Chemistry And Pharmacology Of Naturally Occurring Bioactive Compounds
by Goutam Brahmachari /
2013 / English / PDF
27.4 MB Download
Natural products play crucial roles in modern drug development,
and constitute a prolific source of novel lead compounds or
pharmacophores for ongoing drug discovery programs.
Natural products play crucial roles in modern drug development,
and constitute a prolific source of novel lead compounds or
pharmacophores for ongoing drug discovery programs.Chemistry
and Pharmacology of Naturally Occurring Bioactive Compounds
Chemistry
and Pharmacology of Naturally Occurring Bioactive Compounds
presents cutting-edge research in the chemistry of bioactive
natural products and demonstrates how natural product research
continues to make significant contributions in the discovery and
development of new medicinal entities.
presents cutting-edge research in the chemistry of bioactive
natural products and demonstrates how natural product research
continues to make significant contributions in the discovery and
development of new medicinal entities.
In 21 chapters, this book highlights chemistry and pharmaceutical
potential of natural products in modern drug discovery processes,
and covers the synthesis and semi-synthesis of potentially
bioactive natural products. Written for phytochemists, synthetic
chemists, combinatorial chemists, as well as other practitioners
and students in related fields, the book features chemical
advances in naturally occurring organic compounds and describes
their chemical transformations and structure–activity
relationships.
In 21 chapters, this book highlights chemistry and pharmaceutical
potential of natural products in modern drug discovery processes,
and covers the synthesis and semi-synthesis of potentially
bioactive natural products. Written for phytochemists, synthetic
chemists, combinatorial chemists, as well as other practitioners
and students in related fields, the book features chemical
advances in naturally occurring organic compounds and describes
their chemical transformations and structure–activity
relationships.