千粒重(TGW)、穗粒数(GNS)和穗粒重(GWS)是小麦产量的重要组成部分。为了解析其遗传学基础，我们构建了一个由8762/Keyi5214衍生的198个系组成的DH群体，利用基因芯片对该DH群体进行基因型鉴定，并将产量相关性状千粒重、穗粒数和穗粒重表型整合并进行QTL定位。最后，我们共获得18,942个多态性SNP标记，并鉴定出41个与这些性状相关的关键QTL。我们在染色体2D和6A上鉴定出三个稳定的千粒重QTL (QTgw-2D.3, QTgw-2D.4, QTgw-6A.1)，其增效等位基因均来自亲本8762，解释了4.81%-18.67%的表型变异。在染色体3D、5B、5D和6A上鉴定出5个稳定的穗粒数QTL，其中QGns-5D.1来自亲本8762，其余4个来自亲本Keyi5214的QTL解释了5.89-7.08%的表型变异。此外，还发现了一个稳定的小麦穗粒重遗传位点QGws-4A.3，该位点来自亲本8762，可解释6.08-6.14%的表型变异。为了应用鉴定到的QTL，我们为四个重要的QTL (Tgw2D.3-2, Tgw2D.4-1, Tgw6A.1 和 Gns3D.1)开发了STARP标记。本研究结果可为后期小麦千粒重、穗粒数和单穗重相关基因的鉴定和克隆奠定基础。

For the users’ convenience of accessing the AGRIS resources quickly and using them fully, the paper decomposes the structure of AGRIS Search net, analyzes the users’ requirement met for conducting a bilingual (ZH/EN) retrieval, the system function extensions based on AGRIS English retrieval system and the key issues which the core function module should resolve. Derived by the application requirement, the paper also puts forward to a bilingual retrieval model on the basis of CAT/AGROVOC mapping, designs and realizes the ZH/EN bilingual retrieval prototype system.

In previous experiment, we isolated a compound dibutyl phthalate (DBP) from Vaccaria segetalis which had galactopoieticfunction on mammary gland epithelial cells of dairy cow (DCMECs). In this experiment, we ascertained the metabolicregulation function of DBP on DCMECs. Many genes related to lactation including Stat5, AMPK, â-casein, Glut1, SREBP-1,PEPCK, and ACC were detected by real-time PCR. Furthermore, Stat5 and AMPK were detected by Western blot andimmunofluorescence co-localization, respectively. The results showed that DBP stimulates the expression of Stat5 andp-Stat5, thus activates Stat5 cell signal transduction pathway and stimulates â-casein synthesis. DBP also raises theactivities of Glut1 and AMPK to stimulate glucose uptake and glycometabolism and activates the expression of AMPKdownstream target genes PEPCK and ACC and expression of SREBP-1 to stimulate milk fat synthesis. In addition, theactivities of HK, G-6-PDH, ICDH, ATPase, and energy charges were stimulated by DBP to increase the energy metabolismlevel of DCMECs. The results showed DBP stimulates energy metabolism related to galactopoietic function in DCMECs.