番茄复三螺旋基因响应外源激素和非生物胁迫的研究

复三螺旋(double trihelix)基因在植物形态建成和植株抗逆性方面发挥关键作用。该研究以番茄自交品种AC⁺⁺为试验材料,运用生物信息学方法与qRT PCR技术对5个复三螺旋成员(SlGTL1~SlGTL5)在番茄体内不同器官的表达模式、以及基因对激素与非生物胁迫的响应进行表达分析,以探讨番茄复三螺旋基因的功能。结果表明：(1)生物信息学分析显示,番茄中含有5个复三螺旋基因(SlGTL1~SlGTL5);进化树分析表明,番茄复三螺旋基因具有物种特异性。(2)qRT PCR分析显示,番茄SlGTL3基因在根和茎中特异表达,其他4个基因均在果实中较高表达,表明不同番茄复三螺旋基因的表达具有组织特异性。(3)激素诱导表达结果显示,SlGTL1只响应ABA(1种)激素,而SlGTL5基因可响应4种激素,且速度较快。(4)非生物胁迫诱导证实,SlGTL3、SlGTL5基因可响应盐胁迫,SlGTL3~SlGTL5基因可响应极端温度,SlGTL3和SlGTL4基因可响应机械损伤;SlGTL1、SlGTL4和SlGTL5可响应脱水胁迫。研究认为,SlGTL3的功能可能与植株形态建成和非生物胁迫有关,其他4个基因的功能可能与果实的发育有关;推测SlGTL1可能与ABA信号途径有关,SlGTL5快速响应多种激素,可能位于信息传递的节点,其功能可能与信号传递有关。     

Psb30 contributes to structurally stabilise the Photosystem II complex in the thermophilic cyanobacterium Thermosynechococcus elongatus

A deletion mutant that lacks the Psb30 protein, one of the small subunits of Photosystem II, was constructed in a Thermosynechococcus elongatus strain in which the D1 protein is expressed from the psbA₃ gene (WT*). The ΔPsb30 mutant appears more susceptible to photodamage, has a cytochrome b₅₅₉ that is converted into the low potential form, and probably also lacks the PsbY subunit. In the presence of an inhibitor of protein synthesis, the ?Psb30 lost more rapidly the water oxidation function than the WT* under the high light conditions. These results suggest that Psb30 contributes to structurally and functionally stabilise the Photosystem II complex in preventing the conversion of cytochrome b₅₅₉ into the low potential form. Structural reasons for such effects are discussed.     

Activation of quiescent infections by postharvest pathogens during transition from the biotrophic to the necrotrophic stage

The evolution of bacterial pathogens from nonpathogenic ancestors is marked principally by the acquisition of virulence gene clusters on plasmids and pathogenicity islands via horizontal gene transfer. The flip side of this evolutionary force is the equally important adaptation of the newly minted pathogen to its new host niche. Pathoadaptive mutations take the form of modification of gene expression such that the pathogen is better fit to survive within the new niche. This mini-review describes the concept of pathoadaptation by loss of gene function. In this process, genes that are no longer compatible with the novel lifestyle of the pathogen are selectively inactivated either by point mutation, insertion, or deletion. These genes are called 'antivirulence genes'. Selective pressure sometimes leads to the deletion of large regions of the genome that contain antivirulence genes generating 'black holes' in the pathogen genome. Inactivation of antivirulence genes leads to a pathogen that is highly adapted to its host niche. Identification of antivirulence genes for a particular pathogen can lead to a better understanding of how it became a pathogen and the types of genetic traits that need to be silenced in order for the pathogen to colonize its new host niche successfully.     

Conserved plasmid/chromosome sequences in fast- and slow-growing rhizobia that nodulate the same plant

Apart from the ability to nodulate legumes, fast-and slow-growing rhizobia have few bacteriological traits in common. Given that there is only one pathway to nodulation, DNA sequences conserved in fast- and slow-growing organisms that nodulate the same host should be strongly enriched in infectivity genes. We tested this hypothesis with seven fast-growing and five slow-growing strains that produced responses varying from fully effective nodulation through various ineffective associations to non-nodulation on four different hosts (Lotus pedunculatus, Lupinus nanus, Macroptilium atropurpureum, and Vigna unguiculata). When restriction enzyme digested total DNA from 10 of the strains was separately hybridized with nick-translated plasmid DNA isolated from 4 fast-growing strains, variable but significant homologies were found with all 10 strains. Part of this homology was shown to be associated with the nifKDH genes for nitrogenase and part with putative nodulation genes carried on pC2, a cosmid clone containing a 37 kbp region of the large sym plasmid present in the fast-growing broad-host range Rhizobium sp. strain NGR234. Analysis of the extent of homology between the plasmids of 3 fastgrowing strains (NGR234, TAL 996 and UMKL 19) able to effectively nodulate Vigna unguiculata showed them to have homologous DNA fragments totalling 47 kbp. This core homology represents less than 12% of the total coding capacity of the sym plasmid present in each of these strains.Abbreviations Sym symbiotic sequences/plasmids - nod genes required for nodulation - nod putative nod genes - nif genes required for the synthesis of the enzyme nitrogenase     

Isolation and characterization of phenanthrene-degrading <Emphasis Type="Italic">Sphingomonas paucimobilis</Emphasis> strain ZX4

Phenanthrene-degrading bacterium strain ZX4 was isolated from an oil-contaminated soil, and identified as Sphingomonas paucimobilis based on 16S rDNA sequence, cellular fatty acid composition, mol% G + C and Biolog-GN tests. Besides phenanthrene, strain ZX4 could also utilize naphthalene, fluorene and other aromatic compounds. The growth on salicylic acid and catechol showed that the strain degraded phenanthrene via salicylate pathway, while the assay of catechol 2, 3-dioxygenase revealed catechol could be metabolized through meta-cleavage pathway. Three genes, including two of meta-cleavage operon genes and one of GST encoding gene were obtained. The order of genes arrangement was similar to S-type meta-pathway operons. The phylogenetic trees based on 16S rDNA sequence and meta-pathway gene both revealed that strain ZX4 is clustered with strains from genus Sphingomonas.     

Protein and cDNA sequences of Bowman-Birk protease inhibitors from the cowpea (Vigna unguiculata Walp.)

The protein and gene sequences of the cowpea Bowman-Birk type trypsin inhibitor which confers enhanced insect resistance to transgenic tobacco plants, and of cowpea trypsin/chymotrypsin inhibitors are presented. There are regions of high conservation and high divergence within the 5 leader, mature protein and 3 non-coding regions of the Bowman-Birk inhibitors and in the genes which encode them in different members of this family within the Leguminosae. The practical implications of this finding for studies on the evolution of plants and the utilization of these genes for enhancing insect resistance is discussed.     

A Clostridium perfringens hem gene cluster contains a cysG(B) homologue that is involved in cobalamin biosynthesis

The hem gene cluster, which consists of hemA, cysG(B), hemC, hemD, hemB, and hemL genes, and encodes enzymes involved in the biosynthetic pathway from glutamyl-tRNA to uroporphyrinogen III, has been identified by the cloning and sequencing of two overlapping DNA fragments from Clostridium perfringens NCTC8237. The deduced amino acid sequence of the N-terminal region of C. perfringens HemD is homologous to those reported for the C-terminal region of Salmonella typhimurium CysG and Clostridium josui HemD. C. perfringens CysG(B) is a predicted 220-residue protein which shows homology to the N-terminal region of S. typhimurium CysG. Disruption of the cysG(B) gene in C. perfringens strain 13 by homologous recombination reduced cobalamin (vitamin B12) levels by a factor of 200. When grown in vitamin B12-deficient medium, the mutant strain showed a four-fold increase in its doubling time compared with that of the wild-type strain, and this effect was counteracted by supplementing the medium with vitamin B12. These results suggest that C. perfringens CysG(B) is involved in the chelation of cobalt to precorrin II as suggested for the CysG(B) domain of S. typhimurium CysG, enabling the synthesis of cobalamin.     

粳稻穗角与稻米品质的相关性及稻米品质遗传分析

测定了粳稻直立穗品种丙8979与弯曲穗品种C堡杂交组合的P1、P2及其重组自交系349个株系的穗角和10个稻米品质性状, 分析了穗角与稻米品质性状之间的相关性, 并运用主基因+多基因混合遗传模型, 对稻米品质10个性状进行了遗传分析。结果表明,穗角与糙米率、整精米率、垩白粒率、垩白度、糊化温度、胶稠度和直链淀粉含量均无显著相关; 与精米率呈显著正相关(r=0.124*); 与粒长和长宽比均呈极显著正相关(相关系数分别为0.470**和0.241**)。糙米率、精米率和直链淀粉含量均受2对主基因+多基因控制, 2对主基因具有累加作用和加性×加性的上位性作用; 整精米率、粒长、长宽比和胶稠度受2对加性-上位性主基因+多基因控制;垩白粒率、垩白度和糊化温度均受3对加性-上位性主基因+多基因控制。糙米率、精米率、整精米率、垩白粒率、垩白度和糊化温度6个品质性状以主基因遗传为主,粒长、长宽比、胶稠度和直链淀粉含量4个性状以多基因遗传为主。