甘蔗热带种金属硫蛋白家族基因的克隆及响应重金属胁迫的表达分析

金属硫蛋白是一类富含巯基的低分子量蛋白,在植物的重金属解毒及细胞氧化还原调控等方面起重要的作用。本研究以甘蔗热带种Badila组培苗为材料,分别测定了其在CdCl2、ZnSO4和CuCl2水溶液培养条件下地上部和地下部的重金属含量,结果显示其对上述3种重金属有较强的耐受与富集能力。继而克隆了ScMT1(登录号为KJ504373)、ScMT2-1-5(登录号为MH191346)和ScMT3(登录号为KJ5043704)3个金属硫蛋白家族基因,它们分别属于植物MT亚家族中的MT1、MT2和MT3型基因。ScMT1含有1个内含子和2个外显子,开放阅读框(Open Reading Frame,ORF)长228 bp,编码75个氨基酸;ScMT2-1-5含有2个内含子和3个外显子,ORF长246 bp,编码81个氨基酸;ScMT3含有1个内含子和2个外显子,ORF长198 bp,编码65个氨基酸。RT-qPCR显示,Cd2+胁迫下,在甘蔗地上部和地下部,ScMT2-1-5均连续显著上调表达,而ScMT1的上调应答出现延迟。ScMT3在地上部的上调应答出现延迟,在地下部呈“扬-抑”趋势,提示甘蔗响应Cd^2+胁迫过程中ScMT2-1-5起更积极的作用,ScMT1参与胁迫后期的分子响应,而ScMT3不起主导作用。Cu^2+胁迫下,地上部ScMT1连续显著上调表达,ScMT2-1-5和ScMT3呈总体上调的表达趋势;地下部,ScMT1和ScMT2-1-5的上调表答均出现延迟,仅在胁迫后期显著上调表达,而ScMT3仅在胁迫前期显著上调表达。该结果提示了ScMT1、ScMT2-1-5和ScMT3在Cu2+胁迫响应过程中的协作关系,三者共同参与了地上部的胁迫响应,其中ScMT1起更积极的作用;此外三者还先后参与了地下部对Cu^2+胁迫的分子响应。Zn^2+胁迫下,ScMT1和ScMT3分别仅在地上部和地下部显著上调表达;ScMT2-1-5在地上部和地下部均呈“扬-抑”的应答趋势;提示了在甘蔗响应Cd^2+胁迫应答过程中ScMT1和ScMT3分别在地上部和地下部起主要作用,ScMT2-1-5参与了胁迫前期的分子响应。ScMT1、ScMT2-1-5和ScMT3在甘蔗不同组织中及在重金属(Cd^2+、Zn^2+或Cu^2+)不同累积水平下呈现出相似或互补的应答特性,提示上述甘蔗MT家族不同成员在重金属解毒及细胞氧化还原调控等方面产生了功能分化,且三者在应对过量Cd^2+、Zn^2+或Cu^2+对甘蔗组织造成伤害的过程中存在时空上的协同作用。该研究为深入理解多倍体植物甘蔗中MT家族各成员基因在重金属耐受过程中的协同作用机制奠定了基础。     

稻瘟病菌CAAX蛋白酶MoRce1的功能研究

 蛋白质的翻译后异戊烯化修饰(CAAX修饰)能够介导真核生物中许多重要蛋白质的亚细胞定位以及蛋白与蛋白间的相互作用。稻瘟病菌(Magnaporthe oryzae)引致的稻瘟病是水稻最重要病害之一,造成全球水稻严重减产。为深入了解稻瘟病菌致病机理,更好地防控稻瘟病,我们研究了异戊烯修饰是否影响稻瘟病菌的生长发育和致病性。首先从稻瘟病菌基因组数据库中鉴定到一个稻瘟病菌的异戊烯蛋白酶MoRce1,同源比对发现MoRce1保守结构域在各物种之间变化较大,猜测在不同物种中该蛋白可能出现了功能分化。经同源重组方法敲除MoRCE1基因,发现MoRCE1缺失突变体在胁迫培养条件下细胞壁完整性明显缺陷,但是对营养生长、产孢、萌发以及致病性没有明显影响,说明MoRce1蛋白可能通过参与稻瘟病菌细胞壁合成相关蛋白的异戊烯化修饰进而影响该菌细胞壁的完整性,其具体机制还有待深入研究。     

杉木第3代种子园多元素配方施肥效应研究

杉木种子园为培育高产稳产杉木良种提供重要保障,在林业生产中具有积极意义。通过试验研究,探究杉木3代种子园土壤养分丰缺情况、养分间的平衡规律,确定杉木种子园最佳肥料配比和施肥量,以期为闽北低山丘陵红壤分布区杉木种子园提供推荐施肥配方。采用“3414”配方施肥设计方案,对闽北第3代杉木种子园开展N、P、K、Ca、Mg、B、Mo等元素施肥试验。分别设计大量元素氮、磷、钾三因素施肥水平（并增设施用钼肥处理）、中微量元素钙、镁、硼三因素施肥水平,以球果数量（质量）、出籽率、种子产量、胸径等为评价指标,拟合肥料效应函数方程,研究各养分间的作用规律,并提出最佳施肥配比和施肥量。结果表明：种子园土壤N、P、K、Ca、Mg养分含量较低,B含量属于中等水平,而Mo含量较高;N、P、Mg以及N-K、Ca-B肥料联合对种子园产量的影响达到显著或极显著水平,而单施某一肥料效应较小,其中单施K、Ca、B几乎没有效果,而肥料联合施用效果较好。综合效应分析结果,得出种子园最大产量施肥量组合为：每株施尿素100 g+过磷酸钙897 g+氯化钾150 g+石灰150 g+硫酸镁105 g+硼砂75 g,并配施钼肥。N、P₂O₅、K₂O、CaO、Mg、B、Mo的用量依次为46.0、107.7、90.0、75.0、31.4、2.3、5.0 g,其配比为N:P₂O₅:K₂O:CaO:Mg:B:Mo=1.0:2.3:2.0:1.6:0.7:0.05:0.1。多元素配方施肥能很好地改善杉木种子园产量和质量,单株球果产量、球果单粒重、出籽率及种子园产量等指标均比不施肥的母树有大幅度提高。本研究施肥方案,理论上种子园产量可达45.99~95.65 g/株,大量元素施肥试验的产量达到理论产量的80%~86%,中微量元素施肥试验的产量为理论产量的70%左右。现实种子园平均产量大约是预测产量的40%,通过合理配方施肥有望大幅度提高杉木3代种子园产量。     

连栽木麻黄根际微生物群落结构和功能特征

以不同栽培代数的木麻黄(第1代FCP、第2代SCP、第3代TCP)根际土壤为试验材料,运用BIOLOG微平板和磷脂脂肪酸(PLFA)技术分析根际土壤微生物群落结构和功能多样性对多代连栽响应。结果表明,不同代数的土壤微生物对各类碳源的利用程度存在显著差异,连栽后木麻黄根际土壤微生物对碳源利用率显著下降。在6类碳源中,除胺类外,其他5种碳源均呈现FCP>SCP>TCP。PLFA分析共检测到11种PLFA生物标记,FCP土壤微生物PLFA生物标记总量明显高于SCP和TCP,3个代数土壤中含量最高的PLFA生物标记是i16:0、a15:0和18:1ω9c。土壤中特征微生物含量差异明显,细菌分布量最大,其次是真菌和放线菌。随栽植代数增加,细菌含量减少,真菌含量增加。土壤微生物群落多样性指数均呈现FCP>TCP>SCP,与土壤理化性质变化密切相关。可见木麻黄连栽显著影响其根际土壤微生物群落结构与功能,因此根际土壤微生态失衡可能是导致木麻黄连栽障碍的重要因素。     

生物炭对Bt Cry1Ac蛋白抗紫外能力影响

为了研究生物炭对紫外线的防护作用，以豆壳烧制的生物炭作为载体，研究生物炭对Bt Cry1Ac蛋白的吸附行为以及生物炭对Cry1Ac蛋白的紫外保护作用。使用扫描电子显微镜、透射电子显微镜、X-射线粉末衍射以及傅立叶红外光谱等手段对生物炭的形貌和结构进行表征。结果表明，生物炭是典型的多孔结构材料，表面具有丰富的官能团。Cry1Ac蛋白与生物炭吸附平衡时间为50 min，最合适的吸附浓度比（生物炭：蛋白）为1：100，二者吸附符合准二级动力学模型和Langmuir模型。在UVB紫外照射4 h后，生物炭与Cry1Ac蛋白复合物对棉铃虫的生物活性是单纯蛋白的4.93倍，显示生物炭具有较好的紫外抵抗效果。研究结果初步表明，制备得到的生物炭能够显著提高Cry1Ac蛋白的抗紫外能力，为后续研发耐受紫外线的农药剂型提供新材料。     

Impact of the COVID-19 pandemic on agricultural exports

The COVID-19 outbreak has shocked the world's economies in the year of 2020. As this pandemic spreads around the globe, many experts feared that the global food supplies might start running short, especially if supply chains were disrupted. COVID-19 also added to the uncertainty of the business operation. Therefore, it is critical to understand how COVID-19 pandemic affected global food supply and market. In this study, we investigate the impact of COVID-19 on agricultural export companies in China using a unique firm-level survey data. We found that although on average agricultural businesses experienced declines in the exports, exports of some agricultural products especially grain and oil held strong and even increased, implying the essential demand for staple food during the pandemic. Not surprisingly, exports of medicinal herb also increased significantly during the pandemic. However, exports of goods such as edible fungus and horticultural products sharply decreased. Our results also showed that in general, impact of COVID-19 on smaller firms was more severe than that on larger firms. The results of this study can provide useful guidance and implications for agricultural businesses and policy makers on their COVID-19 mitigation efforts to navigate this global pandemic.     

miR-204 inhibits proliferation of Hodgkin lymphoma cells by targeting Sirt1/p53 signaling pathway

AIM: To investigate the effect of microRNA-204 (miR-204) on the proliferation of Hodgkin lymphoma cells and the underlying mechanism. METHODS: The expression of miR-204 and Sirt1 mRNA in Hodgkin lymphoma tissues was detected by RT-qPCR. After transfection with miR-204 mimic, Sirt1 siRNA and miR-204 mimic+pcDNA3.1-Sirt1 into the L428 cells, the cell viability and BrdU incorporation were measured by CCK-8 assay and BrdU assay, respectively. The protein levels of Sirt1 and acetylated p53 (ac-p53) were determined by Western blot.The targeting relationship between miR-204 and Sirt1 was verified by double luciferase reporter assay. RESULTS: The low expression of miR-204 and the high mRNA expression of Sirt1 were found in the Hodgkin lymphoma tissues. Compared with control group, the cell viability, BrdU incorporation and the protein levels of Sirt1 and ac-p53 were significantly decreased after L428 cells were transfected with miR-204 mimic or Sirt1 siRNA (P<0.05). Compared with miR-204 mimic alone group, the cell viability, BrdU incorporation and the protein levels of Sirt1 and ac-p53 were increased after L428 cells were co-transfected with miR-204 mimic and pcDNA3.1-Sirt1 (P<0.05). The results of double luciferase reporter assay confiermed that Sirt1 was the target gene of miR-204. CONCLUSION: The inhibitory effect of miR-204 on the proliferation of L428 cells may be achieved by inhibiting the expression of Sirt1 and promoting the up-regulation of ac-p53.     

贪食迈阿密虫(M.avidus)对4种海水养殖鱼类组织匀浆液的趋化性

通过对贪食迈阿密虫(M. avidus)对4种养殖鱼类组织匀浆液的趋化特性进行研究,以探讨贪食迈阿虫对养殖鱼类的侵染特点。试验结果显示,贪食迈阿密虫对大黄鱼、大菱鲆、黄姑鱼、鲈鱼的眼、脑、脑脊液匀浆液有强烈的趋化效果(P<0.01),对皮肤黏液、鳃、肝、肌肉、肾组织匀浆液的趋化性较弱(P>0.05);对不同鱼类组织匀浆液对贪食迈阿密虫的趋化诱导差异比较结果推测,贪食迈阿密虫对宿主具有一定的选择性。本研究有助于深化贪食迈阿密虫致病性的认识,并为海水养殖鱼类盾纤虫病的预防提供参考资料。     

米槠人工林土壤微生物群落组成对凋落物输入的响应

全球气候变化显著影响森林凋落物数量,进而会对土壤微生物群落造成影响。本研究以亚热带米槠人工林为研究对象,探究不同凋落物量输入处理(凋落物去除、凋落物加倍、对照)下,森林土壤微生物群落组成的变化。结果表明:与去除凋落物相比,凋落物加倍后0~10 cm土壤铵态氮(NH4^+-N)、硝态氮(NO3^--N)、全氮(TN)、有效磷(AP)含量分别显著增加了30.30%、49.66%、12.77%和13.90%。与对照相比,凋落物加倍与去除处理土壤微生物生物量碳(MBC)和氮(MBN)含量分别显著增加和下降(P<0.05),但凋落物加倍与去除处理间无显著差异。凋落物加倍处理下土壤丛枝菌根真菌(AMF)、革兰氏阳性菌[G(+)]、革兰氏阴性菌[G(-)]、放线菌(ACT)、真菌(F)丰度和总磷脂脂肪酸(TPLFA)含量分别比去除凋落物处理的土壤高68.35%、63.35%、82.65%、69.02%、40.56%和65.85%,而土壤革兰氏阳性菌与阴性菌比值、真菌与细菌比值则分别降低11.64%和26.67%。冗余度分析表明,铵态氮是影响该人工林土壤微生物群落组成的最主要环境因子。可见凋落物输入量变化改变了土壤养分有效性,进而显著影响了土壤微生物群落组成,这对进一步深入探究全球气候变化对亚热带森林土壤养分循环的影响具有重要意义。     

Intrinsic influence of various plasticizers on functional properties and reactivity of wheat gluten thermoplastic materials

Various compounds, differing in their chemical functions, number of functional group and degree of hydrophobicity, were tested as wheat gluten plasticizers in a thermoplastic process. A low melting point and a moderate hydrophobicity were found to be critical characteristics of a good wheat gluten plasticizer. The influence of five selected plasticizers (water, glycerol, 1,4-butanediol, lactic and octanoic acids) on functional properties of the wheat gluten network was investigated. Dried gluten was used to avoid any plasticization due to hydration water (usually around 10% for commercial gluten). The influence of plasticizer properties and content was studied by dynamic mechanical thermal analysis, size exclusion-high performance liquid chromatography, tensile and water swelling tests. The plasticizing effect, at the same molar content, was found to be identical for water, glycerol and 1,4-butanediol. Lactic and octanoic acids were found to have higher and lower plasticizing effects, respectively. Mechanical properties were mainly related to the thermoplastic state of the materials. Water and lactic acid were found to confer smaller and larger extensibilities, respectively, to gluten materials. Thermo-mechanical reactivity also depended on plasticizer properties. Gluten aggregation, normally induced by heating, was prevented by the acidic environment produced by lactic acid. Water swelling behaviour was found to depend on the hydrophobicity of the plasticizer used, on the degree of gluten crosslinking and on the pH of the gluten-plasticizer blend.