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Nancy Craig

This is a preview profile on BiomedExperts - the first literature-based scientific social network. It brings the right researchers together and allows them to collaborate online. Collexis and Dell provide the BiomedExperts network of +1.5 Million pre-calculated profiles free of charge to researchers worldwide.

Research Profile (preview)

Chemicals & Drugs

Living Beings

Escherichia coli

Physiology

Concepts & Ideas

Disorders

Insertional Mutagenesis

Genes & Molecular Sequences

Anatomy

Bacterial Chromosomes

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Co-Publications
Name
6
Stellwagen, Anne
5
Biery, Matthew
5
Dyda, Fred
5
Hickman, Alison Burgess
4
Peters, Joseph
3
Rao, JE
3
Perez, Zhanita
3
Sollner-Webb, Barbara
2
Musingarimi, Primrose
1
Nelson, Hillary
1
Rawlings, Douglas
1
Ray, David
1
Ross, Philip
1
Roth, David
1
Segall, Anca

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Publications

TOP 3
Ray David A; Feschotte Cedric; Pagan Heidi J T; Smith Jeremy D; Pritham Ellen J; Arensburger Peter; Atkinson Peter W; Craig Nancy L
Multiple waves of recent DNA transposon activity in the bat, Myotis lucifugus.
Mitra Rupak; Fain-Thornton Jennifer; Craig Nancy L
piggyBac can bypass DNA synthesis during cut and paste transposition.
Evertts Adam G; Plymire Christopher; Craig Nancy L; Levin Henry L
The hermes transposon of Musca domestica is an efficient tool for the mutagenesis of Schizosaccharomyces pombe.

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All Publications

2008: Ray David A; Feschotte Cedric; Pagan Heidi J T; Smith Jeremy D; Pritham Ellen J; Arensburger Peter; Atkinson Peter W; Craig Nancy L
Multiple waves of recent DNA transposon activity in the bat, Myotis lucifugus.
Genome research 2008;18(5):717-28.
2008: Mitra Rupak; Fain-Thornton Jennifer; Craig Nancy L
piggyBac can bypass DNA synthesis during cut and paste transposition.
The EMBO journal 2008;27(7):1097-109.
2007: Evertts Adam G; Plymire Christopher; Craig Nancy L; Levin Henry L
The hermes transposon of Musca domestica is an efficient tool for the mutagenesis of Schizosaccharomyces pombe.
Genetics 2007;177(4):2519-23.
2006: McKenzie Gregory J; Craig Nancy L
Fast, easy and efficient: site-specific insertion of transgenes into enterobacterial chromosomes using Tn7 without need for selection of the insertion event.
BMC microbiology 2006;6():39.
2005: Segall Anca M; Craig Nancy L
New wrinkles and folds in site-specific recombination.
Molecular cell 2005;19(4):433-5.
2005: Hickman Alison B; Perez Zhanita N; Zhou Liqin; Musingarimi Primrose; Ghirlando Rodolfo; Hinshaw Jenny E; Craig Nancy L; Dyda Fred
Molecular architecture of a eukaryotic DNA transposase.
Nature structural & molecular biology 2005;12(8):715-21.
2005: Perez Zhanita N; Musingarimi Primrose; Craig Nancy L; Dyda Fred; Hickman Alison Burgess
Purification, crystallization and preliminary crystallographic analysis of the Hermes transposase.
Acta crystallographica. Section F, Structural biology and crystallization communications 2005;61(Pt 6):587-90.
2005: Ferguson Scott B; Anderson Erik S; Harshaw Robyn B; Thate Tim; Craig Nancy L; Nelson Hillary C M
Protein kinase A regulates constitutive expression of small heat-shock genes in an Msn2/4p-independent and Hsf1p-dependent manner in Saccharomyces cerevisiae.
Genetics 2005;169(3):1203-14.
2005: Kuduvalli Prasad N; Mitra Rupak; Craig Nancy L
Site-specific Tn7 transposition into the human genome.
Nucleic acids research 2005;33(3):857-63.
2004: Zhou Liqin; Mitra Rupak; Atkinson Peter W; Hickman Alison Burgess; Dyda Fred; Craig Nancy L
Transposition of hAT elements links transposable elements and V(D)J recombination.
Nature 2004;432(7020):995-1001.
2004: Kumar Anuj; Seringhaus Michael; Biery Matthew C; Sarnovsky Robert J; Umansky Lara; Piccirillo Stacy; Heidtman Matthew; Cheung Kei-Hoi; Dobry Craig J; Gerstein Mark B; Craig Nancy L; Snyder Michael
Large-scale mutagenesis of the yeast genome using a Tn7-derived multipurpose transposon.
Genome research 2004;14(10A):1975-86.
2004: Ronning Donald R; Li Ying; Perez Zhanita N; Ross Philip D; Hickman Alison Burgess; Craig Nancy L; Dyda Fred
The carboxy-terminal portion of TnsC activates the Tn7 transposase through a specific interaction with TnsA.
The EMBO journal 2004;23(15):2972-81.
2003: Skelding Zachary; Queen-Baker Jennie; Craig Nancy L
Alternative interactions between the Tn7 transposase and the Tn7 target DNA binding protein regulate target immunity and transposition.
The EMBO journal 2003;22(21):5904-17.
2003: Uhl M Andrew; Biery Matt; Craig Nancy; Johnson Alexander D
Haploinsufficiency-based large-scale forward genetic analysis of filamentous growth in the diploid human fungal pathogen C.albicans.
The EMBO journal 2003;22(11):2668-78.
2003: Castano Irene; Kaur Rupinder; Pan Shihjung; Cregg Robert; Penas Alejandro De Las; Guo Nini; Biery Matthew C; Craig Nancy L; Cormack Brendan P
Tn7-based genome-wide random insertional mutagenesis of Candida glabrata.
Genome research 2003;13(5):905-15.
2003: Peters Joseph E; Thate Timothy E; Craig Nancy L
Definition of the Escherichia coli MC4100 genome by use of a DNA array.
Journal of bacteriology 2003;185(6):2017-21.
2002: Skelding Zachary; Sarnovsky Robert; Craig Nancy L
Formation of a nucleoprotein complex containing Tn7 and its target DNA regulates transposition initiation.
The EMBO journal 2002;21(13):3494-504.
2002: Bachman Nurjana; Biery Matthew C; Boeke Jef D; Craig Nancy L
Tn7-mediated mutagenesis of Saccharomyces cerevisiae genomic DNA in vitro.
Methods in enzymology 2002;350():230-47.
2001: Peters J E; Craig N L
Tn7: smarter than we thought.
Nature reviews. Molecular cell biology 2001;2(11):806-14.
2001: Rao J E; Craig N L
Selective recognition of pyrimidine motif triplexes by a protein encoded by the bacterial transposon Tn7.
Journal of molecular biology 2001;307(5):1161-70.
2001: Peters J E; Craig N L
Tn7 recognizes transposition target structures associated with DNA replication using the DNA-binding protein TnsE.
Genes & development 2001;15(6):737-47.
2001: Kuduvalli P N; Rao J E; Craig N L
Target DNA structure plays a critical role in Tn7 transposition.
The EMBO journal 2001;20(4):924-32.
2001: Stellwagen A E; Craig N L
Analysis of gain-of-function mutants of an ATP-dependent regulator of Tn7 transposition.
Journal of molecular biology 2001;305(3):633-42.
2000: Peters J E; Craig N L
Tn7 transposes proximal to DNA double-strand breaks and into regions where chromosomal DNA replication terminates.
Molecular cell 2000;6(3):573-82.
2000: Lu F; Craig N L
Isolation and characterization of Tn7 transposase gain-of-function mutants: a model for transposase activation.
The EMBO journal 2000;19(13):3446-57.
2000: Hickman A B; Li Y; Mathew S V; May E W; Craig N L; Dyda F
Unexpected structural diversity in DNA recombination: the restriction endonuclease connection.
Molecular cell 2000;5(6):1025-34.
2000: DeBoy R T; Craig N L
Target site selection by Tn7: attTn7 transcription and target activity.
Journal of bacteriology 2000;182(11):3310-3.
2000: Rao J E; Miller P S; Craig N L
Recognition of triple-helical DNA structures by transposon Tn7.
Proceedings of the National Academy of Sciences of the United States of America 2000;97(8):3936-41.
2000: Biery M C; Lopata M; Craig N L
A minimal system for Tn7 transposition: the transposon-encoded proteins TnsA and TnsB can execute DNA breakage and joining reactions that generate circularized Tn7 species.
Journal of molecular biology 2000;297(1):25-37.
2000: Biery M C; Stewart F J; Stellwagen A E; Raleigh E A; Craig N L
A simple in vitro Tn7-based transposition system with low target site selectivity for genome and gene analysis.
Nucleic acids research 2000;28(5):1067-77.
1998: Stellwagen A E; Craig N L
Mobile DNA elements: controlling transposition with ATP-dependent molecular switches.
Trends in biochemical sciences 1998;23(12):486-90.
1998: Sharpe P L; Craig N L
Host proteins can stimulate Tn7 transposition: a novel role for the ribosomal protein L29 and the acyl carrier protein.
The EMBO journal 1998;17(19):5822-31.
1998: Roth D B; Craig N L
VDJ recombination: a transposase goes to work.
Cell 1998;94(4):411-4.
1998: Oppon J C; Sarnovsky R J; Craig N L; Rawlings D E
A Tn7-like transposon is present in the glmUS region of the obligately chemoautolithotrophic bacterium Thiobacillus ferrooxidans.
Journal of bacteriology 1998;180(11):3007-12.
1997: Gwinn M L; Stellwagen A E; Craig N L; Tomb J F; Smith H O
In vitro Tn7 mutagenesis of Haemophilus influenzae Rd and characterization of the role of atpA in transformation.
Journal of bacteriology 1997;179(23):7315-20.
1997: Stellwagen A E; Craig N L
Avoiding self: two Tn7-encoded proteins mediate target immunity in Tn7 transposition.
The EMBO journal 1997;16(22):6823-34.
1997: Stellwagen A E; Craig N L
Gain-of-function mutations in TnsC, an ATP-dependent transposition protein that activates the bacterial transposon Tn7.
Genetics 1997;145(3):573-85.
1997: Craig N L
Target site selection in transposition.
Annual review of biochemistry 1997;66():437-74.
1996: Sarnovsky R J; May E W; Craig N L
The Tn7 transposase is a heteromeric complex in which DNA breakage and joining activities are distributed between different gene products.
The EMBO journal 1996;15(22):6348-61.
1996: DeBoy R T; Craig N L
Tn7 transposition as a probe of cis interactions between widely separated (190 kilobases apart) DNA sites in the Escherichia coli chromosome.
Journal of bacteriology 1996;178(21):6184-91.
1996: Wolkow C A; DeBoy R T; Craig N L
Conjugating plasmids are preferred targets for Tn7.
Genes & development 1996;10(17):2145-57.
1996: May E W; Craig N L
Switching from cut-and-paste to replicative Tn7 transposition.
Science (New York, N.Y.) 1996;272(5260):401-4.
1996: Gary P A; Biery M C; Bainton R J; Craig N L
Multiple DNA processing reactions underlie Tn7 transposition.
Journal of molecular biology 1996;257(2):301-16.
1996: Craig N L
V(D)J recombination and transposition: closer than expected.
Science (New York, N.Y.) 1996;271(5255):1512.
1996: Craig N L
Transposon Tn7.
Current topics in microbiology and immunology 1996;204():27-48.
1995: Craig N L
Unity in transposition reactions.
Science (New York, N.Y.) 1995;270(5234):253-4.
1993: Bainton R J; Kubo K M; Feng J N; Craig N L
Tn7 transposition: target DNA recognition is mediated by multiple Tn7-encoded proteins in a purified in vitro system.
Cell 1993;72(6):931-43.
1993: Hagemann A T; Craig N L
Tn7 transposition creates a hotspot for homologous recombination at the transposon donor site.
Genetics 1993;133(1):9-16.
1992: Gamas P; Craig N L
Purification and characterization of TnsC, a Tn7 transposition protein that binds ATP and DNA.
Nucleic acids research 1992;20(10):2525-32.
1991: Craig N L
Tn7: a target site-specific transposon.
Molecular microbiology 1991;5(11):2569-73.
1991: Arciszewska L K; McKown R L; Craig N L
Purification of TnsB, a transposition protein that binds to the ends of Tn7.
The Journal of biological chemistry 1991;266(32):21736-44.
1991: Arciszewska L K; Craig N L
Interaction of the Tn7-encoded transposition protein TnsB with the ends of the transposon.
Nucleic acids research 1991;19(18):5021-9.
1991: Orle K A; Craig N L
Identification of transposition proteins encoded by the bacterial transposon Tn7.
Gene 1991;104(1):125-31.
1991: Bainton R; Gamas P; Craig N L
Tn7 transposition in vitro proceeds through an excised transposon intermediate generated by staggered breaks in DNA.
Cell 1991;65(5):805-16.
1991: Craig N L
Understanding how transcriptional enhancers work.
Current biology : CB 1991;1(2):100-2.
1991: Craig N; Kass S; Sollner-Webb B
Sequence organization and RNA structural motifs directing the mouse primary rRNA-processing event.
Molecular and cellular biology 1991;11(1):458-67.
1990: Craig N L
P element transposition.
Cell 1990;62(3):399-402.
1990: Kubo K M; Craig N L
Bacterial transposon Tn7 utilizes two different classes of target sites.
Journal of bacteriology 1990;172(5):2774-8.
1989: Waddell C S; Craig N L
Tn7 transposition: recognition of the attTn7 target sequence.
Proceedings of the National Academy of Sciences of the United States of America 1989;86(11):3958-62.
1989: Arciszewska L K; Drake D; Craig N L
Transposon Tn7. cis-Acting sequences in transposition and transposition immunity.
Journal of molecular biology 1989;207(1):35-52.
1988: Gringauz E; Orle K A; Waddell C S; Craig N L
Recognition of Escherichia coli attTn7 by transposon Tn7: lack of specific sequence requirements at the point of Tn7 insertion.
Journal of bacteriology 1988;170(6):2832-40.
1988: Waddell C S; Craig N L
Tn7 transposition: two transposition pathways directed by five Tn7-encoded genes.
Genes & development 1988;2(2):137-49.
1988: McKown R L; Orle K A; Chen T; Craig N L
Sequence requirements of Escherichia coli attTn7, a specific site of transposon Tn7 insertion.
Journal of bacteriology 1988;170(1):352-8.
1988: Craig N L
The mechanism of conservative site-specific recombination.
Annual review of genetics 1988;22():77-105.
1987: McKown R L; Waddell C S; Arciszewska L K; Craig N L
Identification of a transposon Tn7-dependent DNA-binding activity that recognizes the ends of Tn7.
Proceedings of the National Academy of Sciences of the United States of America 1987;84(22):7807-11.
1987: Kass S; Craig N; Sollner-Webb B
Primary processing of mammalian rRNA involves two adjacent cleavages and is not species specific.
Molecular and cellular biology 1987;7(8):2891-8.
1987: Craig N; Kass S; Sollner-Webb B
Nucleotide sequence determining the first cleavage site in the processing of mouse precursor rRNA.
Proceedings of the National Academy of Sciences of the United States of America 1987;84(3):629-33.
1985: Craig N L
Site-specific inversion: enhancers, recombination proteins, and mechanism.
Cell 1985;41(3):649-50.
1984: Craig N L; Nash H A
E. coli integration host factor binds to specific sites in DNA.
Cell 1984;39(3 Pt 2):707-16.
1984: Craig N L
DNA recombination: resolution of intermediates.
Nature 1984;311(5988):706-7.
1983: Craig N L; Nash H A
The mechanism of phage lambda site-specific recombination: site-specific breakage of DNA by Int topoisomerase.
Cell 1983;35(3 Pt 2):795-803.
1981: Craig N L; Roberts J W
Function of nucleoside triphosphate and polynucleotide in Escherichia coli recA protein-directed cleavage of phage lambda repressor.
The Journal of biological chemistry 1981;256(15):8039-44.
1980: Craig N L; Roberts J W
E. coli recA protein-directed cleavage of phage lambda repressor requires polynucleotide.
Nature 1980;283(5742):26-30.
1979: Roberts J W; Roberts C W; Craig N L; Phizicky E M
Activity of the Escherichia coli recA-gene product.
Cold Spring Harbor symposia on quantitative biology 1979;43 Pt 2():917-20.
1978: Roberts J W; Roberts C W; Craig N L
Escherichia coli recA gene product inactivates phage lambda repressor.
Proceedings of the National Academy of Sciences of the United States of America 1978;75(10):4714-8.

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