Michael Saghbini
14 Papers
91 Citations
Michael Saghbini is an academic researcher. The author has contributed to research in topics: Genome & Genomics. The author has an hindex of 8, co-authored 14 publications.
Chat about Author
Papers
Extensive sequencing of seven human genomes to characterize benchmark reference materials
Justin M. Zook,David Catoe,Jennifer McDaniel,Lindsay K. Vang,Noah Spies,Noah Spies,Arend Sidow,Ziming Weng,Yuling Liu,Christopher E. Mason,Noah Alexander,Elizabeth Henaff,Alexa B. R. McIntyre,Dhruva Chandramohan,Feng Chen,Erich Jaeger,Ali Moshrefi,Khoa Pham,William Stedman,Tiffany Y. Liang,Michael Saghbini,Zeljko Dzakula,Alex Hastie,Han Cao,Gintaras Deikus,Eric E. Schadt,Robert Sebra,Ali Bashir,R Truty,Christopher C. Chang,Natali Gulbahce,Keyan Zhao,Srinka Ghosh,Fiona Hyland,Yutao Fu,Mark Chaisson,Chunlin Xiao,Jonathan Trow,Stephen T. Sherry,Alexander Wait Zaranek,Madeleine Ball,Jason Bobe,Preston W. Estep,George M. Church,Patrick Marks,Sofia Kyriazopoulou-Panagiotopoulou,Grace X.Y. Zheng,Michael Schnall-Levin,Heather Ordonez,Patrice A Mudivarti,Kristina Giorda,Ying Sheng,Karoline Bjarnesdatter Rypdal,Marc L. Salit,Marc L. Salit +54 more
TL;DR: A large, diverse set of sequencing data for seven human genomes is described; five are current or candidate NIST Reference Materials and two Personal Genome Project trios, one of Ashkenazim Jewish ancestry and one of Chinese ancestry are described.
Extensive sequencing of seven human genomes to characterize benchmark reference materials
Justin M. Zook,David Catoe,Jennifer McDaniel,Lindsay K. Vang,Noah Spies,Arend Sidow,Ziming Weng,Yuling Liu,Christopher E. Mason,Noah Alexander,Dhruva Chandramohan,Elizabeth Henaff,Feng Chen,Erich Jaeger,Ali Moshrefi,Khoa Pham,William Stedman,Tiffany Y. Liang,Michael Saghbini,Zeljko Dzakula,Alex Hastie,Han Cao,Gintaras Deikus,Eric E. Schadt,Robert Sebra,Ali Bashir,R Truty,Christopher C. Chang,Natali Gulbahce,Keyan Zhao,Srinka Ghosh,Fiona Hyland,Yutao Fu,Mark Chaisson,Jonathan Trow,Chunlin Xiao,Stephen T. Sherry,Alexander Wait Zaranek,Madeleine Ball,Jason Bobe,Preston W. Estep,George M. Church,Patrick Marks,Sofia Kyriazopoulou-Panagiotopoulou,Grace X.Y. Zheng,Michael Schnall-Levin,Heather Ordonez,Patrice A Mudivarti,Kristina Giorda,Marc L. Salit +49 more
TL;DR: A large, diverse set of sequencing data for seven human genomes is described; five are current or candidate NIST Reference Materials and two Personal Genome Project trios, one of Ashkenazim Jewish ancestry and one of Chinese ancestry are described.
Genome assembly and geospatial phylogenomics of the bed bug Cimex lectularius
Jeffrey A. Rosenfeld,Jeffrey A. Rosenfeld,Darryl Reeves,Mercer R. Brugler,Mercer R. Brugler,Apurva Narechania,Sabrina Simon,Sabrina Simon,Russell E. Durrett,Jonathan Foox,Kevin Shianna,Michael C. Schatz,Jorge Gandara,Ebrahim Afshinnekoo,Ernest T. Lam,Alex Hastie,Saki Chan,Han Cao,Michael Saghbini,Alex Kentsis,Paul J. Planet,Paul J. Planet,Vladyslav Kholodovych,Michael Tessler,Richard Baker,Rob DeSalle,Louis N. Sorkin,Sergios-Orestis Kolokotronis,Sergios-Orestis Kolokotronis,Mark E. Siddall,George Amato,Christopher E. Mason +31 more
TL;DR: The assembly, annotation and phylogenetic mapping of the 697.9-Mb Cimex lectularius genome is reported, which provides a rich genetic resource for mapping activity and density of C. Lectularius across human hosts and cities, which can help track, manage and control bed bug infestations.
Structural Variation Detection and Analysis Using Bionano Optical Mapping.
Saki Chan,Ernest T. Lam,Michael Saghbini,Sven Bocklandt,Alex Hastie,Han Cao,Erik Holmlin,Mark Borodkin +7 more
TL;DR: This work shows how Bionano Genome Mapping creates de novo assemblies from native and intact, megabase-scale DNA molecules and uses those assemblies to detect a wide range of structural variants.
87
Patent
Method for isolation DNA
James W. Gautsch,Michael Saghbini,David A. Lippman,Richard C. Dana +3 more
- 25 Sep 1997
TL;DR: In this article, the authors describe a method for the isolation of components from samples, particularly large molecular weight DNA from biological samples, using a spherical particle for applying the mechanical energy.
52