Bonnie Hurwitz
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Explore the profile of Bonnie Hurwitz including associated specialties, affiliations and a list of published articles.
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9
Citations
359
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Recent Articles
1.
Blumberg K, Miller M, Ponsero A, Hurwitz B
Gigascience
. 2023 Nov;
12.
PMID: 37941395
Background: The proliferation of metagenomic sequencing technologies has enabled novel insights into the functional genomic potentials and taxonomic structure of microbial communities. However, cyberinfrastructure efforts to manage and enable the...
2.
Pace J, Youens-Clark K, Freeman C, Hurwitz B, Van Doorslaer K
Virus Evol
. 2020 Dec;
6(2):veaa068.
PMID: 33381306
High-throughput sequencing technologies provide unprecedented power to identify novel viruses from a wide variety of (environmental) samples. The field of 'viral metagenomics' has dramatically expanded our understanding of viral diversity....
3.
Rankin T, Giovinco N, Cucher D, Watts G, Hurwitz B, Armstrong D
J Surg Res
. 2014 Apr;
189(2):193-7.
PMID: 24721602
Background: The applications for rapid prototyping have expanded dramatically over the last 20 y. In recent years, additive manufacturing has been intensely investigated for surgical implants, tissue scaffolds, and organs....
4.
Degnan P, Leonardo T, Cass B, Hurwitz B, Stern D, Gibbs R, et al.
Environ Microbiol
. 2011 Oct;
12(8):2060-9.
PMID: 21966902
Aphids are sap-feeding insects that host a range of bacterial endosymbionts including the obligate, nutritional mutualist Buchnera plus several bacteria that are not required for host survival. Among the latter,...
5.
Cranston K, Hurwitz B, Ware D, Stein L, Wing R
Syst Biol
. 2010 Jun;
58(5):489-500.
PMID: 20525603
Several methods have recently been developed to infer multilocus phylogenies by incorporating information from topological incongruence of the individual genes. In this study, we investigate 2 such methods, Bayesian concordance...
6.
Myles S, Chia J, Hurwitz B, Simon C, Zhong G, Buckler E, et al.
PLoS One
. 2010 Jan;
5(1):e8219.
PMID: 20084295
Next-generation sequencing technologies promise to dramatically accelerate the use of genetic information for crop improvement by facilitating the genetic mapping of agriculturally important phenotypes. The first step in optimizing the...
7.
Kim H, Hurwitz B, Yu Y, Collura K, Gill N, SanMiguel P, et al.
Genome Biol
. 2008 Feb;
9(2):R45.
PMID: 18304353
We describe the establishment and analysis of a genus-wide comparative framework composed of 12 bacterial artificial chromosome fingerprint and end-sequenced physical maps representing the 10 genome types of Oryza aligned...
8.
Liang C, Jaiswal P, Hebbard C, Avraham S, Buckler E, Casstevens T, et al.
Nucleic Acids Res
. 2007 Nov;
36(Database issue):D947-53.
PMID: 17984077
Gramene (www.gramene.org) is a curated resource for genetic, genomic and comparative genomics data for the major crop species, including rice, maize, wheat and many other plant (mainly grass) species. Gramene...
9.
Hass-Jacobus B, Futrell-Griggs M, Abernathy B, Westerman R, Goicoechea J, Stein J, et al.
BMC Genomics
. 2006 Aug;
7:199.
PMID: 16895597
Background: With the completion of the genome sequence for rice (Oryza sativa L.), the focus of rice genomics research has shifted to the comparison of the rice genome with genomes...