鲫鱼PKZ Zα结构域与d(GC)、d(TA)重组质粒的结合

Zα是能够特异性识别并结合左旋DNA(Z-DNA)的蛋白结构域,首先在人ADAR1中鉴定,随后又在ZBP-1(DLM-1)和E3L等蛋白质中发现了该结构域．鲫鱼PKZ是首次报道的具有Zα结构域的鱼类eIF2α激酶．为深入了解鲫鱼PKZ Zα的功能,原核表达并亲和层析纯化了3种多肽,即野生型PZα(Zα1Zα2)、替换型P(Zα1)2(Zα1Zα1)和点突变型（PZαK34A、PZαS35A、PZαR39A、PZαP57A）．同时,构建了含有d(GC)6、d(GC)13、d(TA)13特殊插入序列的3种重组质粒,用于体外模拟Z-DNA．凝胶阻滞实验分析了3种多肽分别与重组质粒的亲和性结果表明,PZα和P(Zα1)2能够与d(GC)重组质粒结合,并且随着多肽含量的增加,阻滞效应越明显．与野生型PZα相比,替换型P(Zα1)2结合d(GC)重组质粒的能力更强PZα和P(Zα1)2还能微弱地与d(TA)13重组质粒结合．点突变型多肽都不能与重组质粒结合,暗示鲫鱼PKZ Zα结构域中这4个氨基酸残基在结合核酸分子的过程中非常关键．该文结果有利于进一步揭示鱼类PKZ Zα结构域与Z-DNA结合的分子机理．     

Notulae de Gesneriaceie Sinensibus (IX)

Ten new species, three new varieties and a new section of the family Gesneriaceae are described from China in the present paper. They are Tremacron urceolatum K. Y. Pan from Muli of SW Sichuan, T. obliquifolium K. Y. Pan from Miyi and Yanyuan of SW Sichuan, T. aurantiacum K. Y. Pan from Mabian and Pinshan of S Sichuan, lsometrum Sect. Chorianthera W. T. Wang et K. Y. Pan (with I. eximium Chun as the section type), Isometrum eximium Chun ex K. Y. Pan from Jiulong, Muli and Jinyang of SW Sichuan; Ancylostemon mairei (Levl.) Craib var. emeiensis K. Y. Pan from Mt. Emei of Sichuan, A. aureus (Franch.) Burtt var. angustifolius K. Y. Pan from Zhenkang of SW Yunnan, A. gamosepalus K. Y. Pan from Hanyuan, Yanyuan and Yuexi of SW Sichuan, A. rhombifolius K. Y. Pan from Meigu of SW Sichuan, A. ronganensis K. Y. Pan from Rong an of Guangxi; Corallodiscus flabellatus) (Craib) Burtt var. puberulus K.Y. Pan from Zhongdian and Deqin of NW Yunnan, Nanchuan of S Sichuan and Zayü of Xizang (Tibet), Beccarinda minima K. Y. Pan from Jinxiu and Xiangzhou of Guangxi, Boeica stolonifera K. Y. Pan from Fangcheng, Shiwandashan, Pingnan and Dongxing of S Guangxi, B. multinervia K. Y. Pan from Yingjiang of W Yunnan, and Paraboea barbatipes K. Y. Pan from Napo of W Guangxi and Xichou of SE Yunnan.     

Leishmania mexicana pifanoi: in vivo and in vitro interactions between amastigotes and macrophages

Macrophages of the cell line J774 were used in a comparative study of virulence involving amastigote stages of Leishmania mexicana pifanoi isolated from macrophages (AMA-M) of the aforementioned cell line, amastigote forms grown in the UM-54-cell-free medium (AMA-C), and promastigote stages. The macrophage cultures were inoculated with AMA-M and AMA-C at the culture cell to parasite ratios of 1:3, 1:5, and 1:10. The macrophages were exposed to either kind of amastigotes for 24, 48, and 72 h. At the end of each of these periods, and for each dilution, the percentages of macrophages harboring the parasites within their cytoplasm and the mean numbers of intracellular parasite/macrophage were estimated on the basis of examination of 200 phagocytes. When either AMA-M or AMA-C were employed, after 24 h, the percentages of infected macrophages were, respectively, 84.5%, 89.0%, and 94.5% for the three aforementioned dilutions, the majority of the phagocytes containing 1-5 parasites. After 48- and 72-h exposures, the macrophages harbored 6-11 and 11-20 amastigotes/cell, respectively. Evidently intracellular multiplication of the amastigotes has taken place. In contrast to the results obtained with amastigote forms, after inoculations of the macrophages cultures with promastigotes at the dilutions previously used for amastigotes, only 48-78 phagocytes were found to contain intracellular stages within their cytoplasm. Many macrophages were parasite-free, especially when exposed to fewer promastigotes. Experiments in which 5 X10(6) promastigotes, AMA-M, or AMA-C were inoculated into the footpads of hamsters yielded the following results with regard to terminal footpad volumes: 1.57, 3.31, and 3.32 cm3, respectively. Evidently both kinds of amastigotes had equal virulence for hamsters; however, the promastigote stages were much les virulent for these experimental hosts.     

Tomato stigma exsertion induced by high temperature is associated with the jasmonate signalling pathway

High temperature (HT) is becoming an increasingly serious factor in limiting crop production with global climate change. During hot seasons, owing to prevailing HT, cultivated tomatoes are prone to exhibiting stigma exsertion, which hampers pollination and causes fruit set failure. However, the underlying regulatory mechanisms of the HT‐induced stigma exsertion remain largely unknown. Here, we demonstrate that stigma exsertion induced by HT in cultivated tomato is caused by more seriously shortened stamens than pistils, which is different from the stigma exsertion observed in wild tomato species. Under the HT condition, the different responses of pectin, sugar, expansin, and cyclin cause cell wall remodelling and differentially localized cell division and selective cell enlargement, which further determine the lengths of stamens and pistils. In addition, auxin and jasmonate (JA) are implicated in regulating cell division and cell expansion in stamens and pistils, and exogenous JA instead of auxin treatment can effectively rescue tomato stigma exsertion through regulating the JA/COI1 signalling pathway. Our findings provide a better understanding of stigma exsertions under the HT condition in tomato and uncover a new function of JA in improving plant abiotic stress tolerance.