OpenURL Connection Search

Select item for more details and to access through your institution.

hSSB2 (NABP1) is required for the recruitment of RPA during the cellular response to DNA UV damage.
Published in:
Scientific Reports, 2021, v. 11, n. 1, p. 1, doi. 10.1038/s41598-021-99355-0
By:
- Boucher, Didier;
- Kariawasam, Ruvini;
- Burgess, Joshua;
- Gimenez, Adrian;
- Ocampo, Tristan E.;
- Ferguson, Blake;
- Naqi, Ali;
- Walker, Graeme J.;
- Bolderson, Emma;
- Gamsjaeger, Roland;
- O'Byrne, Kenneth J.;
- Cubeddu, Liza;
- Khanna, Kum Kum;
- Richard, Derek J.
Publication type:
Article
Different genetic mechanisms mediate spontaneous versus UVR-induced malignant melanoma.
Published in:
eLife, 2019, p. 1, doi. 10.7554/eLife.42424
By:
- Ferguson, Blake;
- Handoko, Herlina Y.;
- Mukhopadhyay, Pamela;
- Chitsazan, Arash;
- Balmer, Lois;
- Morahan, Grant;
- Walker, Graeme J.
Publication type:
Article
Linkage analysis in familial melanoma kindreds to markers on chromosome 6p.
Published in:
International Journal of Cancer, 1994, v. 59, n. 6, p. 771, doi. 10.1002/ijc.2910590611
By:
- Walker, Graeme J.;
- Nancarrow, Derek J.;
- Walters, Marilyn K.;
- Palmer, Jane M.;
- Weber, James L.;
- Hayward, Nicholas K.
Publication type:
Article
Simple tandem repeat allelic deletions confirm the preferential loss of distal chromosome 6q in melanoma.
Published in:
International Journal of Cancer, 1994, v. 58, n. 2, p. 203, doi. 10.1002/ijc.2910580210
By:
- Walker, Graeme J.;
- Palmer, Jane M.;
- Walters, Marilyn K.;
- Nancarrow, Derek J.;
- Parsons, Peter G.;
- Hayward, Nicholas K.
Publication type:
Article
Murine dorsal hair type is genetically determined by polymorphisms in candidate genes that influence BMP and WNT signalling.
Published in:
Experimental Dermatology, 2020, v. 29, n. 5, p. 450, doi. 10.1111/exd.14090
By:
- Villani, Rehan M.;
- Johnson, Ayaka;
- Galbraith, Jack A.;
- Baz, Betoul;
- Handoko, Herlina Y.;
- Walker, Graeme J.;
- Khosrotehrani, Kiarash
Publication type:
Article
A blueprint for staging of murine melanocytic lesions based on the Cdk4 R24C/R24C ::Tyr- NRAS Q 61K model.
Published in:
Experimental Dermatology, 2012, v. 21, n. 9, p. 676, doi. 10.1111/j.1600-0625.2012.01543.x
By:
- Wurm, Elisabeth M.T.;
- Lin, Lynlee L.;
- Ferguson, Blake;
- Lambie, Duncan;
- Prow, Tarl W.;
- Walker, Graeme J.;
- Soyer, H. Peter
Publication type:
Article
Microarray expression profiling in melanoma reveals a BRAF mutation signature.
Published in:
Oncogene, 2004, v. 23, n. 23, p. 4060, doi. 10.1038/sj.onc.1207563
By:
- Pavey, Sandra;
- Johansson, Peter;
- Packer, Leisl;
- Taylor, Jennifer;
- Stark, Mitchell;
- Pollock, Pamela M.;
- Walker, Graeme J.;
- Boyle, Glen M.;
- Harper, Ursula;
- Cozzi, Sarah-Jane;
- Hansen, Katherine;
- Yudt, Laura;
- Schmidt, Chris;
- Hersey, Peter;
- Ellem, Kay A. O.;
- O'Rourke, Michael G. E.;
- Parsons, Peter G.;
- Meltzer, Paul;
- Ringnér, Markus;
- Hayward, Nicholas K.
Publication type:
Article
Analysis of the CDKN2A, CDKN2B and CDK4 genes in 48 Australian melanoma kindreds.
Published in:
Oncogene, 1997, v. 15, n. 24, p. 2999, doi. 10.1038/sj.onc.1201470
By:
- Flores, José F;
- Pollock, Pamela M;
- Walker, Graeme J;
- Glendening, J Michael;
- Lin, Amy H-T;
- Palmer, Jane M;
- Walters, Marilyn K;
- Hayward, Nicholas K;
- Fountain, Jane W
Publication type:
Article
Functional reassessment of P16 variants using a transfection-based assay.
Published in:
International Journal of Cancer, 1999, v. 82, n. 2, p. 305, doi. 10.1002/(SICI)1097-0215(19990719)82:2<305::AID-IJC24>3.0.CO;2-Z
By:
- Walker, Graeme J.;
- Gabrielli, Brian G.;
- Castellano, Marina;
- Hayward, Nicholas K.
Publication type:
Article
Lack of Evidence From a Transgenic Mouse Model that the Activation and Migration of Melanocytes to the Epidermis after Neonatal UVR Enhances Melanoma Development.
Published in:
Journal of Investigative Dermatology, 2015, v. 135, n. 11, p. 2897, doi. 10.1038/jid.2015.203
By:
- Handoko, Herlina Y;
- Rodero, Mathieu P;
- Muller, H Konrad;
- Khosrotehrani, Kiarash;
- Walker, Graeme J
Publication type:
Article
Differential Effects of Ultraviolet Irradiation in Neonatal versus Adult Mice Are Not Explained by Defective Macrophage or Neutrophil Infiltration.
Published in:
Journal of Investigative Dermatology, 2014, v. 134, n. 7, p. 1991, doi. 10.1038/jid.2014.78
By:
- Rodero, Mathieu P;
- Handoko, Herlina Y;
- Villani, Rehan M;
- Walker, Graeme J;
- Khosrotehrani, Kiarash
Publication type:
Article
UVB-Induced Melanocyte Proliferation in Neonatal Mice Driven by CCR2-Independent Recruitment of Ly6clowMHCIIhi Macrophages.
Published in:
Journal of Investigative Dermatology, 2013, v. 133, n. 7, p. 1803, doi. 10.1038/jid.2013.9
By:
- Handoko, Herlina Y;
- Rodero, Mathieu P;
- Boyle, Glen M;
- Ferguson, Blake;
- Engwerda, Christian;
- Hill, Geoff;
- Muller, H Konrad;
- Khosrotehrani, Kiarash;
- Walker, Graeme J
Publication type:
Article
Modeling Epidermal Melanoma in Mice: Moving into New Realms but with Unexpected Complexities.
Published in:
Journal of Investigative Dermatology, 2012, v. 132, n. 9, p. 2299, doi. 10.1038/jid.2012.200
By:
- Handoko, Herlina Y;
- Box, Neil F;
- Walker, Graeme J
Publication type:
Article
Superficial Spreading-Like Melanoma in Arf−/−::Tyr-NrasQ61K::K14-Kitl Mice: Keratinocyte Kit Ligand Expression Sufficient to 'Translocate' Melanomas from Dermis to Epidermis.
Published in:
2011
By:
- Walker, Graeme J.;
- Soyer, H. Peter;
- Handoko, Herlina Y.;
- Ferguson, Blake;
- Kunisada, Takahiro;
- Khosrotehrani, Kiarash;
- Box, Neil F.;
- Muller, H Konrad
Publication type:
Letter
Murine Neonatal Melanocytes Exhibit a Heightened Proliferative Response to Ultraviolet Radiation and Migrate to the Epidermal Basal Layer.
Published in:
Journal of Investigative Dermatology, 2009, v. 129, n. 1, p. 184, doi. 10.1038/jid.2008.210
By:
- Walker, Graeme J.;
- Kimlin, Michael G.;
- Hacker, Elke;
- Ravishankar, Sugandha;
- Muller, H. Konrad;
- Beermann, Friedrich;
- Hayward, Nicholas K.
Publication type:
Article
Pathways to Melanoma Development: Lessons from the Mouse.
Published in:
Journal of Investigative Dermatology, 2002, v. 119, n. 4, p. 783, doi. 10.1046/j.1523-1747.2002.00217.x
By:
- Walker, Graeme J.;
- Hayward, Nicholas K.
Publication type:
Article
Further assessment of exome-wide UVR footprints in melanoma and their possible relevance.
Published in:
Molecular Carcinogenesis, 2017, v. 56, n. 6, p. 1673, doi. 10.1002/mc.22623
By:
- Mukhopadhyay, Pamela;
- Roberts, James A.;
- Walker, Graeme J.
Publication type:
Article
Molecular characterization of a t(9;12)(p21;q13) balanced chromosome translocation in combination with integrative genomics analysis identifies C9orf14 as a candidate tumor‐suppressor.
Published in:
Genes, Chromosomes & Cancer, 2007, v. 46, n. 2, p. 155, doi. 10.1002/gcc.20396
By:
- Miguel Angel Pujana;
- Anna Ruiz;
- Cèlia Badenas;
- Josep‐Anton Puig‐Butille;
- Marga Nadal;
- Mitchell Stark;
- Laia Gómez;
- Joan Valls;
- Xavier Solé;
- Pilar Hernández;
- Celia Cerrato;
- Irene Madrigal;
- Rafael de Cid;
- Helena Aguilar;
- Gabriel Capellá;
- Santiago Cal;
- Michael R. James;
- Graeme J. Walker;
- Josep Malvehy;
- Montserrat Milà
Publication type:
Article
Deletion mapping suggests that the 1p22 melanoma susceptibility gene is a tumor suppressor localized to a 9‐mb interval.
Published in:
Genes, Chromosomes & Cancer, 2004, v. 41, n. 1, p. 56, doi. 10.1002/gcc.20056
By:
- Graeme J. Walker;
- James O. Indsto;
- Raman Sood;
- Mezbah U. Faruque;
- Ping Hu;
- Pam M. Pollock;
- Paul Duray;
- Elizabeth A. Holland;
- Kevin Brown;
- Richard F. Kefford;
- Jeffrey M. Trent;
- Graham J. Mann;
- Nicholas K. Hayward
Publication type:
Article
Virtually 100% of melanoma cell lines harbor alterations at the DNA level within CDKN2A, CDKN2B, or one of their downstream targets.
Published in:
Genes, Chromosomes & Cancer, 1998, v. 22, n. 2, p. 157, doi. 10.1002/(SICI)1098-2264(199806)22:2<157::AID-GCC11>3.0.CO;2-N
By:
- Walker, Graeme J.;
- Flores, José F.;
- Glendening, J. Michael;
- Lin, Amy (Hsui-Ti);
- Markl, Isabel D. C.;
- Fountain, Jane W.
Publication type:
Article
A genetic model of melanoma tumorigenesis based on allelic losses.
Published in:
Genes, Chromosomes & Cancer, 1995, v. 12, n. 2, p. 134, doi. 10.1002/gcc.2870120208
By:
- Walker, Graeme J.;
- Palmer, Jane M.;
- Walters, Marilyn K.;
- Hayward, Nicholas K.
Publication type:
Article
Genetic variation in IRF4 expression modulates growth characteristics, tyrosinase expression and interferon-gamma response in melanocytic cells.
Published in:
Pigment Cell & Melanoma Research, 2018, v. 31, n. 1, p. 51, doi. 10.1111/pcmr.12620
By:
- Chhabra, Yash;
- Yong, Hilary X. L.;
- Fane, Mitchell E.;
- Soogrim, Arish;
- Lim, Wen;
- Mahiuddin, Dayana Nur;
- Kim, Reuben S. Q.;
- Ashcroft, Melinda;
- Beatson, Scott A.;
- Ainger, Stephen A.;
- Smit, Darren J.;
- Jagirdar, Kasturee;
- Walker, Graeme J.;
- Sturm, Richard A.;
- Smith, Aaron G.
Publication type:
Article
A mutation in the Cdon gene potentiates congenital nevus development mediated by NRASQ61K.
Published in:
Pigment Cell & Melanoma Research, 2016, v. 29, n. 4, p. 459, doi. 10.1111/pcmr.12487
By:
- Chitsazan, Arash;
- Ferguson, Blake;
- Ram, Ramesh;
- Mukhopadhyay, Pamela;
- Handoko, Herlina Y.;
- Gabrielli, Brian;
- Soyer, Peter H;
- Morahan, Grant;
- Walker, Graeme J.
Publication type:
Article
ATF2 alters melanocyte response and macrophage recruitment in UV-irradiated neonatal mouse skin.
Published in:
Pigment Cell & Melanoma Research, 2015, v. 28, n. 4, p. 481, doi. 10.1111/pcmr.12382
By:
- Senft, Daniela;
- Sorolla, Anabel;
- Dewing, Antimone;
- Claps, Giuseppina;
- Lau, Eric;
- Walker, Graeme J.;
- Ronai, Ze'ev A.
Publication type:
Article
Plasticity of melanoma in vivo: murine lesions resulting from Trp53, but not Cdk4 or Arf deregulation, display neural transdifferentiation.
Published in:
Pigment Cell & Melanoma Research, 2013, v. 26, n. 5, p. 731, doi. 10.1111/pcmr.12124
By:
- Handoko, Herlina Y.;
- Boyle, Glen M.;
- Ferguson, Blake;
- Muller, H. Konrad;
- Soyer, H. Peter;
- Walker, Graeme J.
Publication type:
Article
Brca1 is involved in establishing murine pigmentation in a p53 and developmentally specific manner.
Published in:
Pigment Cell & Melanoma Research, 2012, v. 25, n. 4, p. 530, doi. 10.1111/j.1755-148X.2012.01009.x
By:
- Tonks, Ian D.;
- Walker, Graeme J.;
- Mould, Arne W.;
- Ferguson, Blake;
- Keith, Patricia;
- Hayward, Nicholas K.;
- Kay, Graham F.
Publication type:
Article
Modelling melanoma in mice.
Published in:
Pigment Cell & Melanoma Research, 2011, v. 24, n. 6, p. 1158, doi. 10.1111/j.1755-148X.2011.00923.x
By:
- Walker, Graeme J.;
- Soyer, H. P.;
- Terzian, Tamara;
- Box, Neil F.
Publication type:
Article
Differential roles of the pRb and Arf/p53 pathways in murine naevus and melanoma genesis.
Published in:
Pigment Cell & Melanoma Research, 2010, v. 23, n. 6, p. 771, doi. 10.1111/j.1755-148X.2010.00752.x
By:
- Ferguson, Blake;
- Muller, H. Konrad;
- Handoko, Herlina Y.;
- Khosrotehrani, Kiarash;
- Beermann, Friedrich;
- Hacker, Elke;
- Soyer, H. Peter;
- Bosenberg, Marcus;
- Walker, Graeme J.
Publication type:
Article
Melanocyte homeostasis in vivo tolerates Rb1 loss in a developmentally independent fashion.
Published in:
Pigment Cell & Melanoma Research, 2010, v. 23, n. 4, p. 564, doi. 10.1111/j.1755-148X.2010.00722.x
By:
- Tonks, Ian D.;
- Mould, Arne W.;
- Schroder, Wayne A.;
- Hacker, Elke;
- Bosenberg, Marcus;
- Hayward, Nicholas K.;
- Walker, Graeme J.;
- Kay, Graham F.
Publication type:
Article
Dual loss of Rb1 and Trp53 in melanocytes perturbs melanocyte homeostasis and genetic stability in vitro but does not cause melanoma or pigmentation defects in vivo.
Published in:
2009
By:
- Tonks, Ian D.;
- Mould, Arne;
- Nurcombe, Victor;
- Cool, Simon M.;
- Walker, Graeme J.;
- Hacker, Elke;
- Keith, Patricia;
- Schroder, Wayne A.;
- Cotterill, Andrew;
- Hayward, Nicholas K.;
- Kay, Graham F.
Publication type:
Letter

Found: 30

hSSB2 (NABP1) is required for the recruitment of RPA during the cellular response to DNA UV damage.

Different genetic mechanisms mediate spontaneous versus UVR-induced malignant melanoma.

Linkage analysis in familial melanoma kindreds to markers on chromosome 6p.

Simple tandem repeat allelic deletions confirm the preferential loss of distal chromosome 6q in melanoma.

Murine dorsal hair type is genetically determined by polymorphisms in candidate genes that influence BMP and WNT signalling.

A blueprint for staging of murine melanocytic lesions based on the Cdk4<sup> R24C/R24C</sup> ::Tyr- NRAS<sup> Q</sup><sup> 61K</sup> model.

Microarray expression profiling in melanoma reveals a BRAF mutation signature.

Analysis of the CDKN2A, CDKN2B and CDK4 genes in 48 Australian melanoma kindreds.

Functional reassessment of P16 variants using a transfection-based assay.

Lack of Evidence From a Transgenic Mouse Model that the Activation and Migration of Melanocytes to the Epidermis after Neonatal UVR Enhances Melanoma Development.

Differential Effects of Ultraviolet Irradiation in Neonatal versus Adult Mice Are Not Explained by Defective Macrophage or Neutrophil Infiltration.

UVB-Induced Melanocyte Proliferation in Neonatal Mice Driven by CCR2-Independent Recruitment of Ly6c<sup>low</sup>MHCII<sup>hi</sup> Macrophages.

Modeling Epidermal Melanoma in Mice: Moving into New Realms but with Unexpected Complexities.

Superficial Spreading-Like Melanoma in Arf<sup>−/−</sup>::Tyr-Nras<sup>Q61K</sup>::K14-Kitl Mice: Keratinocyte Kit Ligand Expression Sufficient to 'Translocate' Melanomas from Dermis to Epidermis.

Murine Neonatal Melanocytes Exhibit a Heightened Proliferative Response to Ultraviolet Radiation and Migrate to the Epidermal Basal Layer.

Pathways to Melanoma Development: Lessons from the Mouse.

Further assessment of exome-wide UVR footprints in melanoma and their possible relevance.

Molecular characterization of a t(9;12)(p21;q13) balanced chromosome translocation in combination with integrative genomics analysis identifies C9orf14 as a candidate tumor‐suppressor.

Deletion mapping suggests that the 1p22 melanoma susceptibility gene is a tumor suppressor localized to a 9‐mb interval.

Virtually 100% of melanoma cell lines harbor alterations at the DNA level within CDKN2A, CDKN2B, or one of their downstream targets.

A genetic model of melanoma tumorigenesis based on allelic losses.

Genetic variation in IRF4 expression modulates growth characteristics, tyrosinase expression and interferon-gamma response in melanocytic cells.

A mutation in the Cdon gene potentiates congenital nevus development mediated by NRAS<sup>Q61K</sup>.

ATF2 alters melanocyte response and macrophage recruitment in UV-irradiated neonatal mouse skin.

Plasticity of melanoma in vivo: murine lesions resulting from Trp53, but not Cdk4 or Arf deregulation, display neural transdifferentiation.

Brca1 is involved in establishing murine pigmentation in a p53 and developmentally specific manner.

Modelling melanoma in mice.

Differential roles of the pRb and Arf/p53 pathways in murine naevus and melanoma genesis.

Melanocyte homeostasis in vivo tolerates Rb1 loss in a developmentally independent fashion.

Dual loss of Rb1 and Trp53 in melanocytes perturbs melanocyte homeostasis and genetic stability in vitro but does not cause melanoma or pigmentation defects in vivo.