秸秆饲料开发利用现状及前景

农作物秸秆在自然条件下是一种劣质饲料，主要有玉米秸、麦秸、稻草、豆秸、红薯藤、油菜秸、花生秧等。其特点是：粗蛋白含量低，而且品质不佳；粗纤维含量高，其中含有不易被家畜消化的木质素；无氮浸出物含量高，主要成分是半纤维素和聚糖醛酸；有些秸秆质地粗硬，适口性差，采食率极低。但是，对秸秆采用青贮、氨化、碱化、热压力加工、高强度冷压、微生物等方法进行处理后，即能分解木质素，降低粗纤维含量，提高营养价值，提高利用率、消化率、采食速度，增强适口性，增加采食量，达到减少资源浪费的目的。1 秸秆饲料开发利用现状目前…     

影响吉林省亚洲玉米螟〔Ostrinia furnacalis（Guenee）〕一代发生区发生量长期预测的关键因子Ⅱ.发生程度与降雨及种群质量的关系

玉米螟的发生程度与5～8月初的降雨和种群质量密切相关，降雨主要影响越冬种群的复苏、化蛹、羽化、成虫的活动及3令前幼虫的存活，5～6月份特别干旱不利于越冬种群的复苏、化蛹和羽化．对成虫的产卵量有影响；7月份的干旱或大暴雨严重影响成虫的活动、卵的孵化和3令前幼虫的存活。不同年度间一、二化种群在越冬种群中所占的比例影响越冬种群的质量，在以一化种群为主时，玉米螟繁殖力强、发生晚，危害重。     

关联度分析在农业生态系统技术调控上的应用

农业生态系统是个“灰箱”.我们运用模糊数学的关联度分析,尝试对这类灰色系统的投入进行技术调控,并取得了良好的效果.通过对农田子系统投入的化肥(尤其是N化肥)、粪肥和还田秸秆进行技术调控的实例证明;它可以作为能、物流分析的辅助手段,互相取长补短.通过关联序分析和关联系数分析,来调整系统的投入结构和投入技艺(时、空、量级及方式的选择).本文提出了应用关联度分析的基本程序和要领以及“贡献曲线”、“潜力曲线”等概念.     

蝴蝶花的组织培养和根状茎的诱导

蝴蝶花(IrisjaponicaThunb.)是鸢尾科鸢尾属的多年生常绿宿根草本植物,地下有横走的根状茎;耐荫,是良好的耐荫地被植物。试验于2003年10月至2004年5月进行。选择健康的蝴蝶花植株,取地下的根状茎,选带节的茎段作为外植体,用洗洁精溶液浸泡4～5min,采用75%乙醇60s结合0.1%HgCl212min进行灭菌。根状茎在培养基MS 6BA1.0mg·L-1 KT2.0mg·L-1 NAA0.1mg·L-1,25℃下黑暗培养,腋芽出芽率达65.4%。黑暗比光照更有利于腋芽的萌发,可能是由于蝴蝶花是阴性植物;在自然条件下其根状茎的生长和顶芽的萌发处于暗环境,离体条件下黑暗培养更符合其…     

RT—PCR检测南方菜豆花叶病毒

根据南方菜豆花叶病毒（ＳＢＭＶ）两株系Ｂ和Ｃ的核酸序列设计两对引物，利用ＲＴ－ＰＣＲ可以特异地区分纯化的和０．２ｇ病叶中的两株系，ＲＴ－ＰＣＲ检测ＳＢＭＶ－Ｂ的灵敏度为１０ｐｇ。     

巴西橡胶树乳管细胞HbWRKY1基因克隆及表达分析

采用PCR和RACE技术,从巴西橡胶树无性系热研7-33-97的乳管细胞中克隆了WRKY转录因子家族的一个成员HbWRKY1。该基因全长为1755 bp,含有1个1440 bp阅读框,编码479个氨基酸。生物信息学分析表明,HbWRKY1含有2个WRKY结构域和C2H2锌指结构基序,与蓖麻、杨树、葡萄、黄瓜、拟南芥的WRKY成员的氨基酸序列同源性分别为64.14%、60.04%、42.54%、40.61%和35.4%,属于Ⅰ类WRKY家族成员。实时荧光定量PCR分析表明,割胶和乙烯显著上调HbWRKY1基因的表达,但茉莉酸和机械伤害对HbWRKY1的表达没有明显影响,表明HbWRKY1可能在乙烯信号途径对防卫蛋白的调节中起重要作用。     

The localization and expression of epidermal growth factor and epidermal growth factor receptor in bovine ovary during oestrous cycle

Epidermal growth factor (EGF) is one of the important regulatory factors of EGF family. EGF has been indicated to effectively inhibit the apoptosis of follicular cells, to promote the proliferation of granulosa cells and the maturation of oocytes, and to induce ovulation process via binding to epidermal growth factor receptor (EGFR). However, little is known about the distribution and expression of EGF and EGFR in cattle ovary especially during oestrous cycle. In this study, the localization and expression rule of EGF and EGFR in cattle ovaries of follicular phase and luteal phase at different time points in oestrous cycle were investigated by using IHC and real-time qPCR. The results showed that EGF and EGFR in cattle ovary were mainly expressed in granulosa cells, cumulus cells, oocytes, zona pellucida, follicular fluid and theca folliculi externa of follicles. The protein and mRNA expression of EGF/EGFR in follicles changed regularly with the follicular growth wave both in follicular and in luteal phase ovaries. In follicular phase ovaries, the protein expression of EGF and EGFR was higher in antral follicles than that of those in other follicles during follicular growth stage, and the mRNA expression of EGFR was also increased in stage of dominant follicle selection. However, in luteal phase ovaries, the growth of follicles was impeded during corpus luteum development under the action of progesterone secreted by granular lutein cell. The mRNA and protein expressions of EGF and EGFR in ovarian follicles during oestrous cycle indicate that they play a role in promoting follicular development in follicular growth waves and mediating the selection process of dominant follicles.