菜心重要农艺性状与SSR分子标记的关联分析

菜心是华南地区的主要蔬菜,利用分子标记辅助育种发掘出与重要农艺性状相关的分子,不仅可以加速优良品种的选育进程,还可以定向地优化目标性状,培育出高产优质的菜心品种。本研究选用148份来自宁夏银川和广东南沙田间种植的菜心种质材料,采集株高、株质量、薹高、薹质量和薹粗5个重要农艺性状的数据;利用SSR标记对其进行基因分型,开展农艺性状及SSR标记的关联性分析。结果表明,在供试的菜心材料中,147个SSR标记共检测到252个变异位点,引物多态信息含量(PIC)为0.0526~0.5222,平均值为0.3793;群体结构分析将供试的菜心品种分为2个类群;银川和南沙两地菜心品种在农艺性状和SSR标记的关联分析中发现,有6个位点与相同性状存在仍显著关联(P<0.01)。这些标记能为菜心的分子辅助选择育种提供参考。     

武夷岩茶种质资源遗传多样性与亲缘关系的SRAP分析

本研究利用SRAP-PCR反应体系,从88对SRAP引物组合中筛选出43对引物组合,对武夷岩茶主要的30份种质资源进行SRAP分析,共扩增出385条带,其中具有多态性的有236条带,占总数的61.30%,表明30份武夷岩茶种质呈现一定的遗传多样性。武夷岩茶种质资源间遗传距离变幅在0.31~0.98之间,平均为0.63,基于SRAP标记利用系统聚类法把武夷岩茶分为三大类,为武夷岩茶遗传研究、品种选育与资源保护提供参考。     

利用SSR技术鉴定西瓜甜瓜种子纯度

利用SSR分子标记技术对西瓜‘W1806’与甜瓜‘M1805’各3个批次及其亲本间的多态性进行引物筛选和种子的纯度鉴定。结果表明,在28对西瓜的SSR引物中,有5对引物在西瓜‘W1806’的F1代与亲本之间有很好的多态性。其中BVWS00839引物特异性好,条带清晰,父母本条带间隔明显,即作为3个批次的西瓜纯度鉴定的引物,其鉴定纯度分别为99.47%、98.96%和97.92%;在18对甜瓜的SSR引物中,只有1对CMBR052引物在F1代扩出的条带为典型的双亲互补型条带,故用该引物对甜瓜进行纯度鉴定,其纯度分别为97.90%、96.80%和97.40%。与田间鉴定结果的吻合率都在98%以上。这2个材料的吻合率说明SSR分子标记技术对西瓜和甜瓜纯度鉴定结果都是可靠的。     

正交设计优化青蒿SRAP-PCR反应体系及引物筛选

为了建立青蒿的SRAP最佳扩增体系,并筛选出SRAP多态性引物,本研究以青蒿叶片DNA为模板,采用正交试验设计,以Mg^2+、dNTP Mix、Taq DNA聚合酶、引物和DNA模板5种因素5个水平,对青蒿SRAP反应体系进行研究。结果表明,青蒿SRAP-PCR最佳反应体系为:引物0.6μmol/L、Mg^2+2.0 mmol/L、模板DNA 5.1 ng、Taq DNA聚合酶2.0 U、dNTPs 0.25 mmol/L,总体积为25μL。各因素对扩增反应均有不同影响,其中引物浓度的影响最大,dNTPs的影响最小。运用该体系对不同种质资源的青蒿进行验证,证明该体系稳定可靠,并在30个引物组合中筛选出了25对扩增条带清晰,多态性丰富的引物组合。这一结论为今后利用SRAP标记技术进行青蒿分子遗传学研究提供了科学依据。     

New Polyketides from the Antarctic Fungus Pseudogymnoascus sp. HSX2#-11

The species Pseudogymnoascus is known as a psychrophilic pathogenic fungus with a ubiquitous distribution in Antarctica. Meanwhile, the study of its secondary metabolites is infrequent. Systematic research of the metabolites of the fungus Pseudogymnoascus sp. HSX2#-11, guided by the method of molecular networking, led to the isolation of one novel polyketide, pseudophenone A (1), along with six known analogs (2–7). The structure of the new compound was elucidated by extensive spectroscopic investigation and single-crystal X-ray diffraction. Pseudophenone A (1) is a dimer of diphenyl ketone and diphenyl ether, and there is only one analog of 1 to the best of our knowledge. Compounds 1 and 2 exhibited antibacterial activities against a panel of strains. This is the first time to use molecular networking to study the metabolic profiles of Antarctica fungi.     

Identification of an H1N1 subtype of swine influenza virus and serological analysis

To investigate the epizootic of swine influenza virus(SIV), 60 nasal swabs were collected from a clinical cases of pig farm in Tai'an City, Shandong Province of China in April 2017. SIV was isolated by inoculating into 10-day-old Special Pathogen Free embryonated eggs and the whole genome was sequenced. An H1N1 subtype SIV was isolated and designated as A/swine/Shandong/TA04/2017(H1N1). Phylogenetic analysis showed that apart from the polymerase A(PA) fragment belonging to the 2009 pandemic H1N1 branch, seven genome segments belonged to avian-like H1N1 influenza virus lineage. The cleavage site sequence of the hemagglutinin(HA) protein was PSIQSR↓G, which is a typical molecular biological characteristic. Five potential N-glycosylation sites(N14, N26, N277, N484 and N543) were found in the HA gene. To further investigate the epidemiology of SIV in this farm, the 995 serum samples were assessed with EAH1N1 2009 pandemic H1N1 and H3 N2 antigens. The results showed that the total positive rate was 65.43%. The positive rates of single virus infection detected by EAH1N1, 2009 pdmH1N1 and H3 N2 for serum HI(Hemagglutination inhibition) were 48.35, 30.85 and 7.47%, respectively. The results showed that SIV in Shandong Province has been reassorted in some segments and the SIV-positive rate was high on the SIV outbreak farm. These data provide evidence of an epizootic of SIV.     

中华稻蝗Knickkopf(Knk)基因分子特性和生物学功能

基于中华稻蝗转录组数据库,采用生物信息学方法搜索获得1条OcKnk基因全长cDNA序列,采用qRT-PCR检测其组织部位表达特性和其在表皮发育过程中表达情况,明确其分子特性,采用RNAi技术结合表型观察,研究其对中华稻蝗蜕皮和生长发育的影响,以明确其生物学功能。组织部位表达结果显示其在中华稻蝗体壁、前肠和脂肪体表达最高,发育表达结果显示其在表皮不同发育日龄均有表达,且在蜕皮前期和后期表达显著高于其他日龄。生物学功能研究表明,注射dsRNA后,多数虫体难以成功蜕去旧表皮,导致死亡,少部分可蜕至下一龄期,但活动力较低,行动缓慢,最终死亡。研究结果表明OcKnk参与昆虫生长发育和蜕皮过程,可作为重要靶标基因,为下一步害虫防治提供理论基础。     

Kernel vitreousness and protein content: Relationship,interaction and synergistic effects on durum wheat quality

Four sets of durum samples were used in this study to further understand the interrelationships among hard vitreous kernels (HVK), protein content, and pigment concentration, with a focus on the interaction and synergistic effects of protein content and vitreousness on durum quality. HVK level increases with higher protein content in the range of 9.5–12.5%, but this relationship is less evident in durum samples with high protein content (12.5–14.5%). Both protein content and kernel vitreousness can significantly affect durum milling quality. White starchy kernels (WSK) in low protein durum have a very detrimental impact on milling and pasta processing quality, but high protein content can mitigate the adverse impact of WSK on durum quality. Although protein content plays a dominant role, higher HVK might contribute positively to pasta firmness. There was no significant difference in yellow pigment content between HVK and WSK. However, pigment loss from semolina to dough was higher for WSK than HVK. Despite the difference in protein content, HVK and WSK have little difference in gluten strength. The monomeric protein was preferentially accumulated in HVK. The glutenin proteins of HVK and WSK were similar in the ratios of 1Bx/1By and HMW/LMW-GS.     

Development of a core set of KASP markers for assaying genetic diversity in Brassica rapa subsp. chinensis Makino

Single‐nucleotide polymorphisms (SNPs) are rapid, economical and reliable genotyping tools. Non‐heading Chinese cabbage (Brassica rapa L. subsp. chinensis Makino) is now an economically important vegetable crop worldwide. In this study, 1,167 SNPs were evaluated for 7polymorphism among 70 representative non‐heading Chinese cabbage inbred lines using a Kompetitive Allele Specific PCR (KASP) genotyping assay. On the basis of identified polymorphisms and the results of a principal component analysis, we selected 50 core SNPs that were balanced sufficiently to provide adequate information for genetic identification. The core SNPs were used for construction of a neighbour‐joining dendrogram that separated the 70 inbred lines into four main groups and several subgroups corresponding to Caixin, Heiyebaicai, Huangxinwu, Naibaicai, Taitsai, Pak‐choi, and Wutatsai. This categorization was superior to that achieved using a dataset of 479 polymorphic SNPs. To confirm the utility of the core SNP markers in genetic identification, we tested their stability and resolution using 162 commercial hybrid cultivars. The SNPs, which represent a cost‐effective, accurate marker set for germplasm analysis and cultivar identification, are suitable for molecular marker‐assisted breeding in non‐heading Chinese cabbage.