Conclusion GLAST rather than GLT-1 may play a crucial role in excitotoxicity induced by rotenone.
结论谷氨酸转运体GLAST可能在鱼藤酮诱导的兴奋性损伤机制中起主要作用。
Following a 60-day checkout and calibration period, GLAST will transmit more than 100 gigabits of information daily to NASA scientists.
经过为期60天的检查和校准之后,GLAST将会为NASA的科学家传回超过每天1000亿字节的信息。
Following a 60-day checkout and calibration period, GLAST will transmit more than 100 gigabits of information daily to NASA scientists.
经过为期60天的检查和校准之后,GLAST将会为NASA的科学家传回超过每天1000亿字节的信息。
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