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In recent years, the development of selective synthesis methods for all stereoisomers containing continuous chiral center compounds has become an important research goal in asymmetric synthesis, but also a challenging research direction. In this field, iridium catalyzed asymmetric allyl substitution reaction system combined with its catalytic system has made important progress. In recent years, the development of selective synthesis methods for all stereoisomers containing continuous chiral center compounds has become an important research goal in asymmetric synthesis, but also a challenging research direction. In this field, iridium catalyzed asymmetric allyl substitution reaction system combined with its catalytic system has made important progress. In recent years, the development of selective synthesis methods for all stereoisomers containing continuous chiral center compounds has become an important research goal in asymmetric synthesis, but also a challenging research direction. In this field, iridium catalyzed asymmetric allyl substitution reaction system combined with its catalytic system has made important progress. In recent years, the development of selective synthesis methods for all stereoisomers containing continuous chiral center compounds has become an important research goal in asymmetric synthesis, but also a challenging research direction. In this field, iridium catalyzed asymmetric allyl substitution reaction system combined with its catalytic system has made important progress. In recent years, the development of selective synthesis methods for all stereoisomers containing continuous chiral center compounds has become an important research goal in asymmetric synthesis, but also a challenging research direction. In this field, iridium catalyzed asymmetric allyl substitution reaction system combined with its catalytic system has made important progress. In recent years, the development of selective synthesis methods for all stereoisomers containing continuous chiral center compounds has become an important research goal in asymmetric synthesis, but also a challenging research direction. In this field, iridium catalyzed asymmetric allyl substitution reaction system combined with its catalytic system has made important progress. In recent years, the development of selective synthesis methods for all stereoisomers containing continuous chiral center compounds has become an important research goal in asymmetric synthesis, but also a challenging research direction. In this field, iridium catalyzed asymmetric allyl substitution reaction system combined with its catalytic system has made important progress in this field