巴西橡胶树乳管细胞HblMYC3互作蛋白筛选与功能分析

MYC是b HLH转录因子家族的亚家族成员,在植物茉莉酸信号转导过程中发挥着重要的调节作用。Hbl MYC3是从巴西橡胶树的乳管细胞中分离鉴定到的MYC类转录因子,其基因表达受割胶和茉莉酸上调。采用酵母双杂交方法初步筛选Hbl MYC3蛋白的互作蛋白,旨在进一步了解Hbl MYC3的功能。结果表明:Hbl MYC1、Hbl MYC2、DNAJ蛋白、谷氧还蛋白2、含A20和AN1锌指结构域的胁迫相关蛋白5、28 ku热和酸稳定的磷蛋白以及25 ku泛素连接酶E2等7种蛋白不同程度地与Hbl MYC3蛋白互作。基于这些互作蛋白的功能,推测Hbl MYC1或Hbl MYC2通过与Hbl MYC3形成二聚体对小橡胶粒子膜蛋白基因表达进行调控,其他蛋白参与胁迫条件下维持二聚体的稳定性和胁迫反应后降解该二聚体。     

链霉菌和壳聚糖对淮山土壤微生物活性与群落的影响

为探究链霉菌30702和壳聚糖对淮山土壤微生物活性与群落的影响,采用比色法和滴定法观测土壤酶活性的变化,采用高通量测序技术和Trimmomatic等软件,分析土壤微生物群落中细菌和真菌的发展变化。结果表明,链霉菌、壳聚糖、土壤原始微生物和培养时间等4个因素对淮山土壤的脲酶和过氧化氢酶活性均有显著影响,壳聚糖浓度在0~10.0 g/kg内,土壤酶活性随壳聚糖浓度的增大而提高;随时间的延长,先升再降;壳聚糖与链霉菌之间存在交互效应。链霉菌和壳聚糖能增加淮山土壤细菌的物种丰度,减少细菌的多样性,增加艾德昂菌属（Ideonella）和纤维弧菌（Cellvibrio）等有益菌属的相对丰度,而对真菌的物种丰度和多样性的影响较小,与对照之间的差异不显著,土壤优势菌属为腐质霉属（Humicola）、枝孢属（Cladosporium）、鞘氨醇单胞菌属（Sphingomonas）和uncultured_bacterium_ c_Subgroup_6。其中,链霉菌与2.5 g/kg壳聚糖复合处理的细菌物种丰度最大,细菌多样性最少。     

Toxicity of cadmium and its competition with mineral nutrients for uptake by plants:A review

Cadmium(Cd)is a toxic heavy metal occurring in the environment naturally and is also generated through various anthropogenic sources and acts as a pollutant.Human health is affected by Cd pollution in farmland soils because food is the main source of Cd intake in the non-smoking population.For crops,Cd toxicity may result from a disturbance in uptake and translocation of mineral nutrients and disturbance in plant metabolism,inhibiting plant growth and development.However,plants have Cd tolerance mechanisms,including restricted Cd uptake,decreased Cd root-to-shoot translocation,enhanced antioxidant enzyme activities,and increased production of phytochelatins.Furthermore,optimal supply of mineral nutrients is one of the strategies to alleviate the damaging effects of Cd on plants and to avoid its entry into the food chain.The emerging molecular knowledge contributes to understanding Cd uptake,translocation,and remobilization in plants.In this review,Cd toxicity and tolerance mechanisms,agricultural practices to minimize Cd accumulation,Cd competition with essential elements(calcium,copper,iron,zinc,and manganese),and genes associated with Cd uptake are discussed in detail,especially regarding how these mineral nutrients and genes play a role in decreasing Cd uptake and accumulation in crop plants.     

镉-钙交互作用对植物的生态学效应

镉(Cd)由于其高毒性和易迁移的特点成为环境中最重要的有毒重金属之一,钙(Ca)作为植物必需元素,参与植物细胞代谢的调节和信号转导。为了明晰植物中Cd和Ca交互作用的机理,并有效的利用二者之间的相互关系,为重金属污染土壤的防治提供理论基础。笔者在广泛查阅了国内外研究和文献的基础上,总结了镉-钙交互作用对植物生态学效应为:(1)在植物的吸收过程中,Cd和Ca存在拮抗关系。一方面Cd和能抑制植物对Ca的吸收,使植物的生长受限;另外一方面Ca能抑制植物对Cd的吸收来缓解镉毒害。(2)施加外源Ca能够促进Cd毒害下植物的生长和光合色素的合成。(3)在调节抗氧化酶活性过程中,施加外源钙能够增强植物的抗氧化酶活性来降低氧化损伤。因此,镉钙交互作用下对植物生长、光合色素、抗氧化酶活性的影响过程中均存在拮抗作用。     

水盐交互作用对河套灌区土壤光谱特征的影响

为探究土壤水盐交互作用对Sentinel-2卫星光谱特征的影响，该研究以内蒙古河套灌区沙壕渠灌域为研究区域，分别在2018年和2019年的4-5月共采集280个裸土期表层土壤样本，测定其土壤含水率和含盐量，并获取同步的Sentinel-2卫星遥感数据，构建基于土壤水盐-反射率原理的土壤光谱特征理论模型，在此基础上结合土壤水盐交互作用构建水盐交互模型，并比较2种模型对土壤光谱的模拟效果，分析土壤水盐交互作用对土壤光谱估算的影响。结果表明：1）土壤水盐交互作用对光谱的影响因波段类型和水盐含量的不同而有所不同。在可见光范围上影响相对较弱，其作用范围为-0.11～0.29；在近红外和短波红外范围上影响相对较强，其作用范围为-0.35～0.61；当水分或盐分中某个含量较高时对光谱影响较弱，其主要集中在-0.1～0.23；，在水盐含量程度相似时影响较强，其作用范围为0.3～0.6。2）与土壤光谱特征理论模型相比，水盐交互模型能明显地改善土壤光谱的模拟效果，能将模拟相关系数由0.14～0.44提升到0.29～0.70，均方根误差由0.032～0.082降低到0.029～0.068。该研究结果揭示了盐分和水分对光谱特征的干扰过程，为土壤盐分的估算提供策略与方法，对实现区域尺度上土壤盐分的精准监测具有一定的意义。     

医学图像精细化分割方法研究

指出了深度学习方法在医学图像分割中取得较大的进展,但医学图像处理的复杂性使得全自动分割方法难以取得较好的分割效果。在卷积网络分割的基础上,结合应用场景使用适当的后处理手段来提升图像的分割效果是一种比较有临床意义的研究方法。主要研究了基于概率图的全连接条件随机场模型和基于用户交互的深度编辑网络,并分析总结了这两种方法的实现原理和各自优势,并对未来的研究工作进行了一些展望。     

高丹草种子萌发和幼苗生长对模拟盐碱互作胁迫的响应

为限制盐碱地高丹草种子萌发和幼苗生长的主导影响因素,将2种中性盐(NaCl、Na2SO4)和2种碱性盐(NaHCO3、Na2CO3)按照不同比例混合,模拟出16种盐碱互作条件,研究盐碱互作胁迫对高丹草种子萌发和幼苗生长的影响。结果表明,高丹草种子萌发及幼苗生长参数与总盐浓度、pH以及CO2-3和HCO-3浓度的影响较大,而CO2-3和HCO-3浓度又是影响pH的主要因素,总盐浓度和pH可作为影响高丹草种子萌发及幼苗生长的主导因素。但是,反映种子萌发参数的发芽率(Gr)、发芽势(Gp)、发芽指数(Gi)等指标以及反映幼苗生长参数的芽长(GL)、根长(RL)和侧根数(LRN)等指标对盐浓度和pH胁迫的敏感性不同,在相同等盐浓度下,随着pH的增加,GL、RL和LRN降低幅度较Gr、Gp、Gi等参数的降低幅度更为明显,盐害系数之间也存在明显的差异,说明盐浓度对高丹草种子萌发的影响较大,而高pH胁迫则主要影响其幼苗生长。因此,盐碱地高丹草的种植过程中不仅要考虑土壤含盐量的因素,而且要考虑pH的影响。     

Selection of soybean elite cultivars based on phenotypic and genomic characters related to lodging tolerance

Soybean lodging can result in serious yield reduction. Detecting the quantitative trait loci (QTL) associated with lodging tolerance for their further application in marker‐assisted selection (MAS) has the potential to enhance soybean breeding efficiency. In this study, a genome‐wide association analysis (GWAS) was performed to identify soybean accessions that could potentially be used to produce lodging‐tolerant varieties, based on the comprehensive evaluation of lodging scores (LS) obtained for the parental cultivar “Tokachi nagaha” and its 137 derived cultivars. Results showed that genotype, environment and genotype × environment interaction significantly influenced LS. Of the 31 significant SNPs identified, 22 were consistently detected in two or more environments and 27 SNPs were located in or close to agronomically important QTL mapped by linkage analysis. Best linear unbiased predictors (BLUPs) of LS tend to decrease with the elite alleles contained by accessions increasing. Some excellent accessions, with lower BLUPs and D_i (stability coefficients) values and more elite alleles, were selected. This study contributed to understand the genetic mechanism of lodging, providing genetic and phenotypic information for MAS.     

Reproductive barriers to hybridizations between narrow-leaf and broad-leaf Anoectochilus roxburghii

Narrow-leaf and broad-leaf Anoectochilus roxburghii were used as reciprocal parents to explore the reason for low seed setting rate. Pollen-pistil interaction was observed by fluorescence microscopy and hybrid embryo development by paraffin section technology. The results indicated that pollen tube growth could reach the embryo sac, and double fertilization could be completed. These findings showed that a pre-fertilization barrier was not the major factor in the cross of narrow-leaf and broad-leaf A. roxburghii. The endosperm development of the hybrid was abnormal and eventually promoted abortion of the embryos. A post-fertilization barrier appears to be the major factor for low seed setting rate in the cross of narrow-leaf and broad-leaf A. roxburghii. In addition, an efficient protocol of embryo rescue, the development of which is reported elsewhere, was used to compare the time needed for rescue between the reciprocal crosses.