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    • 14. 发明申请
    • Detection of Mutations
    • 检测突变
    • US20090197252A1
    • 2009-08-06
    • US11852967
    • 2007-09-10
    • Anne LundenLeif AnderssonStefan Marklund
    • Anne LundenLeif AnderssonStefan Marklund
    • C12Q1/68
    • C12N9/0073
    • The present invention relates to a polypeptide which is flavin-containing monooxygenase 3 (FMO3), wherein said FMO3 is a polypeptide comprising at least a sequence having at least 85% identity with the polypeptide sequence SEQ ID NO: 15, in particular to a polypeptide which is a functionally altered mutant of flavin-containing mono oxygenase 3 (FMO3) leading to a buildup of trimethylamine in an animal. Further, the invention relates to nucleic acid sequences encoding said polypeptide, and to the complements of such nucleic acid sequences. Such nucleic acid sequences and fragments thereof may be useful e.g. as primers. The invention further relates to various methods for determining the presence in e.g. a nucleic acid sample of a nucleic acid sequence encoding a mutated FMO3 polypeptide.
    • 本发明涉及含有黄素的单加氧酶3(FMO3)的多肽,其中所述FMO3是至少包含与多肽序列SEQ ID NO:15具有至少85%同一性的序列的多肽,特别是多肽 其是功能性改变的含黄素的单加氧酶3的突变体(FMO3),导致动物中三甲胺的积聚。 此外,本发明涉及编码所述多肽的核酸序列以及这些核酸序列的互补序列。 这样的核酸序列及其片段可以是有用的。 作为引物。 本发明进一步涉及用于确定例如存在的各种方法。 编码突变FMO3多肽的核酸序列的核酸样品。
    • 16. 发明申请
    • Synchronous data transfer system for time-sensitive data in packet-switched networks
    • 用于分组交换网络中时间敏感数据的同步数据传输系统
    • US20050232307A1
    • 2005-10-20
    • US10519596
    • 2002-07-10
    • Leif AnderssonJohn Fullemann
    • Leif AnderssonJohn Fullemann
    • H04J3/06H04L12/413H04L12/44H04L12/64
    • H04L12/44H04J3/0658H04J3/0682
    • A transmission arrangement and method permits time-sensitive data to be transmitted through a packet-switched network and arrive synchronously at separate end points without synchronising all payload carrying nodes in the network. This is achieved by propagating a timing reference through the network from the sending node to the end nodes, each end node adjusting that phase of its local frequency generator to this timing reference. The sending node then sends data structure information to the end nodes, enabling the end nodes to regenerate the timing and structure of the synchronous data stream. Finally delay information is sent to each end node that allows the end nodes to adjust the start of synchronous data transmission by an amount such that all will commence transmission substantially simultaneously. With this information the end nodes independently recreate a signal in synchronisation. This solution has the advantage that the network infrastructure can remain substantially unchanged, although the timing sensitive application can treat the network as if it were a synchronised network.
    • 传输布置和方法允许通过分组交换网络传送时间敏感数据,并在不同的端点同步到达,而不使网络中的所有有效载荷承载节点同步。 这是通过从发送节点向终端节点传播通过网络的定时参考来实现的,每个端节点将其本地频率发生器的相位调整到该定时参考。 然后,发送节点向终端节点发送数据结构信息,使终端节点重新生成同步数据流的时序和结构。 最后延迟信息被发送到每个终端节点,允许终端节点调整同步数据传输的开始量,使得所有的节点将基本上同时开始传输。 使用该信息,终端节点独立地重新创建信号同步。 该解决方案的优点在于,网络基础设施可以保持基本不变,尽管时序敏感的应用程序可以将网络视为同步网络。
    • 17. 发明授权
    • Electronic distance measuring device
    • 电子测距仪
    • US06545749B1
    • 2003-04-08
    • US09787167
    • 2001-03-14
    • Leif Andersson
    • Leif Andersson
    • G01C308
    • G01S7/497G01C3/08G01S7/4812G01S7/4818G01S17/10G01S17/105
    • The invention relates to an electronic distance measuring device which measures the propagation time to and from a target of a shor pulse of a trasmitted electromagnetic beam from a radiation source comprising a microchip laser, and comprising objective optical system (6; 16; 21); for the reflected beam from the target and a detecting unit (9; 13; 20) to which the received beam is transmitted. Means (4, 5; 15) is provided for making the transmitted and the receiving electromagnetic beam coaxial. Means (6, 10, 12; 14, 16; 21, 22) are also provided for focusing the received beam onto the detecting unit (9; 13; 20). A means (3) makes the transmitted electromagnetic beam simultaneously as narrow and as collimated as possible in order to get a well-defined radiation measuring spot on the target.
    • 电子距离测量装置本发明涉及一种电子距离测量装置,其测量来自包括微芯片激光器的辐射源的传输电磁波束的目标的传播时间,并包括物镜光学系统(6; 16; 21); 对于来自目标的反射光束以及传输接收光束的检测单元(9; 13; 20)。 提供装置(4,5; 15),用于使发射和接收电磁波束同轴。 还提供了用于将接收的光束聚焦到检测单元(9; 13; 20)上的装置(6,10,12; 14,16,21,22)。 一种装置(3)使得发射的电磁波束尽可能地同时窄并准直,以便在目标上获得明确的辐射测量点。
    • 18. 发明授权
    • Arrangement for handling a load
    • 处理负荷的安排
    • US06257552B1
    • 2001-07-10
    • US09395582
    • 1999-09-14
    • Perry A. CrowGregory C. BruckerLeif Andersson
    • Perry A. CrowGregory C. BruckerLeif Andersson
    • B66F300
    • B66F3/36B66F3/24B66F3/38B66F5/04B66F7/00
    • An arrangement for handling a load, such as an automotive component or the like, includes a jack assembly 12, a stand 16, and a platform assembly 14 that can be secured to the load and transferred between the jack assembly and stand. The jack assembly 12 includes a wheeled base supporting a piston-and-cylinder assembly. The stand 16 includes a beam 114 supported on a column 116 for relative height adjustment, and a docking tube 110 or the like supported at a free end of the beam. The platform assembly 14 presents a receiver block 48 sized for receipt on a receiver pin 46 of the jack assembly, and a docking pin 108 or the like sized for receipt in the docking tube 110 of the stand. As such, the load can be secured to the platform assembly and transferred between the jack assembly and the stand so that the load can be serviced and replaced.
    • 用于处理诸如汽车部件等的负载的装置包括千斤顶组件12,支架16和平台组件14,其可以固定到负载并在千斤顶组件和支架之间传送。 千斤顶组件12包括支撑活塞和气缸组件的轮式底座。 支架16包括支撑在用于相对高度调节的柱116上的梁114和支撑在梁的自由端处的对接管110等。 平台组件14具有尺寸适于接收在插座组件的接收器针46上的接收器块48和尺寸适于接收在支架的对接管110中的对接销108或类似物。 因此,负载可以被固定到平台组件并且在千斤顶组件和支架之间传送,使得可以维修和更换负载。