Dasha Iskakova
Simon Fraser University
3 Papers
Dasha Iskakova is an academic researcher from Simon Fraser University. The author has contributed to research in topics: Natural Products Chemistry & Burkholderia. The author has an hindex of 2, co-authored 3 publications.
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Papers
The Natural Products Atlas: An Open Access Knowledge Base for Microbial Natural Products Discovery.
Jeffrey A. van Santen,Gregoire Jacob,Amrit Leen Singh,Victor Aniebok,Marcy J. Balunas,Derek Bunsko,Fausto Carnevale Neto,Fausto Carnevale Neto,Fausto Carnevale Neto,Laia Castano-Espriu,Chen Chang,Trevor N. Clark,Jessica C. Little,David A. Delgadillo,Pieter C. Dorrestein,Katherine R. Duncan,Joseph M. Egan,Melissa M. Galey,F. P. Jake Haeckl,Alex Hua,Alison H. Hughes,Dasha Iskakova,Aswad S Khadilkar,Jung-Ho Lee,Sanghoon Lee,Nicole LeGrow,Dennis Y. Liu,Jocelyn Macho,Catherine McCaughey,Marnix H. Medema,Ram P. Neupane,Timothy J. O’Donnell,Jasmine S. Paula,Laura M. Sanchez,Anam F. Shaikh,Sylvia Soldatou,Barbara R. Terlouw,Tuan Anh Tran,Tuan Anh Tran,Mercia C. Valentine,Justin J. J. van der Hooft,Duy A. Vo,Mingxun Wang,Darryl Wilson,Katherine E. Zink,Roger G. Linington +45 more
TL;DR: The Natural Products Atlas is designed as a community-supported resource to provide a central repository for known natural product structures from microorganisms and is the first comprehensive, open access resource of this type.
The Natural Products Atlas 2.0 : a database of microbially-derived natural products
Jeffrey A. van Santen,Ella F. Poynton,Dasha Iskakova,Emily McMann,Tyler A. Alsup,Trevor N. Clark,Claire H. Fergusson,David P. Fewer,Alison H. Hughes,Caitlin A. McCadden,Jonathan Parra,Sylvia Soldatou,Jeffrey D. Rudolf,Elisabeth M.-L. Janssen,Katherine R. Duncan,Roger G. Linington +15 more
TL;DR: The Natural Products Atlas (Npatlas) as discussed by the authors is a database of known microbial natural products structures, which includes a full RESTful application programming interface (API), a new website framework and an expanded database that includes 8128 new compounds.
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A selective genome-guided method for environmental Burkholderia isolation.
F. P. Jake Haeckl,João L. Baldim,Dasha Iskakova,Kenji L. Kurita,Marisi G. Soares,Roger G. Linington +5 more
TL;DR: This method uses a combination of selective agar isolation media and multiplexed PCR profiling to derive Burkholderia strains from environmental samples with 95% efficiency and offers new insight into potential methods for selective isolation method development for other priority genera.