Literature DB >> 22424222

Life in the fast lane: mammalian disease models in the genomics era.

Lukas E Dow1, Scott W Lowe.   

Abstract

Analyses of the human genome have proven extremely successful in identifying changes that contribute to human disease. Genetically engineered mice provide a powerful tool to analyze these changes, although they are slow and costly and do not always recapitulate human biology. Recent advances in genomic technologies, rodent-modeling approaches, and the production of patient-derived reprogrammed cell lines now provide a plethora of complementary systems to study disease states and test new therapies. Continued evolution and integration of these model systems will be the key to realizing the benefits of the genomic revolution and refining our understanding and treatment of human diseases.
Copyright © 2012 Elsevier Inc. All rights reserved.

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Year:  2012        PMID: 22424222      PMCID: PMC3410373          DOI: 10.1016/j.cell.2012.02.023

Source DB:  PubMed          Journal:  Cell        ISSN: 0092-8674            Impact factor:   41.582


  82 in total

1.  Analysis of lung tumor initiation and progression using conditional expression of oncogenic K-ras.

Authors:  E L Jackson; N Willis; K Mercer; R T Bronson; D Crowley; R Montoya; T Jacks; D A Tuveson
Journal:  Genes Dev       Date:  2001-12-15       Impact factor: 11.361

2.  Site-specific gene correction of a point mutation in human iPS cells derived from an adult patient with sickle cell disease.

Authors:  Jizhong Zou; Prashant Mali; Xiaosong Huang; Sarah N Dowey; Linzhao Cheng
Journal:  Blood       Date:  2011-08-31       Impact factor: 22.113

Review 3.  Genome engineering with zinc-finger nucleases.

Authors:  Dana Carroll
Journal:  Genetics       Date:  2011-08       Impact factor: 4.562

4.  DNA cassette exchange in ES cells mediated by Flp recombinase: an efficient strategy for repeated modification of tagged loci by marker-free constructs.

Authors:  J Seibler; D Schübeler; S Fiering; M Groudine; J Bode
Journal:  Biochemistry       Date:  1998-05-05       Impact factor: 3.162

5.  Development of human CD4+FoxP3+ regulatory T cells in human stem cell factor-, granulocyte-macrophage colony-stimulating factor-, and interleukin-3-expressing NOD-SCID IL2Rγ(null) humanized mice.

Authors:  Eva Billerbeck; Walter T Barry; Kathy Mu; Marcus Dorner; Charles M Rice; Alexander Ploss
Journal:  Blood       Date:  2011-01-20       Impact factor: 22.113

Review 6.  Harnessing transposons for cancer gene discovery.

Authors:  Neal G Copeland; Nancy A Jenkins
Journal:  Nat Rev Cancer       Date:  2010-09-16       Impact factor: 60.716

7.  Validated germline-competent embryonic stem cell lines from nonobese diabetic mice.

Authors:  Jennifer Nichols; Kenneth Jones; Jenny M Phillips; Stephen A Newland; Mila Roode; William Mansfield; Austin Smith; Anne Cooke
Journal:  Nat Med       Date:  2009-06-02       Impact factor: 53.440

8.  A Cre-loxP-based mouse model for conditional somatic gene expression and knockdown in vivo by using avian retroviral vectors.

Authors:  Barbara Seidler; Annegret Schmidt; Ulrich Mayr; Hassan Nakhai; Roland M Schmid; Günter Schneider; Dieter Saur
Journal:  Proc Natl Acad Sci U S A       Date:  2008-07-11       Impact factor: 11.205

9.  Modeling retinal degeneration using patient-specific induced pluripotent stem cells.

Authors:  Zi-Bing Jin; Satoshi Okamoto; Fumitaka Osakada; Kohei Homma; Juthaporn Assawachananont; Yasuhiko Hirami; Takeshi Iwata; Masayo Takahashi
Journal:  PLoS One       Date:  2011-02-10       Impact factor: 3.240

10.  Reversible gene knockdown in mice using a tight, inducible shRNA expression system.

Authors:  Jost Seibler; Andre Kleinridders; Birgit Küter-Luks; Sandra Niehaves; Jens C Brüning; Frieder Schwenk
Journal:  Nucleic Acids Res       Date:  2007-03-21       Impact factor: 16.971
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  36 in total

1.  The CRISPR road: from bench to bedside on an RNA-guided path.

Authors:  Benjamin Garcia-Bloj; Colette Moses; Pilar Blancafort
Journal:  Ann Transl Med       Date:  2015-08

2.  Pten loss promotes MAPK pathway dependency in HER2/neu breast carcinomas.

Authors:  Saya H Ebbesen; Maurizio Scaltriti; Carl U Bialucha; Natasha Morse; Edward R Kastenhuber; Hannah Y Wen; Lukas E Dow; José Baselga; Scott W Lowe
Journal:  Proc Natl Acad Sci U S A       Date:  2016-02-29       Impact factor: 11.205

3.  Generation of Esr1-knockout rats using zinc finger nuclease-mediated genome editing.

Authors:  M A Karim Rumi; Pramod Dhakal; Kaiyu Kubota; Damayanti Chakraborty; Tianhua Lei; Melissa A Larson; Michael W Wolfe; Katherine F Roby; Jay L Vivian; Michael J Soares
Journal:  Endocrinology       Date:  2014-02-07       Impact factor: 4.736

Review 4.  Modeling Disease In Vivo With CRISPR/Cas9.

Authors:  Lukas E Dow
Journal:  Trends Mol Med       Date:  2015-10       Impact factor: 11.951

Review 5.  Hemochorial placentation: development, function, and adaptations.

Authors:  Michael J Soares; Kaela M Varberg; Khursheed Iqbal
Journal:  Biol Reprod       Date:  2018-07-01       Impact factor: 4.285

Review 6.  Mouse models for lung cancer.

Authors:  Min-chul Kwon; Anton Berns
Journal:  Mol Oncol       Date:  2013-02-19       Impact factor: 6.603

Review 7.  Genetically engineered mouse models of PI3K signaling in breast cancer.

Authors:  Sjoerd Klarenbeek; Martine H van Miltenburg; Jos Jonkers
Journal:  Mol Oncol       Date:  2013-02-11       Impact factor: 6.603

Review 8.  Stable RNA interference rules for silencing.

Authors:  Christof Fellmann; Scott W Lowe
Journal:  Nat Cell Biol       Date:  2014-01       Impact factor: 28.824

Review 9.  Chromosome substitution strains: gene discovery, functional analysis, and systems studies.

Authors:  Joseph H Nadeau; Jiri Forejt; Toyoyuki Takada; Toshihiko Shiroishi
Journal:  Mamm Genome       Date:  2012-09-08       Impact factor: 2.957

10.  Generation of transgenic mice with megabase-sized human yeast artificial chromosomes by yeast spheroplast-embryonic stem cell fusion.

Authors:  Liangping Li; Thomas Blankenstein
Journal:  Nat Protoc       Date:  2013-07-18       Impact factor: 13.491
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