m6A甲基化在鸡肌肉生长发育中的表达研究

试验旨在研究RNA m6A修饰相关基因去甲基化酶Alk B同源蛋白5（Alk B homologue 5，ALKBH5）、去甲基化酶肥胖相关蛋白（fat mass and obesity-associated protein，FTO）、甲基转移酶样蛋白3（methyltransferase like 3，METTL3）、甲基转移酶样蛋白14（methyltransferase like 14，METTL14）和成肾细胞瘤1-结合蛋白（Wilms’tumor 1-associating protein，WTAP）在鸡骨骼肌发育过程中的表达，分析其与骨骼肌m6A甲基化水平的相关性。首先，利用实时荧光定量PCR技术检测m6A甲基化相关基因在金茅花鸡12（E12）、14（E14）、16（E16）、18（E18）胚龄和1日龄腿肌和胸肌组织中mRNA表达水平，以及其在鸡成肌细胞50%、100%增殖期和1、2、3、4、5 d分化期的mRNA表达水平；随后，利用m6A甲基化试剂盒检测金茅花鸡E12和1日龄腿肌和胸肌组织中m6A甲基化修饰水平，与m6A甲基化相关基因表达水平进行相关性分析。结果显示，m6A去甲基化基因ALKBH5和FTO mRNA表达水平在骨骼肌发育过程中显著上调（P<0.05），即在E12、E14低表达，E16、E18逐渐上调，1日龄达到最高。m6A甲基化写入基因METTL14、METTL3和WTAP mRNA表达水平在E12、E14、E16逐渐上升，E18下降，随后至1日龄表达量回升。在细胞增殖过程中，ALKBH5、FTO、METTL14、METTL3和WTAP基因表达均上调；在细胞分化过程中ALKBH5和FTO基因表达水平显著上调（P<0.05），在分化第5天达到最高。METTL14、METTL3和WTAP基因mRNA表达水平在细胞诱导分化的1、2、3、4 d表达量呈下降趋势，而在诱导分化的第5天有所回升。甲基化水平检测结果显示，腿肌和胸肌m6A甲基化水平变化趋势一致，均在胚胎发育过程中显著下降（P<0.05），至1日龄达到最低。相关性分析结果显示，鸡骨骼肌RNA m6A甲基化水平与m6A去甲基化修饰基因ALKBH5、FTO mRNA表达水平呈显著负相关（P<0.05）。综合以上试验结果，推测m6A甲基化修饰与鸡骨骼肌发育相关，而去甲基化基因ALKBH5、FTO可能通过调控RNA m6A甲基化水平，影响鸡骨骼肌发育。本研究结果为进一步研究m6A甲基化修饰调控鸡骨骼肌生长发育的功能和分子机制提供理论依据。     

维生素A对肉牛脂肪沉积及其调控的研究进展

维生素A是肉牛维持正常生理功能、生化代谢及生长发育所必需的一类脂溶性维生素，机体自身不能合成，必须由饲粮供给。饲粮中维生素A不仅影响肉牛视觉和骨骼发育，也对肉牛脂肪沉积和肌肉大理石花纹形成等发挥着重要调控作用。在生产中，肉牛处在不同生理阶段对维生素A的需要量也不同，胎牛和犊牛阶段补充维生素A可增强肌内脂肪细胞发育和脂肪细胞增生，促进肌内脂肪沉积；育肥期限饲维生素A可提高肉牛的肌内脂肪沉积和大理石花纹等级。大理石花纹与牛肉的嫩度和风味密切相关，是衡量牛肉品质的重要指标。维生素A在肉牛体内通过其活性代谢产物视黄醇、视黄醛和视黄酸促进脂肪的形成，并在成脂定型、成脂分化和脂质蓄积的每个阶段都发挥重要作用。脂肪沉积过程受转录因子过氧化物酶体增殖物激活受体（peroxisome proliferator-activated receptors，PPARs）、CCAAT增强子结合蛋白（CCAAT-enhancer binding proteins，C/EBPs）和Janus激酶-信号转导及转录激活因子（JAK-STAT）信号转导通路等调控。表观遗传修饰的DNA甲基化和去甲基化也可通过调控脂肪形成过程中相关基因的表达参与脂肪细胞的分化和脂肪组织的生长发育，从而影响肉牛的脂肪沉积。作者主要介绍了脂肪组织不同阶段的形成过程和维生素A的生物学功能；重点阐述了肉牛在不同生理阶段补充和限饲维生素A，通过转录因子的表达、表观遗传修饰等途径来影响成脂相关信号通路调控脂肪沉积的机理，以期为促进维生素A改善肉牛品质和高档牛肉生产提供参考。     

Molecular mapping of soybean seed tocopherols in the cross ‘OAC Bayfield’ × ‘OAC Shire’

Soybean (Glycine max [L.] Merr.) is cultivated primarily for its protein and oil in the seed. In addition, soybean seeds contain nutraceutical compounds such as tocopherols (vitamin E), which are powerful antioxidants with health benefits. The objective of this study was to identify molecular markers linked to quantitative trait loci (QTL) that affect accumulation of soybean seed tocopherols. A recombinant inbred line (RIL) population derived from the cross ‘OAC Bayfield’ × ‘OAC Shire’ was grown in three locations over 2 years. A total of 151 SSR markers were polymorphic of which a one‐way analysis of variance identified 42 markers whereas composite interval mapping identified 26 markers linked to tocopherol QTL across 17 chromosomes. Individual QTL explained from 7% to 42% of the total phenotypic variation. Significant two‐locus epistatic interactions were identified for a total of 122 combinations in 2009 and 152 in 2010. The multiple‐locus models explained 18.4–72.2% of the total phenotypic variation. The reported QTL may be used in marker‐assisted selection (MAS) to develop high tocopherol soybean cultivars.     

维生素A调节动物一氧化氮的生成及其相关机制

动物机体由于旺盛的新陈代谢或在受到外界有害因素刺激的情况下会产生大量一氧化氮(NO),进而损伤细胞中的蛋白质、类脂膜和DNA,引发细胞炎症并阻断细胞信号通路,使机体产生氧化应激。维生素A可以有效地调控NO的生成,提高机体抗氧化水平并清除自由基,预防细胞炎症及氧化应激的发生。本文主要综述了维生素A对动物NO生成的调节作用及其相关机理的研究进展,对今后深入研究其调节机理、科学补充维生素A及提高机体的抗氧化功能具有一定参考价值。     

籼型耐高温三系不育系巨风2A的选育

以优质常规材料9526为母本,宜陵1B为父本杂交,优选后代与宜陵1A回交而育成的早熟中籼型三系不育系巨风2A,具有耐高温、高异交率、高配合力,所配杂交稻熟色好等优点,应用前景广泛。2014年8月通过了湖北省农作物品种审定委员会的现场鉴定,2015年通过了湖北省审定。     

高产、优质多抗夏播糯高梁商梁七号的选育

商粱七号高粱新杂交种是利用824A细胞质雄性不育系作母本，自育恢复系商恢六号作父本，杂交选育而成。经过两年新组合观察试验，两年华北夏播生态区高粱预备区域试验，产量均居第二位，2009—2010年参加两年的华北夏播生态区高粱区域试验，产量居该试验的第二位；该杂交种淀粉含量高达74．20％，支链淀粉占总淀粉的74．19％，是一个比较理想的酿造专用高粱新品种。     

早胜牛的采精及细管冻精制作技术要点

近年来，伴随我国畜牧业蓬勃发展的同时，为了更大限度的提高母畜的受胎率和充分利用优秀种畜的基因，人工授精技术得到了不断完善和发展，并在全国各地广泛推广和应用。本文结合实践经验总结出的一些技术措施，阐述了对早胜牛这一地方优良种质资源进行保种和开发利用的重要意义，同时指出人工授精技术和低温冷冻保存精液技术在早胜牛上的实践，对于进一步开发利用培育优质高产肉牛新品种，促进肉牛产业高质量发展具有非常重要的现实意义。通过早胜牛种公牛采精的全过程以及细管冻精制作要点的详细讲解，低温冷冻保存精液技术，可更经济、可靠地实现家畜品种资源的保护，让优良基因长时间保存使得后续研究需要得到保障。     

赭曲霉毒素A对肉鸡毒性作用的研究进展

霉菌毒素污染是影响动物饲料安全的重要因素。赭曲霉毒素A（ochratoxin A,OTA）广泛存在于肉鸡饲料原料中。众多研究表明,OTA对肉鸡具有肾毒性、肝毒性、细胞毒性、遗传毒性、致癌性、致畸性、免疫毒性和肠道毒性等,给肉鸡养殖业带来了巨大的经济损失,也对动物和人类的健康造成威胁。对国内外OTA研究进展进行总结归纳,从诱导机体产生肠毒性、肝毒性、肾毒性和免疫毒性四方面阐述OTA对肉鸡的致毒机制,为深入研究OTA提供参考。     

Comparison of dietary essential amino acid requirements determined from group‐housed versus individually‐housed juvenile bluegill,Lepomis macrochirus

Two 60‐day experiments were conducted sequentially to determine (i) lysine requirement of juvenile bluegill, Lepomis macrochirus based on the dose–response method, (ii) requirements for other essential amino acids (EAAs) using whole‐body amino acid profile and (iii) whether differences in growth rates of group‐housed versus individually‐housed bluegills lead to different lysine requirement levels because of the presence and absence, respectively, of social hierarchies. Seven, semi‐purified, experimental diets (isonitrogenous, isocaloric) were prepared to contain graded levels of digestible lysine (10–31 g kg⁻¹). Experiment‐1 involved group‐housed bluegills (approximately 27 g, n = 10 fish/chamber, 4 chambers/diet) whereas experiment‐2 involved individually‐housed bluegills (approximately 30 g, n = 1 fish/chamber, 14 chambers/diet). Fish were fed twice daily to apparent satiation. Bluegill growth responses in both experiments generally improved (P < 0.05, anova ) with increasing dietary lysine levels from 10 to 16 g kg⁻¹, and then levelled off with further increase in lysine level (P > 0.05). Optimal dietary lysine level (digestible basis) was estimated to be 15 g kg⁻¹ based on broken‐line regression analyses of relative growth rate and feed conversion ratio with no differences being observed between the two rearing methods. Determined dietary requirement levels for other EAAs ranged from 2.4 g kg⁻¹ (tryptophan) to 15.3 g kg⁻¹ (leucine).     

Effect of rifaximin on gut-lung axis in mice infected with influenza A virus

Gut-lung axis injury is a common finding in patients with respiratory diseases as well as in animal model of influenza virus infection. Influenza virus damages the intestinal microecology while affecting the lungs. Rifaximin, a non-absorbable derivative of rifamycin, is an effective antibiotic that acts by inhibiting bacterial RNA synthesis. This study aimed to determine whether rifaximin-perturbation of the intestinal microbiome leads to protective effects against influenza infection, via the gut-lung axis. Our results showed that influenza virus infection caused inflammation of and damage to the lungs. The expression of tight junction proteins in the lung and colon of H1N1 infected mice decreased significantly, attesting that the barrier structure of the lung and colon was damaged. Due to this perturbation in the gut-lung axis, the intestinal microbiota became imbalanced as Escherichia coli bacteria replicated opportunistically, causing intestinal injury. When influenza infection was treated with rifamixin, qPCR results from the gut showed significant increases in Lactobacillus and Bifidobacterium populations, while Escherichia coli populations markedly decreased. Furthermore, pathology sections and western blotting results illustrated that rifaximin treatment strengthened the physical barriers of the lung-gut axis through increased expression of tight junction protein in the colon and lungs. These results indicated that rifaximin ameliorated lung and intestine injury induced by influenza virus infection. The mechanisms identified were the regulation of gut flora balance and intestinal and lung permeability, which might be related to the regulation of the gut-lung axis. Rifaximin might be useful as a co-treatment drug for the prevention of influenza virus infection.