Development of a novel‐type transgenic cotton plant for control of cotton bollworm

The transgenic Bt cotton plant has been widely planted throughout the world for the control of cotton budworm Helicoverpa armigera (Hubner). However, a shift towards insect tolerance of Bt cotton is now apparent. In this study, the gene encoding neuropeptide F (NPF) was cloned from cotton budworm H. armigera, an important agricultural pest. The npf gene produces two splicing mRNA variants—npf1 and npf2 (with a 120‐bp segment inserted into the npf1 sequence). These are predicted to form the mature NPF1 and NPF2 peptides, and they were found to regulate feeding behaviour. Knock down of larval npf with dsNPF in vitro resulted in decreases of food consumption and body weight, and dsNPF also caused a decrease of glycogen and an increase of trehalose. Moreover, we produced transgenic tobacco plants transiently expressing dsNPF and transgenic cotton plants with stably expressed dsNPF. Results showed that H. armigera larvae fed on these transgenic plants or leaves had lower food consumption, body size and body weight compared to controls. These results indicate that NPF is important in the control of feeding of H. armigera and valuable for production of potential transgenic cotton.     

Pedigree‐based analysis of derivation of genome segments of an elite rice reveals key regions during its breeding

Analyses of genome variations with high‐throughput assays have improved our understanding of genetic basis of crop domestication and identified the selected genome regions, but little is known about that of modern breeding, which has limited the usefulness of massive elite cultivars in further breeding. Here we deploy pedigree‐based analysis of an elite rice, Huanghuazhan, to exploit key genome regions during its breeding. The cultivars in the pedigree were resequenced with 7.6× depth on average, and 2.1 million high‐quality single nucleotide polymorphisms (SNPs) were obtained. Tracing the derivation of genome blocks with pedigree and information on SNPs revealed the chromosomal recombination during breeding, which showed that 26.22% of Huanghuazhan genome are strictly conserved key regions. These major effect regions were further supported by a QTL mapping of 260 recombinant inbred lines derived from the cross of Huanghuazhan and a very dissimilar cultivar, Shuanggui 36, and by the genome profile of eight cultivars and 36 elite lines derived from Huanghuazhan. Hitting these regions with the cloned genes revealed they include numbers of key genes, which were then applied to demonstrate how Huanghuazhan were bred after 30 years of effort and to dissect the deficiency of artificial selection. We concluded the regions are helpful to the further breeding based on this pedigree and performing breeding by design. Our study provides genetic dissection of modern rice breeding and sheds new light on how to perform genomewide breeding by design.     

Reduced O-GlcNAcase expression promotes mitotic errors and spindle defects

Alterations in O-GlcNAc cycling, the addition and removal of O-GlcNAc, lead to mitotic defects and increased aneuploidy. Herein, we generated stable O-GlcNAcase (OGA, the enzyme that removes O-GlcNAc) knockdown HeLa cell lines and characterized the effect of the reduction in OGA activity on cell cycle progression. After release from G₁/S, the OGA knockdown cells progressed normally through S phase but demonstrated mitotic exit defects. Cyclin A was increased in the knockdown cells while Cyclin B and D expression was reduced. Retinoblastoma protein (RB) phosphorylation was also increased in the knockdown compared to control. At M phase, the knockdown cells showed more compact spindle chromatids than control cells and had a greater percentage of cells with multipolar spindles. Furthermore, the timing of the inhibitory tyrosine phosphorylation of Cyclin Dependent Kinase 1 (CDK1) was altered in the OGA knockdown cells. Although expression and localization of the chromosomal passenger protein complex (CPC) was unchanged, histone H3 threonine 3 phosphorylation was decreased in one of the OGA knockdown cell lines. The Ewing Sarcoma Breakpoint Region 1 Protein (EWS) participates in organizing the CPC at the spindle and is a known substrate for O-GlcNAc transferase (OGT, the enzyme that adds O-GlcNAc). EWS O-GlcNAcylation was significantly increased in the OGA knockdown cells promoting uneven localization of the mitotic midzone. Our data suggests that O-GlcNAc cycling is an essential mechanism for proper mitotic signaling and spindle formation, and alterations in the rate of O-GlcNAc cycling produces aberrant spindles and promotes aneuploidy.     

啤酒腐败微生物与啤酒微生物稳定性研究进展

尽管生产环境和卫生条件已经得到大幅改善,但啤酒生产过程中仍然会发生微生物污染,因此,真正意义上的啤酒纯种酿制是很难实现的。为了有效控制生产过程中的微生物污染,本文系统介绍了啤酒微生物的多样性及其在生产工序中的分布,探讨了啤酒环境对抑制啤酒微生物污染的影响,讨论了啤酒微生物对啤酒质量与风味的积极贡献,提出合理控制外源微生物侵染是形成不同啤酒典型特征的关键。     

红香芋试管球茎膨大过程中主要碳水化合物含量以及淀粉合成相关酶活性的动态研究

为了探讨芋(Colocasia esculenta(L.)Schott)试管球茎膨大期间糖类物质积累特点,以红香芋无菌试管苗为材料,研究了高浓度蔗糖诱导条件下,红香芋试管球茎形成及膨大过程中主要碳水化合物的变化规律,以及与相关酶活性的关系。结果表明:(1)在红香芋试管球茎膨大过程中,果糖、葡萄糖和总可溶性糖含量均呈先升高后降低的变化趋势,果糖含量在诱导至第27天时达到最大值,而总可溶性糖和葡萄糖含量均在第34天达到峰值;蔗糖含量呈现先上升、后下降、再上升的变化趋势,在培养第48天时积累量达到最大值。(2)红香芋试管球茎总淀粉含量、直链和支链淀粉含量均随培养时间的延长而增加,至膨大后期总淀粉含量达到最大值,淀粉总含量约占干重的76%,并以支链淀粉含量为主。(3)解剖学观察发现,随着试管球茎的形成与膨大,贮藏组织中淀粉粒密度不断增大,至球茎膨大后期,淀粉粒布满薄壁细胞,并且处于比较稳定的水平。(4)诱导培养至第41天时,试管球茎的ADPG焦磷酸化酶和Q-酶活性均达到最大值,分别为1.22和2.39μmol·g~(-1)·min~(-1)。相关性分析发现,从茎基部开始膨大(20d)至ADPG焦磷酸化酶和Q-酶活性达峰值(41d)时,ADPG焦磷酸化酶活性与总淀粉含量、Q-酶活性与支链淀粉含量的相关系数分别为0.819和0.738,二者均呈极显著正相关。研究认为,淀粉的积累以及可溶性糖类含量的变化与红香芋试管球茎的膨大发育密切相关,并受到相关酶的调控。     

生长抑素联合双歧杆菌四联活菌治疗急性胰腺炎的效果及对肠粘膜屏障功能的影响

目的:探究生长抑素联合双歧杆菌四联活菌治疗急性胰腺炎的效果及对肠粘膜屏障功能的影响。方法:选取2015年8月～2018年8月我院收治的急性胰腺炎患者98例,根据患者入院先后顺序分为两组。对照组患者给予生长抑素治疗,观察组在对照组的基础上联合双歧杆菌四联活菌片治疗。比较两组患者的临床治疗效果,临床症状和指标的恢复时间及胃肠动力的恢复情况,治疗前后D-乳酸、二胺氧化酶(DAO)和尿乳果糖和甘露醇的比值(L/M)水平的变化。结果:治疗后,观察组患者的总有效率显著高于对照组(P0.05),腹痛、腹胀、腹膜刺激征、血淀粉酶和尿淀粉酶恢复正常时间均显著短于对照组(P0.05)。治疗后,两组患者的血清D-乳酸、DAO和L/M水平均较治疗前显著下降,且观察组以上指标均显著低于对照组(P0.05)。此外,观察组患者的腹内压显著低于对照组,肠鸣音恢复时间显著短于对照组,胃肠减压引流量显著低于对照组(P0.05)。结论:与单用生长抑素相比,生长抑素联合双歧杆菌四联活菌可更迅速缓解急性胰腺炎患者的临床症状及指标,恢复胃肠动力,并显著改善患者的肠粘膜屏障功能,利于患者的康复。