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Thiazole is a valuable scaffold in the field of medicinal chemistry and has accounted to display a variety of biological activities. Thiazole and its derivatives have attracted continuing interest to design various novel CNS active agents. In the past few decades, thiazoles have been widely used to develop a variety of therapeutic agents against numerous CNS targets. Thiazole containing drug molecules are currently being used in treatment of various CNS disorders and a number of thiazole derivatives are also presently in clinical trials. A lot of research has been carried out on thiazole and their analogues, which has proved their efficacy to overcome several CNS disorders in rodent as well as primate models. The aim of present review is to highlights diverse CNS activities displayed by thiazole and their derivatives. SAR of this nucleus has also been well discussed. This review covers the recent updates present in literature and will surely provide a greater insight for the designing and development of potent thiazole based CNS active agents in future. |
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jdy1947: ½ð±Ò+50, ·ÒëEPI+1, ¡ï¡ï¡ï¡ï¡ï×î¼Ñ´ð°¸ 2016-05-03 08:12:31
jdy1947: ½ð±Ò+50, ·ÒëEPI+1, ¡ï¡ï¡ï¡ï¡ï×î¼Ñ´ð°¸ 2016-05-03 08:12:31
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Thiazole is a valuable scaffold in the field of medicinal chemistry and has accounted to display a variety of biological activities. Thiazole and its derivatives have attracted continuing interest to design various novel CNS active agents. ×÷ΪҽÁÆ»¯Ñ§ÁìÓòµÄÒ»ÖÖÖØÒªµÄÖ§¼Ü£¬àçßòÄÜ×÷ÓÃÓÚ¸÷ÖÖÉúÎï»î¶¯ÖС£ÈËÃÇÒ»Ö±ÔÚ³¢ÊÔ»ùÓÚàçßòºÍÆäÑÜÉúÎïÉè¼Æ¸÷ÖÖÐÂÐÍ»îÐÔ¼Á¡£ In the past few decades, thiazoles have been widely used to develop a variety of therapeutic agents against numerous CNS targets. Thiazole containing drug molecules are currently being used in treatment of various CNS disorders and a number of thiazole derivatives are also presently in clinical trials. ÔÚ¹ýÈ¥µÄ¼¸Ê®ÄêÀàçßò±»¹ã·ºÔËÓÃÓÚ¿ª·¢¸÷ÖÖµÄÖÎÁƼÁ£¬ÒÔÖÎÁÆÖÎÁÆÖÐÊàÉñ¾ÏµÍ³¼²²¡¡£ÏÖÔÚ£¬º¬ÓÐÒ©Îï·Ö×ÓµÄàçßòÓÃÓÚÖÎÁƸ÷ÖÖÖÐÊàÉñ¾ÏµÍ³Ê§µ÷¼²²¡£¬Í¬Ê±´óÁ¿µÄàçßòÑÜÉúÎïÄ¿Ç°Ò²ÓÃÓÚÁÙ´²ÊÔÑé¡£ A lot of research has been carried out on thiazole and their analogues, which has proved their efficacy to overcome several CNS disorders in rodent as well as primate models. The aim of present review is to highlights diverse CNS activities displayed by thiazole and their derivatives. SAR of this nucleus has also been well discussed. ÈËÃÇÒѾ½øÐÐÁË´óÁ¿Ñо¿À´Ñо¿àçßò¼°ÆäÀàËÆÎÕâЩÑо¿ÒÑÖ¤Ã÷ÁËàçßòÔÚ¿Í·þÄö³Ý¶¯ÎïºÍÁ鳤ÀදÎï¸÷ÖÖÖÐÊàÉñ¾ÏµÍ³Ê§µ÷¼²²¡µÄЧÂÊ¡£±¾×ÛÊöµÄÄ¿µÄÊÇ͹ÏÔàçßò¼°ÆäÑÜÉúÎïÔÚ¸÷ÖÖÖÐÊàÉñ¾ÏµÍ³ÖеĻ¡£ºËÐĵÄSARÒ²ÒѾºÜºÃµÄÌÖÂÛ¹ýÁË This review covers the recent updates present in literature and will surely provide a greater insight for the designing and development of potent thiazole based CNS active agents in future. ±¾×ÛÊö°üº¬ÁË×î½üÎÄÏ׸üУ¬ºÁÎÞÒÉÎÊΪδÀ´»ùÓÚÖÐÊàÉñ¾ÏµÍ³»îÐÔ¼ÁÑз¢ÓÐЧàçßòÌṩһÖÖ¸üеÄÊӽǡ£ |
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