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    • 7. 发明授权
    • Process and systems for peptide synthesis
    • 肽合成的方法和系统
    • US07439222B2
    • 2008-10-21
    • US11021952
    • 2004-12-23
    • Martin R. GuinnLewis M. HodgesDavid A. JohnstonHendrick MoorlagMark A. Schwindt
    • Martin R. GuinnLewis M. HodgesDavid A. JohnstonHendrick MoorlagMark A. Schwindt
    • A01N37/18A61K38/00
    • C07K1/04C07K1/026Y02P20/55
    • The invention provides methods of synthesizing peptides, involving the steps of providing a composition including a peptide fragment, wherein the peptide fragment has at least one amino acid residue and includes a base-sensitive, N-terminal protecting group; removing the base-sensitive, N-terminal protecting group from the peptide fragment using a deprotection reagent that includes a base, whereby an N-terminal functionality on the peptide fragment is deprotected; removing the base from the composition to provide a residual base content of more than 100 ppm; causing a reactive peptide fragment having a reactive C-terminus and a base-sensitive N-terminal protecting group to react with the deprotected N-terminal functionality of the peptide fragment under conditions such that the reactive peptide fragment is added to the peptide fragment; and optionally repeating the deprotection and coupling steps until a desired peptide is obtained. Also provided are methods of synthesizing peptides, wherein base is removed from the composition to a point where the composition would provide a positive chloranil test. Also provided are methods of synthesizing peptides, wherein coupling is performed in basic reaction mixtures.
    • 本发明提供了合成肽的方法,包括提供包含肽片段的组合物的步骤,其中肽片段具有至少一个氨基酸残基并且包括碱敏感的N-末端保护基; 使用包含碱的去保护试剂从肽片段中除去碱敏感的N-末端保护基,从而将肽片段上的N-末端官能团去保护; 从组合物中除去碱以提供大于100ppm的残留碱含量; 使得具有反应性C末端和碱敏感性N末端保护基团的反应性肽片段与肽片段的去保护的N末端官能团反应,使得将反应性肽片段加入到肽片段中; 并任选地重复脱保护和偶联步骤,直至获得所需的肽。 还提供了合成肽的方法,其中将碱从组合物中除去至组合物将提供正氯醌测试的程度。 还提供了合成肽的方法,其中在碱性反应混合物中进行偶联。
    • 8. 发明授权
    • Industrial controller permitting program editing during program execution
    • 工业控制器允许在程序执行期间编辑程序
    • US5781776A
    • 1998-07-14
    • US551441
    • 1995-11-01
    • David A. JohnstonCharles M. RischarRonald E. SchultzOtomar Schmidt
    • David A. JohnstonCharles M. RischarRonald E. SchultzOtomar Schmidt
    • G06F9/445G06F9/44
    • G05B19/056G06F8/67G05B2219/13153
    • A method of editing a real-time control program as it controls equipment is provided in which the editing occurs in a second area of memory and integrated into the pre-existing program by means of conditional jump instructions concatenated to that edited material. The pre-existing program is uninterrupted by the editing process except for a change of single instructions which do not affect the results of the execution but redirect the execution thread of that control program to be conditionally connected to the edited material. This single writing of single instructions, which do not affect execution results, precludes the possibility of the controller executing partially edited programs. The jump instructions are conditional on a test edit pointer to allow instantaneous implementation of the edits and a simple return to unedited instructions simply by changing the state of the flag.
    • 提供了一种在控制设备时编辑实时控制程序的方法,其中编辑发生在存储器的第二区域中,并通过连接到编辑的材料的条件跳转指令将其集成到预先存在的程序中。 编辑过程中不存在预先存在的程序,除了改变不影响执行结果的单个指令,而是将控制程序的执行线程重定向到有条件地连接到编辑的材料。 单个指令的单写不影响执行结果,排除了控制器执行部分编辑程序的可能性。 跳转指令以测试编辑指针为条件,以允许即时实现编辑,并简单地通过更改标志的状态简单地返回到未编辑的指令。
    • 10. 发明授权
    • Method to separate and persist static and dynamic portions of a control application
    • 分离和维护控件应用程序的静态和动态部分的方法
    • US08566561B2
    • 2013-10-22
    • US12780308
    • 2010-05-14
    • Charles M. RischarDavid A. JohnstonBruce J. MooreEugene M. LibermanKenwood H. Hall
    • Charles M. RischarDavid A. JohnstonBruce J. MooreEugene M. LibermanKenwood H. Hall
    • G06F12/00
    • G05B19/042G05B2219/24137G05B2219/24139
    • The subject matter disclosed herein describes a method of allocating and persisting memory in an industrial controller without requiring a battery backup or a large capacitive storage system. Each data object is identified as static or dynamic. Static objects are further classified by whether frequent access of that data object is required. Each of the data objects is stored in non-volatile memory. The dynamic data objects and static data objects requiring frequent access are stored in volatile memory. A record of static data objects is maintained in non-volatile memory and a record of dynamic data objects is maintained in volatile memory. Upon power loss, the present value of each dynamic data object is copied to non-volatile memory. When power is restored, the values of both the dynamic data objects and the static data objects that require frequent access at run-time are copied from non-volatile memory to volatile memory.
    • 本文公开的主题描述了在工业控制器中分配和持久存储器而不需要电池备份或大型电容性存储系统的方法。 每个数据对象被标识为静态或动态。 通过是否需要频繁访问该数据对象来进一步分类静态对象。 每个数据对象都存储在非易失性存储器中。 需要频繁访问的动态数据对象和静态数据对象存储在易失性存储器中。 静态数据对象的记录保存在非易失性存储器中,动态数据对象的记录保存在易失性存储器中。 在断电时,将每个动态数据对象的当前值复制到非易失性存储器。 当恢复供电时,在运行时需要频繁访问的动态数据对象和静态数据对象的值将从非易失性存储器复制到易失性存储器。