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Daniel Broek
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Research Profile (preview)
Chemicals & Drugs
Living Beings
Genes & Molecular Sequences
Concepts & Ideas
Procedures
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Network (preview)
13
Mosteller, Raymond
9
Wigler, Michael
6
Das, Balaka
6
Han, Jiahuai
4
Hassanieh, Loubna
4
Gill, Parkash
4
Shu, Xiaodong
4
Kumar, Ram
4
Xia, Guangbin
3
Wu, Weicheng
3
Zhu, Sutao
3
Masood, Rizwan
3
Quinn, David
3
Stein, John
3
Krasnoperov, Valery
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Publications
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Geonetwork of Daniel Broek (preview)
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All Publications
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2006: Masood Rizwan; Kumar S Ram; Sinha Uttam K; Crowe David L; Krasnoperov Valery; Reddy Ramachandra K; Zozulya Sergey; Singh Jasbir; Xia Guangbin; Broek Daniel; Schönthal Axel H; Gill Parkash S
EphB4 provides survival advantage to squamous cell carcinoma of the head and neck.
International journal of cancer. Journal international du cancer 2006;119(6):1236-48.
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2006: Xia Guangbin; Kumar S Ram; Hawes Debra; Cai Jie; Hassanieh Loubna; Groshen Susan; Zhu Sutao; Masood Rizwan; Quinn David I; Broek Daniel; Stein John P; Gill Parkash S
Expression and significance of vascular endothelial growth factor receptor 2 in bladder cancer.
The Journal of urology 2006;175(4):1245-52.
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2006: Xia G; Kumar S R; Stein J P; Singh J; Krasnoperov V; Zhu S; Hassanieh L; Smith D L; Buscarini M; Broek D; Quinn D I; Weaver F A; Gill P S
EphB4 receptor tyrosine kinase is expressed in bladder cancer and provides signals for cell survival.
Oncogene 2006;25(5):769-80.
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2005: Xia Guangbin; Kumar S Ram; Masood Rizwan; Zhu Sutao; Reddy Ramchandra; Krasnoperov Valery; Quinn David I; Henshall Susan M; Sutherland Robert L; Pinski Jacek K; Daneshmand Siamak; Buscarini Maurizio; Stein John P; Zhong Chen; Broek Daniel; Roy-Burman Pradip; Gill Parkash S
EphB4 expression and biological significance in prostate cancer.
Cancer research 2005;65(11):4623-32.
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2004: Wu Weicheng; Mosteller Raymond D; Broek Daniel
Sphingosine kinase protects lipopolysaccharide-activated macrophages from apoptosis.
Molecular and cellular biology 2004;24(17):7359-69.
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2004: Picache Esther R; Hassanieh Loubna; Broek Daniel; Schönthal Axel H
Inhibition of tumor cell growth by Triton X-100 through specific effects on cell-cycle-regulatory components.
Journal of biomedical science 2004;11(1):95-103.
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2003: Hassanieh Loubna; Rodriguez Dorothy; Xu Jinsong; Brooks Peter C; Broek Daniel
Generation of a monoclonal antibody to a cryptic site common to both integrin beta1 as well as gelatinase MMP9.
Hybridoma and hybridomics 2003;22(5):285-92.
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2003: Wu Weicheng; Shu Xiaodong; Hovsepyan Harut; Mosteller Raymond D; Broek Daniel
VEGF receptor expression and signaling in human bladder tumors.
Oncogene 2003;22(22):3361-70.
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2002: Brooks Peter C; Roth Jennifer M; Lymberis Stella C; DeWyngaert Keith; Broek Daniel; Formenti Silvia C
Ionizing radiation modulates the exposure of the HUIV26 cryptic epitope within collagen type IV during angiogenesis.
International journal of radiation oncology, biology, physics 2002;54(4):1194-201.
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2002: Shu Xiaodong; Wu Weicheng; Mosteller Raymond D; Broek Daniel
Sphingosine kinase mediates vascular endothelial growth factor-induced activation of ras and mitogen-activated protein kinases.
Molecular and cellular biology 2002;22(22):7758-68.
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2002: Han Jaewon; Das Balaka; Broek Daniel
In vitro, Vav is a regulated guanine nucleotide dissociation inhibitor for Ras.
Immunology letters 2002;80(1):1-2.
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2000: Das B; Shu X; Day G J; Han J; Krishna U M; Falck J R; Broek D
Control of intramolecular interactions between the pleckstrin homology and Dbl homology domains of Vav and Sos1 regulates Rac binding.
The Journal of biological chemistry 2000;275(20):15074-81.
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2000: Mosteller R; Han J; Das B; Broek D
Biochemical analysis of regulation of Vav, a guanine-nucleotide exchange factor for Rho family of GTPases.
Methods in enzymology 2000;325():38-51.
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1998: Day G J; Mosteller R D; Broek D
Distinct subclasses of small GTPases interact with guanine nucleotide exchange factors in a similar manner.
Molecular and cellular biology 1998;18(12):7444-54.
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1998: Han J; Luby-Phelps K; Das B; Shu X; Xia Y; Mosteller R D; Krishna U M; Falck J R; White M A; Broek D
Role of substrates and products of PI 3-kinase in regulating activation of Rac-related guanosine triphosphatases by Vav.
Science (New York, N.Y.) 1998;279(5350):558-60.
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1997: Han J; Das B; Wei W; Van Aelst L; Mosteller R D; Khosravi-Far R; Westwick J K; Der C J; Broek D
Lck regulates Vav activation of members of the Rho family of GTPases.
Molecular and cellular biology 1997;17(3):1346-53.
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1997: Park W; Mosteller R D; Broek D
Identification of a dominant-negative mutation in the yeast CDC25 guanine nucleotide exchange factor for Ras.
Oncogene 1997;14(7):831-6.
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1996: Quilliam L A; Hisaka M M; Zhong S; Lowry A; Mosteller R D; Han J; Drugan J K; Broek D; Campbell S L; Der C J
Involvement of the switch 2 domain of Ras in its interaction with guanine nucleotide exchange factors.
The Journal of biological chemistry 1996;271(19):11076-82.
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1995: Mosteller R D; Park W; Broek D
Analysis of interaction between Ras and CDC25 guanine nucleotide exchange factor using yeast GAL4 two-hybrid system.
Methods in enzymology 1995;255():135-48.
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1994: Park W; Mosteller R D; Broek D
Amino acid residues in the CDC25 guanine nucleotide exchange factor critical for interaction with Ras.
Molecular and cellular biology 1994;14(12):8117-22.
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1994: Wei W; Das B; Park W; Broek D
Cloning and analysis of human cDNAs encoding a 140-kDa brain guanine nucleotide-exchange factor, Cdc25GEF, which regulates the function of Ras.
Gene 1994;151(1-2):279-84.
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1994: Quilliam L A; Huff S Y; Rabun K M; Wei W; Park W; Broek D; Der C J
Membrane-targeting potentiates guanine nucleotide exchange factor CDC25 and SOS1 activation of Ras transforming activity.
Proceedings of the National Academy of Sciences of the United States of America 1994;91(18):8512-6.
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1994: Jung V; Wei W; Ballester R; Camonis J; Mi S; Van Aelst L; Wigler M; Broek D
Two types of RAS mutants that dominantly interfere with activators of RAS.
Molecular and cellular biology 1994;14(6):3707-18.
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1994: Mosteller R D; Han J; Broek D
Identification of residues of the H-ras protein critical for functional interaction with guanine nucleotide exchange factors.
Molecular and cellular biology 1994;14(2):1104-12.
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1993: Liu B X; Wei W; Broek D
The catalytic domain of the mouse sos1 gene product activates Ras proteins in vivo and in vitro.
Oncogene 1993;8(11):3081-4.
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1993: Wei W; Schreiber S S; Baudry M; Tocco G; Broek D
Localization of the cellular expression pattern of cdc25NEF and ras in the juvenile rat brain.
Brain research. Molecular brain research 1993;19(4):339-44.
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1993: Wei W; Nurse P; Broek D
Yeast cells can enter a quiescent state through G1, S, G2, or M phase of the cell cycle.
Cancer research 1993;53(8):1867-70.
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1993: Lai C C; Boguski M; Broek D; Powers S
Influence of guanine nucleotides on complex formation between Ras and CDC25 proteins.
Molecular and cellular biology 1993;13(3):1345-52.
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1992: Prigozy T; Gonzales E; Broek D
Identification and analysis of a DNA fragment from Saccharomyces kluyveri that can complement the loss of CDC25 function in Saccharomyces cerevisiae.
Gene 1992;117(1):67-72.
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1992: Wei W; Mosteller R D; Sanyal P; Gonzales E; McKinney D; Dasgupta C; Li P; Liu B X; Broek D
Identification of a mammalian gene structurally and functionally related to the CDC25 gene of Saccharomyces cerevisiae.
Proceedings of the National Academy of Sciences of the United States of America 1992;89(15):7100-4.
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1991: Powers S; Gonzales E; Christensen T; Cubert J; Broek D
Functional cloning of BUD5, a CDC25-related gene from S. cerevisiae that can suppress a dominant-negative RAS2 mutant.
Cell 1991;65(7):1225-31.
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1988: Field J; Nikawa J; Broek D; MacDonald B; Rodgers L; Wilson I A; Lerner R A; Wigler M
Purification of a RAS-responsive adenylyl cyclase complex from Saccharomyces cerevisiae by use of an epitope addition method.
Molecular and cellular biology 1988;8(5):2159-65.
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1988: Wigler M; Field J; Powers S; Broek D; Toda T; Cameron S; Nikawa J; Michaeli T; Colicelli J; Ferguson K
Studies of RAS function in the yeast Saccharomyces cerevisiae.
Cold Spring Harbor symposia on quantitative biology 1988;53 Pt 2():649-55.
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1987: Broek D; Toda T; Michaeli T; Levin L; Birchmeier C; Zoller M; Powers S; Wigler M
The S. cerevisiae CDC25 gene product regulates the RAS/adenylate cyclase pathway.
Cell 1987;48(5):789-99.
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1986: Powers S; Michaelis S; Broek D; Santa Anna S; Field J; Herskowitz I; Wigler M
RAM, a gene of yeast required for a functional modification of RAS proteins and for production of mating pheromone a-factor.
Cell 1986;47(3):413-22.
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1986: Toda T; Broek D; Field J; Michaeli T; Cameron S; Nikawa J; Sass P; Birchmeier C; Powers S; Wigler M
Exploring the function of RAS oncogenes by studying the yeast Saccharomyces cerevisiae.
Princess Takamatsu symposia 1986;17():253-60.
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1985: Birchmeier C; Broek D; Wigler M
ras proteins can induce meiosis in Xenopus oocytes.
Cell 1985;43(3 Pt 2):615-21.
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1985: Toda T; Uno I; Ishikawa T; Powers S; Kataoka T; Broek D; Cameron S; Broach J; Matsumoto K; Wigler M
In yeast, RAS proteins are controlling elements of adenylate cyclase.
Cell 1985;40(1):27-36.
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1985: Birchmeier C; Broek D; Toda T; Powers S; Kataoka T; Wigler M
Conservation and divergence of RAS protein function during evolution.
Cold Spring Harbor symposia on quantitative biology 1985;50():721-5.
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