Subjects: Biology >> Botany >> Applied botany submitted time 2021-04-29 Cooperative journals: 《广西植物》
Abstract: As an important and economic bamboo species in China, Moso bamboo has performed lots of variations with long-term cultivation conditions. For an overall understanding of the whole genome of four representative culm variations, Phyllostachys edulis f. holochrysa, P. edulis f. gracilis, P. edulis f. nabeshimana and P. edulis f. huamozhu, re-sequencing was used for high-throughput sequencing to detect its variations by molecular data. The single nucleotide polymorphism (SNP), insertion-deletion (InDel) and structure variation (SV) were detected and annotated, and the mutant genes were compared with the functional databases. The results were as follows: Phyllostachys edulis f. gracilis had the lowest number of mutation sites, that was 11 923, and Phyllostachys edulis f. huamozhu had the highest number 12 555, of which more than 7 000 mutant genes were annotated. GO annotation classification included 56 functional groups of three functional classification systems: cellular component, molecular function and biological processes. In terms of cell components, there were 2 431 genes related to chlorophyll synthesis. In terms of biological processes, there were 75 genes involved in the synthesis of carotenoids and 80 ones involved in the regulation of anthocyanin synthesis and anthocyanin accumulation in tissues under ultraviolet light. COG classification showed that 369 genes involved in replication, recombination and repair, 291 ones in signal transduction mechanism, and 222 ones in transcription. The metabolic pathways of flavonoids, carotenoids and other substances involved in the mutant genes were analyzed by KEGG database. In-depth study of the regulatory pathways and interpretation of the variation mechanism on culm from the DNA level, can provide a data basis for further exploration of the rich polymorphism and genetic variation of Moso bamboo, and elucidate the genetic basis of gene family and functional genes of different variation types.
Subjects: Biology >> Bioengineering submitted time 2017-11-26 Cooperative journals: 《中国生物工程杂志》
Abstract:生物制品引发机体的产生非必要的免疫反应,影响药物的疗效和安全性。因此,有必要对处于不同研发阶段的生物制品的进行免疫原性进行评估,包括上市后的监测。免疫原性评价是所有生物制品研发过程中的关键环节,监管部门对生物制品的免疫原性评估有严格要求,但是对于证据的类型,数量和质量缺少统一标准,也缺少生物制品免疫原性测定实验设计的指导文件或免疫原性比较的标准。由于检测方法技术进步,免疫原性检出率也有了相应的提高,因此,只能进行“头对头”临床试验,对生物制药的免疫原性进行评估。新技术的出现促进了免疫原性评估的发展。因此,研究机构,监管机构和临床医生都需要认识到免疫原性分析方法的变化。在这里,我们讨论生物制品免疫原性的相关因素,潜在的临床后果,目前评估免疫原性的监管指导变化,非临床和临床研究的免疫原性评估方法的发展。以及讨论了生物仿制药免疫原性评估需要特别注意的事项。
Subjects: Biology >> Bioengineering submitted time 2017-11-26 Cooperative journals: 《中国生物工程杂志》
Abstract:生物制品引发机体的产生非必要的免疫反应,影响药物的疗效和安全性。因此,有必要对处于不同研发阶段的生物制品的进行免疫原性进行评估,包括上市后的监测。免疫原性评价是所有生物制品研发过程中的关键环节,监管部门对生物制品的免疫原性评估有严格要求,但是对于证据的类型,数量和质量缺少统一标准,也缺少生物制品免疫原性测定实验设计的指导文件或免疫原性比较的标准。由于检测方法技术进步,免疫原性检出率也有了相应的提高,因此,只能进行“头对头”临床试验,对生物制药的免疫原性进行评估。新技术的出现促进了免疫原性评估的发展。因此,研究机构,监管机构和临床医生都需要认识到免疫原性分析方法的变化。在这里,我们讨论生物制品免疫原性的相关因素,潜在的临床后果,目前评估免疫原性的监管指导变化,非临床和临床研究的免疫原性评估方法的发展。以及讨论了生物仿制药免疫原性评估需要特别注意的事项。
Subjects: Biology >> Zoology submitted time 2017-10-23 Cooperative journals: 《动物营养学报》
Abstract:反刍动物甲烷的排放既造成饲料能量的浪费,也会加剧全球变暖作用。在反刍动物瘤胃中,产甲烷菌主要利用二氧化碳转化产生甲烷。产甲烷菌转化二氧化碳的最后一步反应需要甲基辅酶M还原酶参与,3-硝基酯-1-丙醇(3-nitrooxypropanol,3-NOP)是一种甲基辅酶M类似物,能与辅酶B结合,从而减少甲基辅酶M与辅酶B结合生成甲烷,因此3-NOP能有效地降低瘤胃甲烷的产生。本文旨在阐明3-NOP抑制反刍动物瘤胃甲烷产生的机制以及对反刍动物生产的影响。
Subjects: Biology >> Zoology submitted time 2017-10-10 Cooperative journals: 《动物营养学报》
Abstract:本试验旨在研究不同长链脂肪酸组合对体外培养瘤胃细菌发酵和群体结构的影响。以3头瘤胃瘘管奶牛提供瘤胃液,对照(A)组底物含5%脂肪酸钙,试验组培养底物中硬脂酸、油酸、亚油酸和亚麻酸的含量分别为1.5%、1.0%、0.5%和1.5%(B组),1.5%、1.0%、1.5%和1.0%(C组),1.0%、1.5%、1.5%和0.5%(D组)以及1.5%、0.5%、0.5%和1.0%(E组)。在培养后0、3、6、12、18、24 h采集培养液,测定pH、氨氮浓度和瘤胃细菌含量。结果表明:1)培养液pH在组间的差异不显著(P>0.05);C组的培养液氨氮浓度显著高于B、D组(P<0.05)。2)除白色瘤胃球菌,其他菌属含量在组间存在显著差异(P<0.05)。其中琥珀酸拟杆菌、生黄瘤胃球菌、蛋白溶解梭菌和嗜淀粉瘤胃杆菌含量在B组较高;C组溶纤维丁酸弧菌、埃氏巨球菌、降解淀粉瘤胃球菌以及瘤胃总细菌含量显著高于其他各组(P<0.05)。培养液埃氏巨球菌含量最高,为优势菌。综合得出,脂肪酸组合对瘤胃总细菌和大部分细菌种属含量有显著影响,这与发酵模式有关。
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