不同稻作方式对稻田杂草群落的影响

运用半试验与调查相结合的方法,以贵州省从江县传统农业区的糯稻和杂交稻为例,研究了在水稻单作（R）、稻-鱼（R-F）和稻-鱼-鸭（R-F-D）3种不同稻作方式下稻田杂草群落的特征.结果表明：糯稻在3种稻作方式下的抑制杂草能力均优于杂交稻;R-F-D显著降低了田间杂草的发生密度,对鸭舌草、节节菜等的抑制效果达到100%,总体抑制杂草效果显著优于其他稻作方式,杂草的物种丰富度及Shannon多样性指数显著降低,Pielou均匀度指数提高,表明群落物种组成发生了很大的改变,降低了原来优势杂草的发生, 是一种较好的可达到抑制杂草效果的稻作方式.     

Interferon selectively inhibits the expression of mitochondrial genes: a novel pathway for interferon-mediated responses.

As an approach to identifying genes involved in physiological actions of interferons we used differential probes to screen a cDNA library from mouse L-929 cells treated with interferon alpha/beta. We identified two negatively regulated mRNA species which have been examined by analysis of the corresponding mRNAs and by DNA sequencing. Comparison with the GenBank database showed that these cDNA clones corresponded to mitochondrially encoded genes for cytochrome b and subunit I of cytochrome c oxidase. A further cDNA encompassing three mitochondrial genes was used as a probe to show that a third mRNA, NADH dehydrogenase subunit 5, was also down-regulated by interferon while a fourth, NADH dehydrogenase subunit 6, was unaffected. Expression of cytochrome b was also inhibited in mouse NIH 3T3 cells treated with interferon alpha/beta and in human Daudi lymphoblastoid cells treated with interferon alpha. The ability of interferon to reduce mitochondrial mRNA levels could be blocked by cycloheximide suggesting that these effects are mediated by an interferon-responsive nuclear gene which encodes a product capable of regulating mitochondrial gene expression. Analysis of proteins synthesized in the presence of emetine, a specific inhibitor of cytoplasmic translation, showed that the synthesis of several mitochondrial translation products, including cytochrome b, was reduced after treatment with interferon. Our results reveal a novel effect of interferon on cellular physiology which could have important consequences for understanding the effects of interferons as well as suggesting new mechanisms for the regulation of mitochondrial biogenesis and function.     

Transformation of Saussurea involucrata by Agrobacterium rhizogenes: Hairy root induction and syringin production

Agrobacterium rhizogenes-mediated genetic transformation of Saussurea involucrata was investigated. Four bacterial strains, A4, LBA 9402, R1000 and R1601 and three explant types, leaf blade, petiole and root, were examined. Over 100 hairy root lines were successfully established with strains R1601, R1000 and LBA9402, but none with A4. The highest transformation efficiency of 67% was achieved by using strain R1601 with root explants. One hairy root line isolated from this combination, HR1601-1, produced up to 43.5 ± 1.13 mg syringin g⁻¹ dw, which is about 50-fold higher than that in the wild type plants.Two other lines, HR1000-1 and HRLBA9402-1, isolated from R1000- and LBA9402-transformed roots, respectively, also displayed high capacity of syringin production, being 32.5 ± 3.08 and 39.7 ± 1.37 mg syringin g⁻¹ dw. These three lines were characterized in detail. Polymerase chain reaction analyses confirmed these root lines were of A. rhizogenes origin.     

一个灵长类种属特异基因——XAGE-3转基因

目的分析XAGE-3基因在灵长类和啮齿类动物的基因组中的同源性,通过转基因研究XAGE-3基因在小鼠中的功能及生物学意义。方法根据Homologene及Taxplot数据库,通过Blast比对方法分析XAGE-3在两类动物基因组中的同源性;从人胎盘组织克隆XAGE-3基因,转入真核表达载体pCDNA3.1(+),显微注射方法得到转基因动物,基因组PCR鉴定基因型,反转录PCR分析基因的表达;Brdu标记3周龄动物显示睾丸内细胞的增殖。结果XAGE-3在人、黑猩猩和猕猴中存在高度同源基因,而在小鼠和大鼠中无同源区域;在基因型鉴定阳性的5个首建系中3个品系睾丸组织目的基因表达较高,在传代的两个品系中,在小肠,胸腺,睾丸等组织中目的基因均有表达;睾丸组织Brdu标记显示XAGE-3转基因动物有更多的发育晚期的精细胞被标记。结论XAGE-3作为灵长类种属特有基因在转基因小鼠中影响了精细胞发育。     

新型共聚物淀粉接技聚乳酸的制备及其表征

采用原位熔融共聚法,以淀粉和乳酸为原料,制备改性淀粉聚乳酸接枝共聚物,对共聚反应机理进行初步探讨.结果表明,淀粉经PEG-400和马来酸酐增塑改性处理反应活性增强,与乳酸反应生成的淀粉聚乳酸接枝共聚物分子量Mw为6.921×10~4,Mn为4.789×10~4,分子量分布Mw/Mn为1.445.共聚物在PBS缓冲溶液中进行降解测试,结果为6天后质量损失一半.     

寒颤对呼吸道复温作用的影响

目的：检测寒颤对呼吸道复温的影响。方法：采用冷水浸泡降温和注射卡肌宁抑制寒颤的方法建立抑制寒颤的低体温犬模型。受试犬吸湿热空气（40．45℃,RH99．9％）及室温空气（19±1℃,RH30％～75％）复温各2h,不同温度空气复温的先后顺序随机安排。复温4h后,加压呼吸湿热空气复温使其恢复自主呼吸,继续呼吸湿热空气复温直至直肠温度（Tr）和食道温度（Te）恢复入水时温度。实验过程中采用间接测热法测定代谢产热量。结果：①抑制寒颤时,吸湿热空气2h可使Tr和Te平均每小时分别增高0．26～0．39℃和0．44—1．11℃,吸室温空气2h可使Tr和re平均每小时分别降低0．24-0．51℃和0．58～0．67℃,Tr和Te的变化与呼吸不同温度空气的先后顺序无关。②有寒颤、自主呼吸湿热空气时,Tr和Te的复温速度分别为2．26～2．33℃／h和1．96～2．38℃／h,较抑制寒颤、呼吸湿热空气时明显加快。③与抑制寒颤、加压呼吸湿热空气时的代谢产热量比较,受试犬恢复寒颤自主呼吸湿热空气时代谢产热量明显增高,使复温速度明显加快。结论：呼吸道复温有助于低体温机体复温。寒颤时机体代谢产热量明显增高,使复温速度明显加快。因此,检测呼吸道复温作用时应抑制寒颤,排除寒颤产热的干扰。     

簇毛麦端体6VS的显微切割及其专化DNA序列的克隆和分析

从簇毛麦(Haynaldia villosa (L.) Schur.)组合CA9211/RW15(6D/6V异代换系)幼胚培养SC2后代中,用原位杂交方法鉴定出T240-6为6VS端体异代换系. 以此为材料,采用微细玻璃针切割法及"单管反应"技术体系,对6VS进行切割分离及LA (Linker adaptor)-PCR扩增.扩增带在100～3 000 bp 之间,大部分集中在600～1 500 bp.利用32P标记的簇毛麦基因组为探针进行Southern杂交,证实扩增产物来源于簇毛麦.扩增产物纯化后,连接到pGEM-T载体上,构建了6VS DNA质粒文库.对文库的分析表明,文库大约有17 000个白色克隆;插入片段分布在100～1 500 bp,平均600 bp.点杂交结果表明,37%克隆有中度到强烈的杂交信号,证明含有中度或高度重复序列;63%克隆有较弱的信号或没有信号,证明为单/低拷贝序列克隆.从文库中获得8个簇毛麦特异克隆,对其中两个克隆pHVMK22和 pHVMK134进行了RFLP分析和序列分析,并利用该探针对小麦抗白粉病基因Pm21进行了检测.RFLP 结果表明,两个克隆一个为低拷贝序列克隆(pHVMK22),另一个为高度重复序列克隆,均为簇毛麦专化DNA序列.以pHVMK22为探针对抗、感病小麦(Triticum aestivum L.)品系的Southern杂交发现抗病品系有一条2 kb的特征带, 该探针可能作为检测抗病基因Pm21的探针.     

内蒙古草甸草原土壤理化性质和微生物学特性对刈割与氮添加的响应

频繁的刈割和氮输入增加是导致草地生态系统退化的重要原因.土壤微生物学特性作为评估土壤质量的重要生物学指标,对草地刈割和氮输入增加的响应规律仍不十分明确.本研究依托内蒙古呼伦贝尔草原刈割复合氮添加野外实验平台,分析了土壤理化性质、土壤微生物生物量、土壤呼吸和土壤酶对刈割、氮添加的响应及其生长季动态变化.结果表明: 刈割显著降低了土壤微生物生物量碳、氮、磷和土壤呼吸(基础呼吸和底物诱导呼吸),与刈割后导致的水分限制及碳限制有关.刈割显著降低了氮磷获取酶(N-乙酰-β-D-葡萄糖苷酶和酸性磷酸单酯酶)的活性,符合“资源分配假说”.氮添加显著降低土壤pH值,但土壤微生物生物量对氮添加和pH降低均无显著响应,表明氮输入增加引起的土壤酸化不是影响微生物生物量的主要因素.氮添加对土壤呼吸和酶活性也无显著影响,与以往在典型草原的大多数研究结果不一致.刈割和氮添加复合处理显著降低了土壤微生物生物量磷,但提高了土壤中有效磷含量,降低了酸性磷酸酶活性.微生物生物量碳、氮、磷和土壤呼吸等的相关参数均在7月最高,这与夏季高温多雨有关.土壤酶活性在春夏季较高,生长季末期较低.这表明在该草甸草原,刈割将导致土壤碳氮磷养分失衡,从而加剧草原退化;而氮添加在短期内并未对土壤微生物生物量和活性产生显著影响.     

CDT1 is the major functional regulatory subunit of the pre‐replication complex in zygotes

Pre‐replication complex (pre‐RC) is critical for DNA replication initiation. CDT1 and MCM2 are the subunits of pre‐RC, and proper regulation of CDT1 and MCM2 are necessary for DNA replication and cell proliferation. The present study aimed to explore the role of CDT1 and MCM2 in oocyte meiotic maturation and early embryonic development. The depletion and overexpression of Cdt1 and Mcm2 in oocyte and zygote were achieved by microinjecting specific siRNA and mRNA to explored their functions in oocyte meiotic maturation and embryonic development. Then, we examined the effect of CDT1 and MCM2 on other signal pathways by immunostaining the expression of related maker genes. We showed that neither depletion nor overexpression of Cdt1 affected oocyte meiotic progressions. The CDT1 was degraded in S phase and remained at a low level in G2 phase of zygote. Exogenous expression of Cdt1 in G2 phase led to embryo attest at zygote stage. Mechanistically, CDT1 overexpression induced DNA re‐replication and thus DNA damage check‐point activation. Protein abundance of MCM2 was stable throughout the cell cycle, and embryos with overexpressed MCM2 could develop to blastocysts normally. Overexpression or depletion of Mcm2 also had no effect on oocyte meiotic maturation. Our results indicate that pre‐RC subunits CDT1 and MCM2 are not involved in oocyte meiotic maturation. In zygote, CDT1 but not MCM2 is the major regulator of DNA replication in a cell cycle dependent manner. Furthermore, its'' degradation is essential for zygotes to prevent from DNA re‐replication in G2 stage.

Pre‐replication complex (pre‐RC) is formed in G1 phase during which CDT1 is localized in nucleus. When zygote enters S phase, CDT1 is degraded and stays at a low level in G2 phase. However, the expression of exogenous Cdt1 mRNA in G2 phase of fertilized egg, mimicking events in which CDT1 degradation is disrupted, pre‐RC reassembles and leads to DNA re‐replication, and thus DNA damage check point activation, which results in embryo arrest at G2/M phase.