28.3 Retroviral oncogenes have cellular counterparts Virus Name Species Tumor oncogene Rous sartor RSV chicken sarcoma Src Harvey munne sarcoma Ha-MuSv rat sarcoma& erythroleukemia H-ras Kirsten m urine sarcom a ki-Musv sarcoma& erythroleukemia K-ras Moloney munine sarcomaMo-Musv mouse sarcoma mos FBJ m urine osteosarcom BJ-MuSy mouse chondrosarcoma a fos Sim ian sarcom a SSV monkey sarcoma S/S Feline sarcoma PI-Fesv cat sarcoma SIS Feline sarcoma SM-Fesv cat fibrosarcoma fms Feline sarcoma ST-Fesv cat fibrosarcoma fes Aⅵ an sarcoma Asv-17 chicken fibrosarcoma Fujinami saroom a BuSY chicken sarcoma AMan m yelocytomatosis MC29 chicken carcinom a, sarcoma, m yelocytonye Abelson leukemia MuLY mouse B cell lymphoma a Reticuloendotheliosis REV-T turkey lym phat ic leukemia res Avan erythroblastosis AEV chicken erythroleukemia fbrosarcom a ebB, erbA Avan m yeloblastosis AMV chicken m yeloblastic leukemia myb Figure 28.8 Each transforming retrovirus carries an oncogene derived from a cellular gene. Viruses have names and abbreviations reflecting the history of their isolation and the types of tumor they cause. This ist shows some representative examples of the retroviral oncogenes 消当
Figure 28.8 Each transforming retrovirus carries an oncogene derived from a cellular gene. Viruses have names and abbreviations reflecting the history of their isolation and the types of tumor they cause. This list shows some representative examples of the retroviral oncogenes 28.3 Retroviral oncogenes have cellular counterparts
28.3 Retroviral oncogenes have cellular counterparts Virus Name Species Tumor oncogene Rous sartor RSV chicken sarcoma Src Harvey munne sarcoma Ha-MuSv rat sarcoma& erythroleukemia H-ras Kirsten m urine sarcom a ki-Musv sarcoma& erythroleukemia K-ras Moloney munine sarcomaMo-Musv mouse sarcoma mos FBJ m urine osteosarcom BJ-MuSy mouse chondrosarcoma a fos Sim ian sarcom a SSV monkey sarcoma S/S Feline sarcoma PI-Fesv cat sarcoma SIS Feline sarcoma SM-Fesv cat fibrosarcoma fms Feline sarcoma ST-Fesv cat fibrosarcoma fes Aⅵ an sarcoma Asv-17 chicken fibrosarcoma Fujinami saroom a BuSY chicken sarcoma AMan m yelocytomatosis MC29 chicken carcinom a, sarcoma, m yelocytonye Abelson leukemia MuLY mouse B cell lymphoma a Reticuloendotheliosis REV-T turkey lym phat ic leukemia res Avan erythroblastosis AEV chicken erythroleukemia fbrosarcom a ebB, erbA Avan m yeloblastosis AMV chicken m yeloblastic leukemia myb Figure 28.8 Each transforming retrovirus carries an oncogene derived from a cellular gene. Viruses have names and abbreviations reflecting the history of their isolation and the types of tumor they cause. This ist shows some representative examples of the retroviral oncogenes 消当
Figure 28.8 Each transforming retrovirus carries an oncogene derived from a cellular gene. Viruses have names and abbreviations reflecting the history of their isolation and the types of tumor they cause. This list shows some representative examples of the retroviral oncogenes 28.3 Retroviral oncogenes have cellular counterparts
(像 28.4 Ras proto-oncogenes Tumor cells can be activated by mutation 入AAAA Extract DNA and transfer 了 into normal Figure 28.9 The transfection assay allows(some) oncogenes to be isolated directly by Transforming assaying DNA of tumor cells for gene integrates the ability to transform normal cells into tumorigenic cells sol ate colony of transformed cells Isolate specific DNA acquired 消当 by transformed M cells
Figure 28.9 The transfection assay allows (some) oncogenes to be isolated directly by assaying DNA of tumor cells for the ability to transform normal cells into tumorigenic cells. 28.4 Ras proto-oncogenes can be activated by mutation
(像 28.4 Ras proto-oncogenes Tumor cells can be activated by mutation 入AAAA Extract DNA and transfer 了 into normal Figure 28.9 The transfection assay allows(some) oncogenes to be isolated directly by Transforming assaying DNA of tumor cells for gene integrates the ability to transform normal cells into tumorigenic cells sol ate colony of transformed cells Isolate specific DNA acquired 消当 by transformed M cells
Figure 28.9 The transfection assay allows (some) oncogenes to be isolated directly by assaying DNA of tumor cells for the ability to transform normal cells into tumorigenic cells. 28.4 Ras proto-oncogenes can be activated by mutation
28.3 Retroviral oncogenes have cellular counterparts Virus Name Species Tumor oncogene Rous sartor RSV chicken sarcoma Src Harvey munne sarcoma Ha-MuSv rat sarcoma& erythroleukemia H-ras Kirsten m urine sarcom a ki-Musv sarcoma& erythroleukemia K-ras Moloney munine sarcomaMo-Musv mouse sarcoma mos FBJ m urine osteosarcom BJ-MuSy mouse chondrosarcoma a fos Sim ian sarcom a SSV monkey sarcoma S/S Feline sarcoma PI-Fesv cat sarcoma SIS Feline sarcoma SM-Fesv cat fibrosarcoma fms Feline sarcoma ST-Fesv cat fibrosarcoma fes Aⅵ an sarcoma Asv-17 chicken fibrosarcoma Fujinami saroom a BuSY chicken sarcoma AMan m yelocytomatosis MC29 chicken carcinom a, sarcoma, m yelocytonye Abelson leukemia MuLY mouse B cell lymphoma a Reticuloendotheliosis REV-T turkey lym phat ic leukemia res Avan erythroblastosis AEV chicken erythroleukemia fbrosarcom a ebB, erbA Avan m yeloblastosis AMV chicken m yeloblastic leukemia myb Figure 28.8 Each transforming retrovirus carries an oncogene derived from a cellular gene. Viruses have names and abbreviations reflecting the history of their isolation and the types of tumor they cause. This ist shows some representative examples of the retroviral oncogenes 消当
Figure 28.8 Each transforming retrovirus carries an oncogene derived from a cellular gene. Viruses have names and abbreviations reflecting the history of their isolation and the types of tumor they cause. This list shows some representative examples of the retroviral oncogenes 28.3 Retroviral oncogenes have cellular counterparts