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Peter Atkinson

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

Genes & Molecular Sequences

Living Beings

Concepts & Ideas

Physiology

Genetic Transformation

Disorders

Genetic Markers

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Co-Publications
Name
37
O'Brochta, David
8
Coates, Craig
6
Michel, Kristin
4
Arensburger, Peter
4
Orsetti, Jamison
4
Pinkerton, AC
3
James, Anthony
2
Hice, Robert
2
Bideshi, Dennis
2
Franz, Gerald
2
Robinson, Alan
2
Levesque, Cynthia
2
Aluvihare, Channa
1
Sethuraman, Nagaraja
1
Trumble, John

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Publications

TOP 3
Subramanian Ramanand A; Cathcart Laura A; Krafsur Elliot S; Atkinson Peter W; O'Brochta David A
Hermes transposon distribution and structure in Musca domestica.
Cruz Josefa; Sieglaff Douglas H; Arensburger Peter; Atkinson Peter W; Raikhel Alexander S
Nuclear receptors in the mosquito Aedes aegypti: annotation, hormonal regulation and expression profiling.
Atkinson Peter W
Proposed uses of transposons in insect and medical biotechnology.

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All Publications

2009: Subramanian Ramanand A; Cathcart Laura A; Krafsur Elliot S; Atkinson Peter W; O'Brochta David A
Hermes transposon distribution and structure in Musca domestica.
The Journal of heredity 2009;100(4):473-80.
2009: Cruz Josefa; Sieglaff Douglas H; Arensburger Peter; Atkinson Peter W; Raikhel Alexander S
Nuclear receptors in the mosquito Aedes aegypti: annotation, hormonal regulation and expression profiling.
The FEBS journal 2009;276(5):1233-54.
2008: Atkinson Peter W
Proposed uses of transposons in insect and medical biotechnology.
Advances in experimental medicine and biology 2008;627():60-70.
2007: Subramanian Ramanand A; Arensburger Peter; Atkinson Peter W; O'Brochta David A
Transposable element dynamics of the hAT element Herves in the human malaria vector Anopheles gambiae s.s.
Genetics 2007;176(4):2477-87.
2007: Smith R C; Walter M F; Hice R H; O'Brochta D A; Atkinson P W
Testis-specific expression of the beta2 tubulin promoter of Aedes aegypti and its application as a genetic sex-separation marker.
Insect molecular biology 2007;16(1):61-71.
2006: O'Brochta David A; Subramanian Ramanand A; Orsetti Jamison; Peckham Edward; Nolan Nicole; Arensburger Peter; Atkinson Peter W; Charlwood Derek J
hAT element population genetics in Anopheles gambiae s.l. in Mozambique.
Genetica 2006;127(1-3):185-98.
2005: Arensburger Peter; Kim Yu-Jung; Orsetti Jamison; Aluvihare Channa; O'Brochta David A; Atkinson Peter W
An active transposable element, Herves, from the African malaria mosquito Anopheles gambiae.
Genetics 2005;169(2):697-708.
2004: Rowan Kathryn H; Orsetti Jamison; Atkinson Peter W; O'Brochta David A
Tn5 as an insect gene vector.
Insect biochemistry and molecular biology 2004;34(7):695-705.
2004: Robinson Alan S; Franz Gerald; Atkinson Peter W
Insect transgenesis and its potential role in agriculture and human health.
Insect biochemistry and molecular biology 2004;34(2):113-20.
2004: Irvin Nic; Hoddle Mark S; O'Brochta David A; Carey Bryan; Atkinson Peter W
Assessing fitness costs for transgenic Aedes aegypti expressing the GFP marker and transposase genes.
Proceedings of the National Academy of Sciences of the United States of America 2004;101(3):891-6.
2004: O'Brochta David A; Atkinson Peter W
Transformation systems in insects.
Methods in molecular biology (Clifton, N.J.) 2004;260():227-54.
2003: O'Brochta David A; Sethuraman Nagaraja; Wilson Raymond; Hice Robert H; Pinkerton Alexandra C; Levesque Cynthia S; Bideshi Dennis K; Jasinskiene Nijole; Coates Craig J; James Anthony A; Lehane Michael J; Atkinson Peter W
Gene vector and transposable element behavior in mosquitoes.
The Journal of experimental biology 2003;206(Pt 21):3823-34.
2003: Michel K; O'Brochta D A; Atkinson P W
The C-terminus of the Hermes transposase contains a protein multimerization domain.
Insect biochemistry and molecular biology 2003;33(10):959-70.
2003: Wilson Raymond; Orsetti Jamison; Klocko Andrew D; Aluvihare Channa; Peckham Edward; Atkinson Peter W; Lehane Michael J; O'Brochta David A
Post-integration behavior of a Mos1 mariner gene vector in Aedes aegypti.
Insect biochemistry and molecular biology 2003;33(9):853-63.
2003: Michel K; Atkinson P W
Nuclear localization of the Hermes transposase depends on basic amino acid residues at the N-terminus of the protein.
Journal of cellular biochemistry 2003;89(4):778-90.
2003: Guimond N; Bideshi D K; Pinkerton A C; Atkinson P W; O'Brochta D A
Patterns of Hermes transposition in Drosophila melanogaster.
Molecular genetics and genomics : MGG 2003;268(6):779-90.
2002: Michel K; O'Brochta D A; Atkinson P W
Does the proposed DSE motif form the active center in the Hermes transposase?
Gene 2002;298(2):141-6.
2002: Atkinson Peter W
Genetic engineering in insects of agricultural importance.
Insect biochemistry and molecular biology 2002;32(10):1237-42.
2002: Atkinson Peter W; Michel Kristin
What's buzzing? Mosquito genomics and transgenic mosquitoes.
Genesis (New York, N.Y. : 2000) 2002;32(1):42-8.
2002: Atkinson Peter W; James Anthony A
Germline transformants spreading out to many insect species.
Advances in genetics 2002;47():49-86.
2001: Allen M L; O'Brochta D A; Atkinson P W; Levesque C S
Stable, germ-line transformation of Culex quinquefasciatus (Diptera: Culicidae).
Journal of medical entomology 2001;38(5):701-10.
2001: Michel K; Stamenova A; Pinkerton A C; Franz G; Robinson A S; Gariou-Papalexiou A; Zacharopoulou A; O'Brochta D A; Atkinson P W
Hermes-mediated germ-line transformation of the Mediterranean fruit fly Ceratitis capitata.
Insect molecular biology 2001;10(2):155-62.
2001: Atkinson P W; Pinkerton A C; O'Brochta D A
Genetic transformation systems in insects.
Annual review of entomology 2001;46():317-46.
2000: O'Brochta D A; Atkinson P W; Lehane M J
Transformation of Stomoxys calcitrans with a Hermes gene vector.
Insect molecular biology 2000;9(5):531-8.
2000: Morgan D J; Reitz S R; Atkinson P W; Trumble J T
The resolution of Californian populations of Liriomyza huidobrensis and Liriomyza trifolii (Diptera: Agromyzidae) using PCR.
Heredity 2000;85 ( Pt 1)():53-61.
2000: Pinkerton A C; Michel K; O'Brochta D A; Atkinson P W
Green fluorescent protein as a genetic marker in transgenic Aedes aegypti.
Insect molecular biology 2000;9(1):1-10.
1999: Pinkerton A C; Whyard S; Mende H A; Coates C J; O'Brochta D A; Atkinson P W
The Queensland fruit fly, Bactrocera tryoni, contains multiple members of the hAT family of transposable elements.
Insect molecular biology 1999;8(4):423-34.
1999: Sundararajan P; Atkinson P W; O'Brochta D A
Transposable element interactions in insects: crossmobilization of hobo and Hermes.
Insect molecular biology 1999;8(3):359-68.
1999: Saville K J; Warren W D; Atkinson P W; O'Brochta D A
Integration specificity of the hobo element of Drosophila melanogaster is dependent on sequences flanking the integration site.
Genetica 1999;105(2):133-47.
1998: O'Brochta D A; Atkinson P W
Building the better bug.
Scientific American 1998;279(6):90-5.
1997: Sarkar A; Yardley K; Atkinson P W; James A A; O'Brochta D A
Transposition of the Hermes element in embryos of the vector mosquito, Aedes aegypti.
Insect biochemistry and molecular biology 1997;27(5):359-63.
1997: O'Brochta D A; Atkinson P W
Recent developments in transgenic insect technology.
Parasitology today (Personal ed.) 1997;13(3):99-104.
1997: Coates C J; Turney C L; Frommer M; O'Brochta D A; Atkinson P W
Interplasmid transposition of the mariner transposable element in non-drosophilid insects.
Molecular & general genetics : MGG 1997;253(6):728-33.
1997: Sarkar A; Coates C J; Whyard S; Willhoeft U; Atkinson P W; O'Brochta D A
The Hermes element from Musca domestica can transpose in four families of cyclorrhaphan flies.
Genetica 1997;99(1):15-29.
1996: Pinkerton A C; O'Brochta D A; Atkinson P W
Mobility of hAT transposable elements in the Old World bollworm, Helicoverpa armigera.
Insect molecular biology 1996;5(4):223-7.
1996: Coates C J; Howells A J; O'Brochta D A; Atkinson P W
The 5' regulatory region from the Drosophila pseudoobscura hsp82 gene results in a high level of reporter gene expression in Lucilia cuprina embryos.
Gene 1996;175(1-2):199-201.
1996: O'Brochta D A; Atkinson P W
Transposable elements and gene transformation in non-drosophilid insects.
Insect biochemistry and molecular biology 1996;26(8-9):739-53.
1996: White L D; Coates C J; Atkinson P W; O'Brochta D A
An eye color gene for the detection of transgenic non-drosophilid insects.
Insect biochemistry and molecular biology 1996;26(7):641-4.
1996: O'Brochta D A; Warren W D; Saville K J; Atkinson P W
Hermes, a functional non-Drosophilid insect gene vector from Musca domestica.
Genetics 1996;142(3):907-14.
1996: Coates C J; Johnson K N; Perkins H D; Howells A J; O'Brochta D A; Atkinson P W
The hermit transposable element of the Australian sheep blowfly, Lucilia cuprina, belongs to the hAT family of transposable elements.
Genetica 1996;97(1):23-31.
1995: Coates C J; Turney C L; Frommer M; O'Brochta D A; Warren W D; Atkinson P W
The transposable element mariner can excise in non-drosophilid insects.
Molecular & general genetics : MGG 1995;249(2):246-52.
1995: Warren W D; Atkinson P W; O'Brochta D A
The Australian bushfly Musca vetustissima contains a sequence related to transposons of the hobo, Ac and Tam3 family.
Gene 1995;154(1):133-4.
1994: Warren W D; Atkinson P W; O'Brochta D A
The Hermes transposable element from the house fly, Musca domestica, is a short inverted repeat-type element of the hobo, Ac, and Tam3 (hAT) element family.
Genetical research 1994;64(2):87-97.
1994: O'Brochta D A; Warren W D; Saville K J; Atkinson P W
Interplasmid transposition of Drosophila hobo elements in non-drosophilid insects.
Molecular & general genetics : MGG 1994;244(1):9-14.
1993: Atkinson P W; Warren W D; O'Brochta D A
The hobo transposable element of Drosophila can be cross-mobilized in houseflies and excises like the Ac element of maize.
Proceedings of the National Academy of Sciences of the United States of America 1993;90(20):9693-7.

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