically transduces the intracellular TGF-β signaling cascade. Here we report the 2.80 Å structure of the MH2 domain of Mad(Mad-MH2) that was readily superposed to the mammal Smad-MH2 structures. This unphosphorylated Mad-MH2 forms a symmetric homotrimer in crystals, consistent with the result of the size-exclusion chromatography that Mad-MH2 exhibited a propensity for concentration-dependent oligomerization prior to phosphorylation. Structural analysis revealed that the formation of homotrimeric Mad-MH2 is mainly mediated by contacts involving the extreme C-terminal SSVS motif, and is strengthened by phosphorylation of the last two Ser residues which was confirmed by the gel filtration analysis of the pseudophosphorylated Mad-MH2(DVD). Intriguingly, the homotrimer within an asymmetric unit only possesses two ordered C-terminal tails, reminiscent of the arrangement of the R-Smad/Smad4 complexes, indicating that the subunit with a flexible SSXS motif would be readily replaced by Co-Smad to form a functional heterotrimer.     

Isolation and characterization of microsatellite loci in the western pearlshell mussel, Margaritifera falcata (Gould)

Ten microsatellite loci were isolated from the western pearlshell, Margaritifera falcata (Gould, 1850) and characterized in populations from Washington and Montana, USA. We also assessed eight microsatellite loci developed in M. margaritifera, two of which showed utility. Both of our test populations showed significant heterozygote deficiencies at most loci, consistent with a hermaphroditic life history. Populations differed markedly with respect to allelic richness, allele frequencies and numbers of identical multilocus genotypes. This panel of loci should prove useful in describing gene flow and genetic diversity patterns among M. falcata populations, information that should aid future conservation efforts.     

2007年中国植物科学若干领域重要研究进展

2007年在中国整体科研实力迅猛增长的大背景下,我国植物科学研究继续呈现飞跃发展的态势,更加高产,与世界的联系也更加广泛。这不仅仅反映在大量发表在国际主流刊物的原创性研究论文上,而且中国科学家在国际相关研究领域的影响力也日益增强。如华中农业大学张启发院士当选为美国国家科学院外籍院士,     

D-天冬酰胺和D-高丝氨酸的制备研究

在以L-天冬氨酸为原料制备D-天冬氨酸的基础上,设计了D-天冬酰胺和D-高丝氨酸的合成新方法。即以L-天冬氨酸为原料,经酯化、消旋、拆分后得到D-天冬氨酸甲酯;D-天冬氨酸甲酯盐酸盐氨解、精制可得到D-天冬酰胺,总收率为49.9%,光学纯度达到99%以上;由D-天冬氨酸甲酯经还原、精制可得到D-高丝氨酸,总收率为64.7%,旋光纯度达到99%以上。     

Norepinephrine-dependently released Dr fimbriae of diffusely adhering Escherichia coli strain IH11128 promotes a mitogen-activated protein kinase ERK1/2-dependent production of pro-inflammatory cytokine, IL-8 in human intestinal Caco-2/TC7 cells

The diffusely adhering Escherichia coli (Afa/Dr DAEC) are associated with recurrent urinary tract infections in adults as well as with diarrheal disease in infants. We previously demonstrated that in wild-type strain IH11128, the Dr fimbriae is released in the extracellular medium in response to multiple environmental signals such as temperature, low aeration and rich medium. A number of molecules of eukaryotic origin, such as catecholamines, have been reported to stimulate bacterial growth and virulence factor production. We show that norepinephrine affects the production and release of Dr fimbriae in Afa/Dr DAEC WT-IH11128 bacteria. The regulatory mechanism involved with norepinephrine-induced Dr fimbriae liberation was apparently due to a differential induction of genes draC, encoding the usher, and draE, encoding the major fimbrial subunit. In addition, we show that the released Dr fimbriae induces the phosphorylation of the mitogen-activated protein kinase, extracellular signal-regulated kinase 1/2 (ERK1/2) and the production of the pro-inflammatory cytokine, IL-8 in fully differentiated cultured human intestinal Caco-2/TC7 cells.