Ontology highlight
ABSTRACT:
INSTRUMENT(S): Instrument
ORGANISM(S): Human_adenovirus_54,human_adenovirus_a,human_adenovirus_b,human_adenovirus_c,human_adenovirus_d,human_adenovirus_e,human_adenovirus_f,human_adenovirus_g,human_astrovirus,human_bocavirus,human_bocavirus_2,human_bocavirus_3,human_bocavirus_4,human_coronavirus_229e,human_coronavirus_hku1,human_coronavirus_nl63,human_coronavirus_oc43,human_cosavirus_a,human_cosavirus_b,human_cosavirus_d,human_cosavirus_e,human_enteric_coronavirus_4408,human_enterovirus_100,human_enterovirus_a,human_enterovirus_b,human_enterovirus_c,human_enterovirus_d,human_erythrovirus_v9,human_herpesvirus_1,human_herpesvirus_2,human_herpesvirus_3,human_herpesvirus_4_type_1,human_herpesvirus_4_type_2,human_herpesvirus_5,human_herpesvirus_6a,human_herpesvirus_6b,human_herpesvirus_7,human_herpesvirus_8_type_p,human_immunodeficiency_virus_1,human_immunodeficiency_virus_2,human_metapneumovirus,human_papillomavirus_fa75_ki88_03,human_papillomavirus_rtrx7,human_papillomavirus_type_10,human_papillomavirus_type_100,human_papillomavirus_type_101,human_papillomavirus_type_103,human_papillomavirus_type_104,human_papillomavirus_type_105,human_papillomavirus_type_108,human_papillomavirus_type_109,human_papillomavirus_type_112,human_papillomavirus_type_113,human_papillomavirus_type_16,human_papillomavirus_type_24,human_papillomavirus_type_26,human_papillomavirus_type_32,human_papillomavirus_type_34,human_papillomavirus_type_4,human_papillomavirus_type_41,human_papillomavirus_type_48,human_papillomavirus_type_49,human_papillomavirus_type_5,human_papillomavirus_type_50,human_papillomavirus_type_53,human_papillomavirus_type_60,human_papillomavirus_type_63,human_papillomavirus_type_6b,human_papillomavirus_type_7,human_papillomavirus_type_71,human_papillomavirus_type_88,human_papillomavirus_type_9,human_papillomavirus_type_92,human_papillomavirus_type_96,human_papillomavirus_type_98,human_papillomavirus_type_99,human_papillomavirus___1,human_papillomavirus___18,human_papillomavirus___2,human_papillomavirus___54,human_papillomavirus___61,human_papillomavirus___cand90,human_parainfluenza_virus_1,human_parainfluenza_virus_2,human_parainfluenza_virus_3,human_parechovirus,human_parvovirus_4,human_parvovirus_b19,human_picobirnavirus,human_respiratory_syncytial_virus,human_rhinovirus_a,human_rhinovirus_b,human_rhinovirus_c,human_tmev_like_cardiovirus,human_t_lymphotropic_virus_1,human_t_lymphotropic_virus_2,human_t_lymphotropic_virus_4,simian_adenovirus_a,simian_agent_12,simian_enterovirus_a,simian_enterovirus_sv19,simian_enterovirus_sv43,simian_enterovirus_sv6,simian_foamy_virus,simian_hemorrhagic_fever_virus,simian_human_immunodeficiency_virus,simian_immunodeficiency_virus,simian_immunodeficiency_virus_siv_mnd_2,simian_picornavirus_1,simian_picornavirus_17,simian_picornavirus_n125,simian_t_lymphotropic_virus_1,simian_t_lymphotropic_virus_2,simian_virus_12,simian_virus_40,simian_virus_41,simian_virus_5, Human_female
DISEASE(S): Not Available
SUBMITTER: Jinyan Du, et al.
PROVIDER: GPM11210023591 | GPMDB |
REPOSITORIES: GPMDB
Nature biotechnology 20081221 1
The aberrant activation of tyrosine kinases represents an important oncogenic mechanism, and yet the majority of such events remain undiscovered. Here we describe a bead-based method for detecting phosphorylation of both wild-type and mutant tyrosine kinases in a multiplexed, high-throughput and low-cost manner. With the aim of establishing a tyrosine kinase-activation catalog, we used this method to profile 130 human cancer lines. Follow-up experiments on the finding that SRC is frequently phos ...[more]