蕨麻愈伤组织原生质体制备条件的优化

以青海‘蕨麻4号’诱导培养的愈伤组织为材料,采用4因素3水平L9(34)正交实验,研究酶类组合、酶解时间、甘露醇浓度及离心速度等主要因素对蕨麻原生质体分离的影响,建立高效、稳定的蕨麻原生质体分离体系,为进一步通过原生质体融合、基因工程等方法对蕨麻进行品种改良奠定基础。结果表明:各因素对蕨麻原生质体产量的影响顺序为:酶类组合酶解时间甘露醇浓度离心速度;青海‘蕨麻4号’愈伤组织原生质体的最适酶解条件为:2.0%纤维素酶+0.75%果胶酶,40r/min振荡酶解10h,甘露醇浓度为0.5mol/L,离心转速为1 000r/min时原生质体的产量达最大(8.96×10~5 cells/g),活力为92.77%。     

氮、磷、钾肥配施对桂花品种'金玉台阁'开花性状及叶片中叶绿素和营养元素含量的影响

以桂花品种'金玉台阁'(Osmanthus fragrans'Jinyu Taige')盆栽苗为供试材料,采用"3414"肥料效应试验设计方案,研究了不同单株施用量CO(NH2)2(0.0、1.0、2.0和3.0 g)、NH4H2PO4(0.0、1.5、3.0和4.5 g)和KCl(0.0、0.5、1.0、1.5 g)对秋冬生长期(2014年10月至2015年2月)'金玉台阁'开花性状及叶片中叶绿素和营养元素的影响进行了比较和分析,并筛选出适宜的氮、磷、钾肥施用量.结果表明:与CK〔CO(NH2)2、NH4H2PO4和KCl的单株施用量均为0.0 g〕组相比,各氮、磷、钾肥配施处理组'金玉台阁'的单株产花量、花瓣相对含水量、花径以及叶片中叶绿素、全氮、全磷和全钾的含量总体上显著升高.CO(NH2)2单株施用量对'金玉台阁'单株产花量、叶片中叶绿素含量和全氮含量的影响最大,NH4H2PO4单株施用量对这3个指标的影响次之;NH4H2PO4单株施用量对'金玉台阁'叶片中全磷含量的影响最大;KCl单株施用量对'金玉台阁'花瓣相对含水量、花径及叶片中全钾含量的影响最大.在秋冬生长期内叶片中叶绿素含量呈先降低后升高的趋势,均在12月份降至最低值.通过建立'金玉台阁'单株产花量(y)与CO(NH2)2、NH4 H2 PO4和KCl的单株施用量(分别为xN、xP和xK)间的肥料效应模型,得到的三元二次肥料效应模型为y=1.2027+0.7561×xN+0.2632×xP+0.4590×xK-0.2761×xN2-0.1201×xP2-0.5007×xK2+0.1901×xN×xP-0.0960×xN×xK+0.1185×xP×xK.以单株产花量为目标,'金玉台阁'的CO(NH2)2、NH4 H2 PO4和KCl的最佳单株施用量分别为2.58、3.56和0.86 g.     

Lessons learned from the virus indexing of Musa germplasm: insights from a multiyear collaboration

The Bioversity International Transit Center (ITC) for banana hosts more than 1500 accessions largely covering the genetic diversity of the genus Musa. Its objective is to conserve this genetic diversity and to supply plant materials to users worldwide. All the Musa accessions must be tested for virus presence and, if infected, virus elimination must be attempted, to enable the supply of virus‐free plant material. An international collaborative effort launched under the auspices of Bioversity International (2007–2013) finally led to the implementation of a two‐step process to test the accessions. The first step, called pre‐indexing, involved only molecular tests and was designed as a pre‐screen of new germplasm lines or existing accessions to reduce the need for post‐entry virus therapy and repeated virus indexing. The second step, called full indexing, was performed on either older existing accessions or newer accessions which tested negative during pre‐indexing, and involved molecular tests, transmission electron microscopy (TEM) and symptom observation. In total, 270 germplasm lines (434 samples) were pre‐indexed; while full indexing was carried out on 243 accessions (68 of which had been pre‐indexed). A significant proportion of the samples tested during pre‐indexing was infected with at least one virus (68%), showing the utility of this early pre‐screening step. Banana streak OL virus and Banana mild mosaic virus were the most commonly detected viruses during both pre‐ and full indexing. For 22 accessions, viral particles were observed by TEM in full indexing while the molecular tests were negative, underlining the importance of combining various detection techniques. After full indexing, viruses were not detected in 166 accessions, which were then released for international distribution from the ITC. This publication exemplifies how the practical application of diagnostic protocols can raise fundamental questions related to their appropriate use in routine practice and the need for their continuous monitoring and improvement after their first publication.     

Cytogenetic tests for animal production: state of the art and perspectives

Cytogenetic tests are effective tools for monitoring the health status of livestock and improving their genetic value. Cytogenetic screening allows for the detection of animals carrying chromosomal aberrations and to avoid using them as breeders. Progress in karyotype monitoring, with new molecular probes and automation, has greatly increased the productivity of this procedure. Several genotoxicity tests are available to detect the possible presence and effects of pollutants or drugs. Among these, the micronucleus test and the Comet assay are the most convenient in terms of costs and benefits. Finally, analysis of telomeres, the end of chromosomes and markers of genomic instability, may be developed into a new marker of stress and genetic value.     

Cerium Oxide Decorated Polymer Nanofibers as Effective Membrane Reinforcement for Durable,High‐Performance Fuel Cells

High‐power, durable composite fuel cell membranes are fabricated here by direct membrane deposition (DMD). Poly(vinylidene fluoride‐co ‐hexafluoropropylene) (PVDF‐HFP) nanofibers, decorated with CeO₂ nanoparticles are directly electrospun onto gas diffusion electrodes. The nanofiber mesh is impregnated by inkjet‐printed Nafion ionomer dispersion. This results in 12 µm thin multicomponent composite membranes. The nanofibers provide membrane reinforcement, whereas the attached CeO₂ nanoparticles promote improved chemical membrane durability due to their radical scavenging properties. In a 100 h accelerated stress test under hot and dry conditions, the reinforced DMD fuel cell shows a more than three times lower voltage decay rate (0.39 mV h^?1) compared to a comparably thin Gore membrane (1.36 mV h^?1). The maximum power density of the DMD fuel cell drops by 9%, compared to 54% measured for the reference. Impedance spectroscopy reveals that ionic and mass transport resistance of the DMD fuel cell are unaffected by the accelerated stress test. This is in contrast to the reference, where a 90% increase of the mass transport resistance is measured. Energy dispersive X‐ray spectroscopy reveals that no significant migration of cerium into the catalyst layers occurs during degradation. This proves that the PVDF‐HFP backbone provides strong anchoring of CeO₂ in the membrane.     

Evaluation of rapid post-mortem test kits for bovine spongiform encephalopathy (BSE) screening in Japan: Their analytical sensitivity to atypical BSE prions

A classical type of bovine spongiform encephalopathy (C-BSE), recognized in 1987, had a large impact on public health due to its zoonotic link to variant Creutzfeldt-Jakob disease by the human consumption of dietary products contaminated with the C-BSE prion. Thus, a number of countries implemented BSE surveillance using rapid post-mortem test kits that were approved for detection of the C-BSE prion in the cattle brain. However, as atypical BSE (L- and H-BSE) cases emerged in subsequent years, the efficacy of the kits for the detection of atypical BSE prions became a matter of concern. In response to this, laboratories in the European Union and Canada evaluated the kits used in their countries. Here, we carried out an evaluation study of NippiBL®, a kit currently used for BSE screening in Japan. By applying the kit to cattle brains of field cases of C-BSE and L-BSE, and an experimental case of H-BSE, we showed its comparable sensitivities to C, L-, and H-BSE prions, and satisfactory performance required by the European Food Safety Authority. In addition to NippiBL®, two kits (TeSeE® and FRELISA®) formerly used in Japan were effective for detection of the L-BSE prion, although the two kits were unable to be tested for the H-BSE prion due to the discontinuation of domestic sales during this study. These results indicate that BSE screening in Japan is as effective as those in other countries, and it is unlikely that cases of atypical BSE have been overlooked.