CELL SIGNALING TECHNOLOGY search Cell Signaling Technology SRC products
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| ih | | Cell Signaling Technology, Inc SRC antibody was tested in immunohistochemistry by HPA (CAB004023) . |
| wb | | Cell Signaling activated 60-kDa Src antibody was used in western blot to study tyrosine phosphorylation of N-Methyl-D-aspartate receptors. |
| wb | | Cell Signaling Technology anti-phospho Src antibody was used in western blot to study the role of p42/44 MAPK and protein kinase B in CTGF induced extracellular matrix protein production, cell migration, and actin cytoskeletal rearrangement in human mesangial cells. |
| wb | | Cell Signaling Inc. rabbit polyclonal anti-phospho-Tyr416-Src antibody and mouse monoclonal anti-Src antibody were used in western blot to study the effect of endothelial thrombomodulin on Ca2+ signals and nitric oxide synthesis. |
| wb | | Cell Signaling Technology anti-c-Src antibody was used in western blot to study that kallikrein/kinin protects against myocardial apoptosis after ischemia/reperfusion via akt-glycogen synthase kinase-3 and akt-bad·14-3-3 signaling pathways. |
| wb | | Cell Signaling anti-phosphorylated Src antibody (against either tyrosine 527 (αpSrc527)) was used in western blot to study the role of DOC-2/DAB2 of c-Src in normal prostatic epithelium and cancer. |
| wb | | Cell Signaling Biotechnology anti-c-Src and phosphorylated c-Src (Tyr416) antibody was used in western blot to detect the c-Src and phosphorylated c-Src in the bovine aortic endothelial cells transfected with the adenoviral constructs for human SOD1, SOD2, and catalase. |
| wb | | Cell Signaling Technology rabbit polyclonal anti-pp60 Src antibody was used in western blot to detect pp60 Src in fibroblasts containing wild type Cas, CasY253F, or Cas118423. |
| wb | | Cell Signaling anti-phospho-c-Src antibody was used in western blot to detect phospho-c-Src in HT-29 cells treated with NMT1-1 siRNA or NMT2-4 siRNA. |
| wb | | Cell Signaling Technology anti-phospho-Src (Tyr416) and anti-Src antibodies were used in New Zealand white rabbits renal proximal tubular cell (RPTCs, which were infected with recombinant adenovirus expressing kinase inactive form of human p38) and in western blot to study the role for the effect of p38 kinase on transactivation of the epidermal growth factor receptor in dedifferentiation of renal epithelial cells after oxidant injury. |
| wb | | Cell Signaling phospho-Src-416 antibody was used in western blot to investigate Src phosphorylation in human microvascular endothelial cells isolated by enzymatic digestion of blood vessels taken from the mesentery of the small bowel (designated MM1 cells). |
| wb | | Cell Signaling Technology anti-Src and anti-pSrc antibodies were used in human breast cancer cells and in western blot to study the role for IL-6 in driving Stat3 activation in breast cancer. |
| wb | | Cell Signaling Technology c-Src and phospho-c-Src (Tyr416) antibodies were used in western blot to detect c-Src and phosphorylated c-Src respectively in human HEK 293 cells. |
| wb | | Cell Signaling Technology anti-phospho-tyrosine-416 Src polyclonal antibody was used in western blot to dissect the basis of nongenomic activation of endothelial nitric oxide synthase by estradiol. |
| wb | | Cell Signaling Technology anti-p-Tyr419/416Src antibody was used in western blot to study Src activation by a cholecystokinin-2 (CCK2) receptor splice variant. |
| wb | | Cell Signaling Src (non-phospho on Tyr527) antibody was used in western blot to characterize heparin affin regulatory peptide signaling in human endothelial cells. |
| wb | | Cell Signaling Technology phospho-Src (Tyr-416) antibody was used in western blot to study phosphorylation of EGFR through zinc-induced Ras activation. |
SANTA CRUZ BIOTECHNOLOGY search Santa Cruz Biotechnology SRC products
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| chip, wb | | Santa Cruz Biotechnology anti-SRC-1 antibody was used in human HeLa cells and T47D cells and in western blot, ChIP assay to study the role of the cell cycle-regulated kinase cyclin A/Cdk2 in progesterone receptor (PR) action. |
| chip, wb | | Santa Cruz Biotechnology antibody to SRC1 was used in chromatin immunoprecipitation and western blot to study the coactivators and corepressors of NF-kappa B in I kappa B alpha gene promoter. |
| chip | | Santa Cruz Biotechnology anti-SRC-1 antibody was used in ChIP assay to identify ER -regulatory modules and associated target genes in the human breast cancer cell line MCF-7. |
| ic, ip | | Santa Cruz Biotechnology anti-human Src (sc-18) antibody was used in immunoprecipitation and immunocytochemistry to study prion protein PrPc expression in human enterocyte cell-cell junctional domains. |
| ip, wb | | Santa Cruz Biotechnology anti-pan-Src antibody was used in immunoprecipitation and western blot to study the function of he kinase-defective Ephb6 receptor in cell adhesion and migration. |
| ip, wb | | Santa Cruz anti-Src antibody was used in western blot and immunoprecipitation to study cells with mutant IGF-I receptor at tyrosines 1250 and 1251. |
| ip, wb | | Santa Cruz Biotechnology anti-c-Src antibody was used in western blot and immunoprecipitation to detect the expression of c-Src and interaction of c-Src with AMPK in the bovine aortic endothelial cells transfected with the adenoviral constructs for human SOD1, SOD2, and catalase. |
| ip, wb | | Santa Cruz Biotechnology polyclonal and monoclonal anti-c-Src antibodies were used in human MCF-7 cells (which were ransfected with plasmids encoding HA-RACK1) and were respectively used in immunoprecipitation, western blot to study the role for the interaction between RACK1 and insulin-like growth factor 1 (IGF-1) receptor in regulating IGF-1-mediated Akt activation and protection from cell death. |
| ip | | SCBT SRC1 (C-20) antibody was used in ChiP assay to investigate the regulation of ER alpha proteolysis and transcription. |
| wb | | Santa Cruz Biotechnology monoclonal anti-c-Src antibody was used in western blot to study a Novel Binding Partner of Nitric Oxide-sensitive Guanylyl Cyclase, AGAP1. |
| wb | | Santa Cruz Biotechnology anti-Src antibody was used in western blot to identify two substrates in insulin signaling, IRS5/DOK4 and IRS6/DOK5. |
| wb | | Santa Cruz Biotechnology anti-c-Src antibody was used in western blot to detect c-Src in HT-29 cells treated with NMT1-1 siRNA or NMT2-4 siRNA. |
| wb | | Santa Cruz Biotechnology polyclonal anti-Src antibody was used in western blot to study activation of protein kinase D. |
| wb | | Santa Cruz Biotechnology polyclonal anti-Src antibody Src2 was used in LLC-PK1 cells and in western blot to study the molecular connections between Src and ezrin and the role of ezrin Y145 phosphorylation in cell adhesion-based signaling. |
| wb | | Santa Cruz Biotechnology monoclonal anti-Src antibody was used in western blot to dissect the basis of nongenomic activation of endothelial nitric oxide synthase by estradiol. |
| wb | | Santa Cruz Biotechnology anti-Src (SRC2) antibody was used in Western blot to study c-Src induced regulation during clathrin-mediated internalization. |
| wb | | Santa Cruz Biotechnology anti-Src antibody was used in western blot to study the role of mitochondrial Dok-4 as a regulator of TNF--mediated ROS production and NF-B activation. |
| wb | | Santa Cruz Biotechnology polyclonal anti-Src was used in western blot to detect Src in human 293 T-Rex Tet-On cells and human lymphoid cells TS, DHL, Karpas, CEM and Namalwa. |
| wb | | SCBT phospho-Y416Src antibody was used in western blot, immunoprecipitaton, and immunocytochemistry to investigate the involvement of TGFB1, PKC delta, and integrin in the mobility of gastric carcinoma cells. |
| wb | | SCBT Src N-16 antibody was used in western blot to investigate the activation of PYK2, Src, and the phosphatidylinositol 3-kinase-Akt pathway by semaphorin 4D/plexin-B1. |
EMD BIOSCIENCES search EMD Biosciences SRC products
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| ip, wb | | Oncogene Research Products anti-Src antibody was used in western blot and immunoprecipitation to study the role of DOC-2/DAB2 of c-Src in normal prostatic epithelium and cancer. |
| ip, wb | | Oncogene Sciences Src antibody Ab-1 was used in Western blot and immunoprecipitation to study the biological function of c-Kit. |
| ip, wb | | Oncogene Science mouse monoclonal anti-Src antibody (Ab-1) was used in human 293T cells and in western blot, immunoprecipitation to study the effect of RET/PTC3 on the Erk8 mitogen-activated protein (MAP) kinase. |
| ip, wb | | Oncogene Sciences monoclonal anti-v-Src antibody was used in human cells and in western blot, immunoprecipitation to study the role for cell surface glycoprotein PZR in concanavalin A-induced cell signaling. |
| wb | | Calbiochem monoclonal anti-v-Src antibody was used in western blot to study the dimerization in vivo and inhibition of the nonreceptor form of protein tyrosine phosphatase epsilon. |
| wb | | Calbiochem anti-v-Src antibody was used in mouse OCLs cells transfected adenovirus expression systems and in western blot to study the intermolecular association of dynamin with the adaptor protein Cbl and the effect of its on podosomes and osteoclast activity. |
BD BIOSCIENCES search BD Biosciences SRC products
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| ic | | Transduction Lab c-Src monoclonal antibody was used in immunocytochemistry to demonstrate the presence of c-Src in the thick ascending limb (TAL) and collecting duct. |
ABCAM search Abcam SRC products
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| wb | | Abcam anti-Src-pY527 antibody was used in western blot to study the protein tyrosine kinase Src R388A mutant rescued in live cells with the use of the small molecule imidazole. |
MILLIPORE search Millipore SRC products
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| ic, wb | | Upstate Biotechnology monoclonal anti-c-Src antibody and anti-avian Src antibody (clone EC10) were used in LLC-PK1 cells, and were respectively used in western blot, immunocytochemistry, to study the molecular connections between Src and ezrin and the role of ezrin Y145 phosphorylation in cell adhesion-based signaling. |
| ip, wb | | Upstate Biotechnology anti-Src monoclonal antibody was used in western blot to detect the presence of Src in GPIb immunoprecipitates in platelets prepared from human venous blood obtained from healthy, drug-free volunteers, and in immunoprecipitation to isolate Src from platelets prepared from human venous blood. |
| ip, wb | | Upstate Biotechnology monoclonal anti-Src antibody (clone GD11) was used in human foreskin fibroblasts (A1-F) and in immunoprecipitation, western blot to study the roles for TGF-beta1 and cell adhesion in regulating HEF1 expression and phosphorylation. |
| ip, wb | | Upstate anti-Src clone GD11 mouse monoclonal antibody was used in western blot to study the association of PDGFRB and LRP. |
| ip | | Upstate Biotechnologies anti-total Src (Clone GD11) was used in immunoprecipitation to study the role of p42/44 MAPK and protein kinase B in CTGF induced extracellular matrix protein production, cell migration, and actin cytoskeletal rearrangement in human mesangial cells. |
| wb | | Upstate Biotechnology mouse anti-Src monoclonal antibody (clone GD11) was used in western blot to study prion protein PrPc expression in human enterocyte cell-cell junctional domains. |
| wb | | Upstate Biotechnology anti-SRC-1 antibody (clone 1135) was used in western blot to study the activity of the STAT6-LXXLL-binding motif to mediate recruitment of NCoA-1/SRC-1. |
| wb | | Upstate Biotechnology anti-Src monoclonal antibody GD11 was used in western blot to study the biological role of arrestin-3 phosphorylation regulated by by casein kinase II. |
| wb | | Upstate Biotechnology anti-phosphorylated Src antibody (against either tyrosine 416 (αpSrc416)) was used in western blot to study the role of DOC-2/DAB2 of c-Src in normal prostatic epithelium and cancer. |
| wb | | Upstate Biotechnology anti-avian Src antibody was used in mouse OCLs cells transfected adenovirus expression systems and in western blot to study the intermolecular association of dynamin with the adaptor protein Cbl and the effect of its on podosomes and osteoclast activity. |
| wb | | Upstate Biotechnology monoclonal anti-Src antibody was used in MLS-9 cells and in western blot to study the association of ERG K+ Current with Src tyrosine kinase. |
| wb | | Upstate Biotech anti-SRC-1 was used in western blot to detect SRC-1 in human HeLa cells. |
| wb | | Upstate Biotechnology rabbit polyclonal anti-Src antibody (#07-335) and anti-phospho-Src antibody (#07-020) were used in human HUVEC and in western blot to study the role for the activation of the PAF receptor in inducing a specific receptor-associated pertussis toxin-insensitive G q protein in HUVECs. |
| wb | | Upstate Biotechnology anti-c-Src antibody was used in western blot to study the regulatory role of protein kinase A anchoring protein (AKAP)-related protein in the modulation of SPHK1 activity in human HEK 293 cells. |
| wb | | Upstate Biotechnology Src antibody was used in western blot to study the role of Pyk2 in NBC activation. |
| wb | | Upstate Biotechnology monoclonal anti-Src antibody (clone GD11) was used in western blot to study phosphorylation of EGFR through zinc-induced Ras activation. |
| wb | | Upstate Biotechnology antibody against Src was used in western blot to study the function of p120 catenin-associated Fer and Fyn tyrosine kinases to regulate beta-Catenin Tyr-142 phosphorylation and beta-catenin-alpha-catenin interaction. |
| wb | | Upstate Biotechnology anti-Src antibody was used in western blot to study the protein tyrosine kinase Src R388A mutant rescued in live cells with the use of the small molecule imidazole. |
| wb | | Upstate Biotechnology monoclonal anti-Src antibody was used in western blot to study the effect on BAD phosphorylation and Bcl-2 association by Raf-1 phosphorylation. |
INVITROGEN search Invitrogen SRC products
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| wb | | BIOSOURCE anti-c-Src (Tyr (P) 418) polyclonal antibody and anti-pan-c-Src antibody were used in western blot to study the role of endothelin-1 to decrease gap jhunctional intercellular communication by inducing phosphorylation of connexin 43 in human ovarian carcinoma cells. |
| wb | | BIOSOURCE rabbit anti-phospho-Src antibody was used in western blot to study the PTPH1 as a predominant protein-tyrosine phosphatase capable of interacting with and dephosphorylating the T cell receptor subunit. |
| wb | | BioSource International rabbit anti-phospho-Src antibody was used in human embryonic kidney 293 cells and in western blot to study the role of Src in tyrosine phosphorylation of ezrin in adherent cells. |
| wb | | BioSource rabbit polyclonal anti-Src (P) Y418 antibody was used in LLC-PK1 cells and in western blot to study the molecular connections between Src and ezrin and the role of ezrin Y145 phosphorylation in cell adhesion-based signaling. |
| wb | | Biosource phospho-Src antibody was used in western blot to investigate the activation of PYK2, Src, and the phosphatidylinositol 3-kinase-Akt pathway by semaphorin 4D/plexin-B1. |
| wb | | Biosource anti-Src-pY416 antibody was used in western blot to study the protein tyrosine kinase Src R388A mutant rescued in live cells with the use of the small molecule imidazole. |
GE HEALTHCARE LIFE BIOSCIENCES search GE Healthcare Life Biosciences SRC products
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| wb | | Amersham Biosciences c-Src and phospho-c-Src (Tyr416) antibodies were used in western blot to detect c-Src and phosphorylated c-Src respectively in human HEK 293 cells. |
UBI
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| wb | | UBI anti-c-Src was used in western blot to examine c-Src expression levels in Human melanoma cell lines FEMX and OM431. |
| wb | | UBI Src and p418 Src antibodies were used in western blot to study the effect of Brk on Rac1. |
Articles Reviewed |
| 1. Runxiang Zhao et al. Cell surface glycoprotein PZR is a major mediator of concanavalin A-induced cell signaling. 2002 |
| 2. Francisco S Cayabyab et al. Regulation of an ERG K+ current by Src tyrosine kinase. 2002 |
| 3. You-Me Kim et al. Regulation of arrestin-3 phosphorylation by casein kinase II. 2002 |
| 4. Patrick A Kiely et al. RACK1 is an insulin-like growth factor 1 (IGF-1) receptor-interacting protein that can regulate IGF-1-mediated Akt activation and protection from cell death. 2002 |
| 5. Weidong Wu et al. Src-dependent phosphorylation of the epidermal growth factor receptor on tyrosine 845 is required for zinc-induced Ras activation. 2002 |
| 6. Emanuela Lacaná et al. Cloning and characterization of a protein kinase A anchoring protein (AKAP)-related protein that interacts with and regulates sphingosine kinase 1 activity. 2002 |
| 7. Claudia M Litterst et al. An LXXLL motif in the transactivation domain of STAT6 mediates recruitment of NCoA-1/SRC-1. 2002 |
| 8. Mingzhe Zheng et al. Regulation of HEF1 expression and phosphorylation by TGF-beta 1 and cell adhesion. 2002 |
| 9. Doris Joy D Espiritu et al. A central role for Pyk2-Src interaction in coupling diverse stimuli to increased epithelial NBC activity. 2002 |
| 10. John K G Crean et al. The role of p42/44 MAPK and protein kinase B in connective tissue growth factor induced extracellular matrix protein production, cell migration, and actin cytoskeletal rearrangement in human mesangial cells. 2002 |
| 11. Jena J Steinle et al. Eph B4 receptor signaling mediates endothelial cell migration and proliferation via the phosphatidylinositol 3-kinase pathway. 2002 |
| 12. Yi Wu et al. Interaction between von Willebrand factor and glycoprotein Ib activates Src kinase in human platelets: role of phosphoinositide 3-kinase. 2003 |
| 13. Jian Zhou et al. Characterization of a novel negative regulator (DOC-2/DAB2) of c-Src in normal prostatic epithelium and cancer. 2003 |
| 14. Olexandr Voytyuk et al. Src family kinases are involved in the differential signaling from two splice forms of c-Kit. 2003 |
| 15. Peter Storz et al. Tyrosine phosphorylation of protein kinase D in the pleckstrin homology domain leads to activation. 2003 |
| 16. Jose Piedra et al. p120 Catenin-associated Fer and Fyn tyrosine kinases regulate beta-catenin Tyr-142 phosphorylation and beta-catenin-alpha-catenin Interaction. 2003 |
| 17. Vladimir N Ivanov et al. FAP-1 association with Fas (Apo-1) inhibits Fas expression on the cell surface. 2003 |
| 18. Dongsheng Cai et al. Two new substrates in insulin signaling, IRS5/DOK4 and IRS6/DOK5. 2003 |
| 19. Cheng Song et al. Expression of polyglutamine-expanded huntingtin induces tyrosine phosphorylation of N-methyl-D-aspartate receptors. 2003 |
| 20. Ming-Hui Zou et al. Activation of 5'-AMP-activated kinase is mediated through c-Src and phosphoinositide 3-kinase activity during hypoxia-reoxygenation of bovine aortic endothelial cells. Role of peroxynitrite. 2003 |
| 21. Hila Toledano-Katchalski et al. Dimerization in vivo and inhibition of the nonreceptor form of protein tyrosine phosphatase epsilon. 2003 |
| 22. Francesca Spinella et al. Endothelin-1 decreases gap junctional intercellular communication by inducing phosphorylation of connexin 43 in human ovarian carcinoma cells. 2003 |
| 23. Gary S Goldberg et al. Src phosphorylates Cas on tyrosine 253 to promote migration of transformed cells. 2003 |
| 24. Etienne Morel et al. The cellular prion protein PrPc is expressed in human enterocytes in cell-cell junctional domains. 2004 |
| 25. Dayanand D Deo et al. Activation of platelet-activating factor receptor-coupled G alpha q leads to stimulation of Src and focal adhesion kinase via two separate pathways in human umbilical vein endothelial cells. 2004 |
| 26. Margaret S Sozio et al. PTPH1 is a predominant protein-tyrosine phosphatase capable of interacting with and dephosphorylating the T cell receptor zeta subunit. 2004 |
| 27. Dao-Hong Lin et al. Protein tyrosine kinase is expressed and regulates ROMK1 location in the cortical collecting duct. 2004 |
| 28. Barbara Olszewska-Pazdrak et al. Agonist-independent activation of Src tyrosine kinase by a cholecystokinin-2 (CCK2) receptor splice variant. 2004 |
| 29. Sabine Meurer et al. AGAP1, a novel binding partner of nitric oxide-sensitive guanylyl cyclase. 2004 |
| 30. Andrew M F Liu et al. G16-mediated activation of nuclear factor kappaB by the adenosine A1 receptor involves c-Src, protein kinase C, and ERK signaling. 2004 |
| 31. Ken L Chambliss et al. Dissecting the basis of nongenomic activation of endothelial nitric oxide synthase by estradiol: role of ERalpha domains with known nuclear functions. 2005 |
| 32. Delphine Fessart et al. c-Src regulates clathrin adapter protein 2 interaction with beta-arrestin and the angiotensin II type 1 receptor during clathrin- mediated internalization. 2005 |
| 33. Hsin-Yi Chen et al. Brk activates rac1 and promotes cell migration and invasion by phosphorylating paxillin. 2004 |
| 34. Ramesh Narayanan et al. Cyclin-dependent kinase activity is required for progesterone receptor function: novel role for cyclin A/Cdk2 as a progesterone receptor coactivator. 2005 |
| 35. Patrick A Kiely et al. RACK1-mediated integration of adhesion and insulin-like growth factor I (IGF-I) signaling and cell migration are defective in cells expressing an IGF-I receptor mutated at tyrosines 1250 and 1251. 2005 |
| 36. Hang Yin et al. Kallikrein/kinin protects against myocardial apoptosis after ischemia/reperfusion via Akt-glycogen synthase kinase-3 and Akt-Bad.14-3-3 signaling pathways. 2005 |
| 37. Leena Heiska et al. Src phosphorylates ezrin at tyrosine 477 and induces a phosphospecific association between ezrin and a kelch-repeat protein family member. 2005 |
| 38. J Srivastava et al. Src-dependent ezrin phosphorylation in adhesion-mediated signaling. 2005 |
| 39. Tuuli Välineva et al. The transcriptional co-activator protein p100 recruits histone acetyltransferase activity to STAT6 and mediates interaction between the CREB-binding protein and STAT6. 2005 |
| 40. Apostolos Polykratis et al. Characterization of heparin affin regulatory peptide signaling in human endothelial cells. 2005 |
| 41. Shougang Zhuang et al. p38 kinase-mediated transactivation of the epidermal growth factor receptor is required for dedifferentiation of renal epithelial cells after oxidant injury. 2005 |
| 42. Zhanguo Gao et al. Coactivators and corepressors of NF-kappaB in IkappaB alpha gene promoter. 2005 |
| 43. Josée Laganière et al. Functional genomics identifies a mechanism for estrogen activation of the retinoic acid receptor alpha1 gene in breast cancer cells. 2005 |
| 44. Shenghao Jin et al. p21-activated Kinase 1 (Pak1)-dependent phosphorylation of Raf-1 regulates its mitochondrial localization, phosphorylation of BAD, and Bcl-2 association. 2005 |
| 45. Seigo Itoh et al. Mitochondrial Dok-4 recruits Src kinase and regulates NF-kappaB activation in endothelial cells. 2005 |
| 46. Angela Bruzzaniti et al. Dynamin forms a Src kinase-sensitive complex with Cbl and regulates podosomes and osteoclast activity. 2005 |
| 47. Christopher S Newton et al. Platelet-derived growth factor receptor-beta (PDGFR-beta) activation promotes its association with the low density lipoprotein receptor-related protein (LRP). Evidence for co-receptor function. 2005 |
| 48. Hiroshi Matsuoka et al. Biphasic functions of the kinase-defective Ephb6 receptor in cell adhesion and migration. 2005 |
| 49. Christopher C Valley et al. Differential regulation of estrogen-inducible proteolysis and transcription by the estrogen receptor alpha N terminus. 2005 |
| 50. John R Basile et al. Semaphorin 4D/plexin-B1 induces endothelial cell migration through the activation of PYK2, Src, and the phosphatidylinositol 3-kinase-Akt pathway. 2005 |
| 51. Mi-Sook Lee et al. The signaling network of transforming growth factor beta1, protein kinase Cdelta, and integrin underlies the spreading and invasiveness of gastric carcinoma cells. 2005 |
| 52. Chiara Ambrogio et al. p130Cas mediates the transforming properties of the anaplastic lymphoma kinase. 2005 |
| 53. Charles E Ducker et al. Two N-myristoyltransferase isozymes play unique roles in protein myristoylation, proliferation, and apoptosis. 2005 |
| 54. Monique David-Dufilho et al. Endothelial thrombomodulin induces Ca2+ signals and nitric oxide synthesis through epidermal growth factor receptor kinase and calmodulin kinase II. 2005 |
| 55. Carlo Iavarone et al. Activation of the Erk8 mitogen-activated protein (MAP) kinase by RET/PTC3, a constitutively active form of the RET proto-oncogene. 2006 |
| 56. Yingfeng Qiao et al. Chemical rescue of a mutant enzyme in living cells. 2006 |
| 57. Anja Persson et al. A human protein atlas based on antibody proteomics. 2006 |
| 58. Marjan Berishaj et al. Stat3 is tyrosine-phosphorylated through the interleukin-6/glycoprotein 130/Janus kinase pathway in breast cancer. 2007 |