Your search keyword '"Geller, David A."' showing total 95 results

1. Figure S1 from SKP2 Knockout in Rb1/p53–Deficient Mouse Models of Osteosarcoma Induces Immune Infiltration and Drives a Transcriptional Program with a Favorable Prognosis

Author

Ferrena, Alexander, primary, Wang, Jichuan, primary, Zhang, Ranxin, primary, Karadal-Ferrena, Burcu, primary, Al-Hardan, Waleed, primary, Singh, Swapnil, primary, Borjihan, Hasibagan, primary, Schwartz, Edward L., primary, Zhao, Hongling, primary, Oktay, Maja H., primary, Yang, Rui, primary, Geller, David S., primary, Hoang, Bang H., primary, and Zheng, Deyou, primary

Published

2024

2. Table S2 from SKP2 Knockout in Rb1/p53–Deficient Mouse Models of Osteosarcoma Induces Immune Infiltration and Drives a Transcriptional Program with a Favorable Prognosis

Author

Ferrena, Alexander, primary, Wang, Jichuan, primary, Zhang, Ranxin, primary, Karadal-Ferrena, Burcu, primary, Al-Hardan, Waleed, primary, Singh, Swapnil, primary, Borjihan, Hasibagan, primary, Schwartz, Edward L., primary, Zhao, Hongling, primary, Oktay, Maja H., primary, Yang, Rui, primary, Geller, David S., primary, Hoang, Bang H., primary, and Zheng, Deyou, primary

Published

2024

3. Figure S6 from SKP2 Knockout in Rb1/p53–Deficient Mouse Models of Osteosarcoma Induces Immune Infiltration and Drives a Transcriptional Program with a Favorable Prognosis

Author

Ferrena, Alexander, primary, Wang, Jichuan, primary, Zhang, Ranxin, primary, Karadal-Ferrena, Burcu, primary, Al-Hardan, Waleed, primary, Singh, Swapnil, primary, Borjihan, Hasibagan, primary, Schwartz, Edward L., primary, Zhao, Hongling, primary, Oktay, Maja H., primary, Yang, Rui, primary, Geller, David S., primary, Hoang, Bang H., primary, and Zheng, Deyou, primary

Published

2024

4. Figure S1 from SKP2 Knockout in Rb1/p53–Deficient Mouse Models of Osteosarcoma Induces Immune Infiltration and Drives a Transcriptional Program with a Favorable Prognosis

Author

Ferrena, Alexander, primary, Wang, Jichuan, primary, Zhang, Ranxin, primary, Karadal-Ferrena, Burcu, primary, Al-Hardan, Waleed, primary, Singh, Swapnil, primary, Borjihan, Hasibagan, primary, Schwartz, Edward L., primary, Zhao, Hongling, primary, Oktay, Maja H., primary, Yang, Rui, primary, Geller, David S., primary, Hoang, Bang H., primary, and Zheng, Deyou, primary

Published

2024

5. Table S3 from SKP2 Knockout in Rb1/p53–Deficient Mouse Models of Osteosarcoma Induces Immune Infiltration and Drives a Transcriptional Program with a Favorable Prognosis

Author

Ferrena, Alexander, primary, Wang, Jichuan, primary, Zhang, Ranxin, primary, Karadal-Ferrena, Burcu, primary, Al-Hardan, Waleed, primary, Singh, Swapnil, primary, Borjihan, Hasibagan, primary, Schwartz, Edward L., primary, Zhao, Hongling, primary, Oktay, Maja H., primary, Yang, Rui, primary, Geller, David S., primary, Hoang, Bang H., primary, and Zheng, Deyou, primary

Published

2024

6. Figure S5 from SKP2 Knockout in Rb1/p53–Deficient Mouse Models of Osteosarcoma Induces Immune Infiltration and Drives a Transcriptional Program with a Favorable Prognosis

Author

Ferrena, Alexander, primary, Wang, Jichuan, primary, Zhang, Ranxin, primary, Karadal-Ferrena, Burcu, primary, Al-Hardan, Waleed, primary, Singh, Swapnil, primary, Borjihan, Hasibagan, primary, Schwartz, Edward L., primary, Zhao, Hongling, primary, Oktay, Maja H., primary, Yang, Rui, primary, Geller, David S., primary, Hoang, Bang H., primary, and Zheng, Deyou, primary

Published

2024

7. Table S1 from SKP2 Knockout in Rb1/p53–Deficient Mouse Models of Osteosarcoma Induces Immune Infiltration and Drives a Transcriptional Program with a Favorable Prognosis

Author

Ferrena, Alexander, primary, Wang, Jichuan, primary, Zhang, Ranxin, primary, Karadal-Ferrena, Burcu, primary, Al-Hardan, Waleed, primary, Singh, Swapnil, primary, Borjihan, Hasibagan, primary, Schwartz, Edward L., primary, Zhao, Hongling, primary, Oktay, Maja H., primary, Yang, Rui, primary, Geller, David S., primary, Hoang, Bang H., primary, and Zheng, Deyou, primary

Published

2024

8. Table S3 from SKP2 Knockout in Rb1/p53–Deficient Mouse Models of Osteosarcoma Induces Immune Infiltration and Drives a Transcriptional Program with a Favorable Prognosis

Author

Ferrena, Alexander, primary, Wang, Jichuan, primary, Zhang, Ranxin, primary, Karadal-Ferrena, Burcu, primary, Al-Hardan, Waleed, primary, Singh, Swapnil, primary, Borjihan, Hasibagan, primary, Schwartz, Edward L., primary, Zhao, Hongling, primary, Oktay, Maja H., primary, Yang, Rui, primary, Geller, David S., primary, Hoang, Bang H., primary, and Zheng, Deyou, primary

Published

2024

9. Table S2 from SKP2 Knockout in Rb1/p53–Deficient Mouse Models of Osteosarcoma Induces Immune Infiltration and Drives a Transcriptional Program with a Favorable Prognosis

Author

Ferrena, Alexander, primary, Wang, Jichuan, primary, Zhang, Ranxin, primary, Karadal-Ferrena, Burcu, primary, Al-Hardan, Waleed, primary, Singh, Swapnil, primary, Borjihan, Hasibagan, primary, Schwartz, Edward L., primary, Zhao, Hongling, primary, Oktay, Maja H., primary, Yang, Rui, primary, Geller, David S., primary, Hoang, Bang H., primary, and Zheng, Deyou, primary

Published

2024

10. Figure S9 from SKP2 Knockout in Rb1/p53–Deficient Mouse Models of Osteosarcoma Induces Immune Infiltration and Drives a Transcriptional Program with a Favorable Prognosis

Author

Ferrena, Alexander, primary, Wang, Jichuan, primary, Zhang, Ranxin, primary, Karadal-Ferrena, Burcu, primary, Al-Hardan, Waleed, primary, Singh, Swapnil, primary, Borjihan, Hasibagan, primary, Schwartz, Edward L., primary, Zhao, Hongling, primary, Oktay, Maja H., primary, Yang, Rui, primary, Geller, David S., primary, Hoang, Bang H., primary, and Zheng, Deyou, primary

Published

2024

11. Figure S4 from SKP2 Knockout in Rb1/p53–Deficient Mouse Models of Osteosarcoma Induces Immune Infiltration and Drives a Transcriptional Program with a Favorable Prognosis

Author

Ferrena, Alexander, primary, Wang, Jichuan, primary, Zhang, Ranxin, primary, Karadal-Ferrena, Burcu, primary, Al-Hardan, Waleed, primary, Singh, Swapnil, primary, Borjihan, Hasibagan, primary, Schwartz, Edward L., primary, Zhao, Hongling, primary, Oktay, Maja H., primary, Yang, Rui, primary, Geller, David S., primary, Hoang, Bang H., primary, and Zheng, Deyou, primary

Published

2024

12. Figure S2 from SKP2 Knockout in Rb1/p53–Deficient Mouse Models of Osteosarcoma Induces Immune Infiltration and Drives a Transcriptional Program with a Favorable Prognosis

Author

Ferrena, Alexander, primary, Wang, Jichuan, primary, Zhang, Ranxin, primary, Karadal-Ferrena, Burcu, primary, Al-Hardan, Waleed, primary, Singh, Swapnil, primary, Borjihan, Hasibagan, primary, Schwartz, Edward L., primary, Zhao, Hongling, primary, Oktay, Maja H., primary, Yang, Rui, primary, Geller, David S., primary, Hoang, Bang H., primary, and Zheng, Deyou, primary

Published

2024

13. Figure S5 from SKP2 Knockout in Rb1/p53–Deficient Mouse Models of Osteosarcoma Induces Immune Infiltration and Drives a Transcriptional Program with a Favorable Prognosis

Author

Ferrena, Alexander, primary, Wang, Jichuan, primary, Zhang, Ranxin, primary, Karadal-Ferrena, Burcu, primary, Al-Hardan, Waleed, primary, Singh, Swapnil, primary, Borjihan, Hasibagan, primary, Schwartz, Edward L., primary, Zhao, Hongling, primary, Oktay, Maja H., primary, Yang, Rui, primary, Geller, David S., primary, Hoang, Bang H., primary, and Zheng, Deyou, primary

Published

2024

14. Figure S6 from SKP2 Knockout in Rb1/p53–Deficient Mouse Models of Osteosarcoma Induces Immune Infiltration and Drives a Transcriptional Program with a Favorable Prognosis

Author

Ferrena, Alexander, primary, Wang, Jichuan, primary, Zhang, Ranxin, primary, Karadal-Ferrena, Burcu, primary, Al-Hardan, Waleed, primary, Singh, Swapnil, primary, Borjihan, Hasibagan, primary, Schwartz, Edward L., primary, Zhao, Hongling, primary, Oktay, Maja H., primary, Yang, Rui, primary, Geller, David S., primary, Hoang, Bang H., primary, and Zheng, Deyou, primary

Published

2024

15. Figure S4 from SKP2 Knockout in Rb1/p53–Deficient Mouse Models of Osteosarcoma Induces Immune Infiltration and Drives a Transcriptional Program with a Favorable Prognosis

Author

Ferrena, Alexander, primary, Wang, Jichuan, primary, Zhang, Ranxin, primary, Karadal-Ferrena, Burcu, primary, Al-Hardan, Waleed, primary, Singh, Swapnil, primary, Borjihan, Hasibagan, primary, Schwartz, Edward L., primary, Zhao, Hongling, primary, Oktay, Maja H., primary, Yang, Rui, primary, Geller, David S., primary, Hoang, Bang H., primary, and Zheng, Deyou, primary

Published

2024

16. Figure S2 from SKP2 Knockout in Rb1/p53–Deficient Mouse Models of Osteosarcoma Induces Immune Infiltration and Drives a Transcriptional Program with a Favorable Prognosis

Author

Ferrena, Alexander, primary, Wang, Jichuan, primary, Zhang, Ranxin, primary, Karadal-Ferrena, Burcu, primary, Al-Hardan, Waleed, primary, Singh, Swapnil, primary, Borjihan, Hasibagan, primary, Schwartz, Edward L., primary, Zhao, Hongling, primary, Oktay, Maja H., primary, Yang, Rui, primary, Geller, David S., primary, Hoang, Bang H., primary, and Zheng, Deyou, primary

Published

2024

17. Figure S7 from SKP2 Knockout in Rb1/p53–Deficient Mouse Models of Osteosarcoma Induces Immune Infiltration and Drives a Transcriptional Program with a Favorable Prognosis

Author

Ferrena, Alexander, primary, Wang, Jichuan, primary, Zhang, Ranxin, primary, Karadal-Ferrena, Burcu, primary, Al-Hardan, Waleed, primary, Singh, Swapnil, primary, Borjihan, Hasibagan, primary, Schwartz, Edward L., primary, Zhao, Hongling, primary, Oktay, Maja H., primary, Yang, Rui, primary, Geller, David S., primary, Hoang, Bang H., primary, and Zheng, Deyou, primary

Published

2024

18. Table S4 from SKP2 Knockout in Rb1/p53–Deficient Mouse Models of Osteosarcoma Induces Immune Infiltration and Drives a Transcriptional Program with a Favorable Prognosis

Author

Ferrena, Alexander, primary, Wang, Jichuan, primary, Zhang, Ranxin, primary, Karadal-Ferrena, Burcu, primary, Al-Hardan, Waleed, primary, Singh, Swapnil, primary, Borjihan, Hasibagan, primary, Schwartz, Edward L., primary, Zhao, Hongling, primary, Oktay, Maja H., primary, Yang, Rui, primary, Geller, David S., primary, Hoang, Bang H., primary, and Zheng, Deyou, primary

Published

2024

19. Figure S8 from SKP2 Knockout in Rb1/p53–Deficient Mouse Models of Osteosarcoma Induces Immune Infiltration and Drives a Transcriptional Program with a Favorable Prognosis

Author

Ferrena, Alexander, primary, Wang, Jichuan, primary, Zhang, Ranxin, primary, Karadal-Ferrena, Burcu, primary, Al-Hardan, Waleed, primary, Singh, Swapnil, primary, Borjihan, Hasibagan, primary, Schwartz, Edward L., primary, Zhao, Hongling, primary, Oktay, Maja H., primary, Yang, Rui, primary, Geller, David S., primary, Hoang, Bang H., primary, and Zheng, Deyou, primary

Published

2024

20. Figure S3 from SKP2 Knockout in Rb1/p53–Deficient Mouse Models of Osteosarcoma Induces Immune Infiltration and Drives a Transcriptional Program with a Favorable Prognosis

Author

Ferrena, Alexander, primary, Wang, Jichuan, primary, Zhang, Ranxin, primary, Karadal-Ferrena, Burcu, primary, Al-Hardan, Waleed, primary, Singh, Swapnil, primary, Borjihan, Hasibagan, primary, Schwartz, Edward L., primary, Zhao, Hongling, primary, Oktay, Maja H., primary, Yang, Rui, primary, Geller, David S., primary, Hoang, Bang H., primary, and Zheng, Deyou, primary

Published

2024

21. Table S1 from SKP2 Knockout in Rb1/p53–Deficient Mouse Models of Osteosarcoma Induces Immune Infiltration and Drives a Transcriptional Program with a Favorable Prognosis

Author

Ferrena, Alexander, primary, Wang, Jichuan, primary, Zhang, Ranxin, primary, Karadal-Ferrena, Burcu, primary, Al-Hardan, Waleed, primary, Singh, Swapnil, primary, Borjihan, Hasibagan, primary, Schwartz, Edward L., primary, Zhao, Hongling, primary, Oktay, Maja H., primary, Yang, Rui, primary, Geller, David S., primary, Hoang, Bang H., primary, and Zheng, Deyou, primary

Published

2024

22. Figure S3 from SKP2 Knockout in Rb1/p53–Deficient Mouse Models of Osteosarcoma Induces Immune Infiltration and Drives a Transcriptional Program with a Favorable Prognosis

Author

Ferrena, Alexander, primary, Wang, Jichuan, primary, Zhang, Ranxin, primary, Karadal-Ferrena, Burcu, primary, Al-Hardan, Waleed, primary, Singh, Swapnil, primary, Borjihan, Hasibagan, primary, Schwartz, Edward L., primary, Zhao, Hongling, primary, Oktay, Maja H., primary, Yang, Rui, primary, Geller, David S., primary, Hoang, Bang H., primary, and Zheng, Deyou, primary

Published

2024

23. Figure S9 from SKP2 Knockout in Rb1/p53–Deficient Mouse Models of Osteosarcoma Induces Immune Infiltration and Drives a Transcriptional Program with a Favorable Prognosis

Author

Ferrena, Alexander, primary, Wang, Jichuan, primary, Zhang, Ranxin, primary, Karadal-Ferrena, Burcu, primary, Al-Hardan, Waleed, primary, Singh, Swapnil, primary, Borjihan, Hasibagan, primary, Schwartz, Edward L., primary, Zhao, Hongling, primary, Oktay, Maja H., primary, Yang, Rui, primary, Geller, David S., primary, Hoang, Bang H., primary, and Zheng, Deyou, primary

Published

2024

24. Table S4 from SKP2 Knockout in Rb1/p53–Deficient Mouse Models of Osteosarcoma Induces Immune Infiltration and Drives a Transcriptional Program with a Favorable Prognosis

Author

Ferrena, Alexander, primary, Wang, Jichuan, primary, Zhang, Ranxin, primary, Karadal-Ferrena, Burcu, primary, Al-Hardan, Waleed, primary, Singh, Swapnil, primary, Borjihan, Hasibagan, primary, Schwartz, Edward L., primary, Zhao, Hongling, primary, Oktay, Maja H., primary, Yang, Rui, primary, Geller, David S., primary, Hoang, Bang H., primary, and Zheng, Deyou, primary

Published

2024

25. Data from SKP2 Knockout in Rb1/p53–Deficient Mouse Models of Osteosarcoma Induces Immune Infiltration and Drives a Transcriptional Program with a Favorable Prognosis

Author

Ferrena, Alexander, primary, Wang, Jichuan, primary, Zhang, Ranxin, primary, Karadal-Ferrena, Burcu, primary, Al-Hardan, Waleed, primary, Singh, Swapnil, primary, Borjihan, Hasibagan, primary, Schwartz, Edward L., primary, Zhao, Hongling, primary, Oktay, Maja H., primary, Yang, Rui, primary, Geller, David S., primary, Hoang, Bang H., primary, and Zheng, Deyou, primary

Published

2024

26. Figure S8 from SKP2 Knockout in Rb1/p53–Deficient Mouse Models of Osteosarcoma Induces Immune Infiltration and Drives a Transcriptional Program with a Favorable Prognosis

Author

Ferrena, Alexander, primary, Wang, Jichuan, primary, Zhang, Ranxin, primary, Karadal-Ferrena, Burcu, primary, Al-Hardan, Waleed, primary, Singh, Swapnil, primary, Borjihan, Hasibagan, primary, Schwartz, Edward L., primary, Zhao, Hongling, primary, Oktay, Maja H., primary, Yang, Rui, primary, Geller, David S., primary, Hoang, Bang H., primary, and Zheng, Deyou, primary

Published

2024

27. Data from SKP2 Knockout in Rb1/p53–Deficient Mouse Models of Osteosarcoma Induces Immune Infiltration and Drives a Transcriptional Program with a Favorable Prognosis

Author

Ferrena, Alexander, primary, Wang, Jichuan, primary, Zhang, Ranxin, primary, Karadal-Ferrena, Burcu, primary, Al-Hardan, Waleed, primary, Singh, Swapnil, primary, Borjihan, Hasibagan, primary, Schwartz, Edward L., primary, Zhao, Hongling, primary, Oktay, Maja H., primary, Yang, Rui, primary, Geller, David S., primary, Hoang, Bang H., primary, and Zheng, Deyou, primary

Published

2024

28. Figure S7 from SKP2 Knockout in Rb1/p53–Deficient Mouse Models of Osteosarcoma Induces Immune Infiltration and Drives a Transcriptional Program with a Favorable Prognosis

Author

Ferrena, Alexander, primary, Wang, Jichuan, primary, Zhang, Ranxin, primary, Karadal-Ferrena, Burcu, primary, Al-Hardan, Waleed, primary, Singh, Swapnil, primary, Borjihan, Hasibagan, primary, Schwartz, Edward L., primary, Zhao, Hongling, primary, Oktay, Maja H., primary, Yang, Rui, primary, Geller, David S., primary, Hoang, Bang H., primary, and Zheng, Deyou, primary

Published

2024

29. SKP2 Knockout in Rb1/p53–Deficient Mouse Models of Osteosarcoma Induces Immune Infiltration and Drives a Transcriptional Program with a Favorable Prognosis

Author

Ferrena, Alexander, primary, Wang, Jichuan, additional, Zhang, Ranxin, additional, Karadal-Ferrena, Burcu, additional, Al-Hardan, Waleed, additional, Singh, Swapnil, additional, Borjihan, Hasibagan, additional, Schwartz, Edward L., additional, Zhao, Hongling, additional, Oktay, Maja H., additional, Yang, Rui, additional, Geller, David S., additional, Hoang, Bang H., additional, and Zheng, Deyou, additional

Published

2023

30. Abstract 553: SKP2 knockout induces macrophage infiltration in p53/Rb1 null transgenic mouse models of osteosarcoma and drives gene expression correlated with improved survival in patients

Author

Ferrena, Alexander, primary, Wang, Jichuan, additional, Zhang, Ranxin, additional, Yang, Rui, additional, Geller, David, additional, Hoang, Bang, additional, and Zheng, Deyou, additional

Published

2023

31. Abstract 5881: PERIO-01: Initial safety experience and immunologic effects of a Class C TLR9 agonist using pressure- enabled drug delivery in a phase 1 trial of hepatic arterial infusion of SD-101 +/- checkpoint inhibition in metastatic uveal melanoma

Author

Patel, Sapna P., primary, Haymaker, Cara, additional, Sheth, Rahul A., additional, Kuban, Joshua D., additional, Weintraub, Joshua, additional, Wehrenberg-Klee, Eric, additional, Novelli, Paula, additional, Gonsalves, Carin, additional, Adamo, Robert, additional, Honaker, Virgina, additional, Timciuc, Laura, additional, Hennegan, Tarin, additional, Molina, Juan C. Amador, additional, Duose, Dzifa, additional, Cuenta, Edwin R. Parras, additional, Lucci, Anthony, additional, Meas, Salyna, additional, Sarli, Vanessa, additional, Prieto, Victor G., additional, LaPorte, Jason, additional, Hulstine, Ann-Marie, additional, Moody, Ashley, additional, Cox, Bryan, additional, Geller, David, additional, Davar, Diwakar, additional, Montazeri, Kamaneh, additional, Orloff, Marlana, additional, Katz, Steven C., additional, and Carvajal, Richard, additional

Published

2023

32. Abstract 1317: Exercise training prevents exosome mediated pre-metastatic niche formation in the liver

Author

Yang, Ruiqi, primary, Haykal, Tony, additional, Tohme, Celine, additional, Wang, Ronghua, additional, Kaltenmeier, Christof, additional, Geller, David, additional, Yazdani, Hamza, additional, and Tohme, Samer, additional

Published

2023

33. Abstract 5136: Surgical stress promotes long-lasting protumorigenic changes in bone marrow derived progenitor cells

Author

Yazdani, Hamza O., primary, Haykal, Tony, additional, Yang, Ruiqi, additional, Tohme, Celine, additional, Geller, David A., additional, and Tohme, Samer, additional

Published

2023

34. Abstract 5129: Neutrophil extracellular traps induced by surgical stress regulate cancer metabolism leading to tumor growth

Author

Haykal, Tony, primary, Yang, Ruiqi, additional, Tohme, Celine, additional, Wang, Ronghua, additional, Geller, David, additional, Kaltenmeier, Christof, additional, Yazdani, Hamza, additional, and Tohme, Samer, additional

Published

2023

35. Supplementary Table S1, Figures S1 - S12 from Tumor-Derived α-Fetoprotein Directly Drives Human Natural Killer–Cell Activation and Subsequent Cell Death

Author

Vujanovic, Lazar, primary, Stahl, Elizabeth C., primary, Pardee, Angela D., primary, Geller, David A., primary, Tsung, Allan, primary, Watkins, Simon C., primary, Gibson, Gregory A., primary, Storkus, Walter J., primary, and Butterfield, Lisa H., primary

Published

2023

36. Supplementary Table 1 from Downregulation of iNOS/NO Promotes Epithelial–Mesenchymal Transition and Metastasis in Colorectal Cancer

Author

Du, Qiang, primary, Liu, Silvia, primary, Dong, Kun, primary, Cui, Xiao, primary, Luo, Jing, primary, and Geller, David A., primary

Published

2023

37. Supplementary Table 2 from Downregulation of iNOS/NO Promotes Epithelial–Mesenchymal Transition and Metastasis in Colorectal Cancer

Author

Du, Qiang, primary, Liu, Silvia, primary, Dong, Kun, primary, Cui, Xiao, primary, Luo, Jing, primary, and Geller, David A., primary

Published

2023

38. Data from Tumor-Derived α-Fetoprotein Directly Drives Human Natural Killer–Cell Activation and Subsequent Cell Death

Author

Vujanovic, Lazar, primary, Stahl, Elizabeth C., primary, Pardee, Angela D., primary, Geller, David A., primary, Tsung, Allan, primary, Watkins, Simon C., primary, Gibson, Gregory A., primary, Storkus, Walter J., primary, and Butterfield, Lisa H., primary

Published

2023

39. Supplementary Table 3 from Downregulation of iNOS/NO Promotes Epithelial–Mesenchymal Transition and Metastasis in Colorectal Cancer

Author

Du, Qiang, primary, Liu, Silvia, primary, Dong, Kun, primary, Cui, Xiao, primary, Luo, Jing, primary, and Geller, David A., primary

Published

2023

40. Supplementary Table 3 from Downregulation of iNOS/NO Promotes Epithelial–Mesenchymal Transition and Metastasis in Colorectal Cancer

Author

Du, Qiang, primary, Liu, Silvia, primary, Dong, Kun, primary, Cui, Xiao, primary, Luo, Jing, primary, and Geller, David A., primary

Published

2023

41. Supplementary Table 1 from Downregulation of iNOS/NO Promotes Epithelial–Mesenchymal Transition and Metastasis in Colorectal Cancer

Author

Du, Qiang, primary, Liu, Silvia, primary, Dong, Kun, primary, Cui, Xiao, primary, Luo, Jing, primary, and Geller, David A., primary

Published

2023

42. Data from Tumor-Derived α-Fetoprotein Directly Drives Human Natural Killer–Cell Activation and Subsequent Cell Death

Author

Vujanovic, Lazar, primary, Stahl, Elizabeth C., primary, Pardee, Angela D., primary, Geller, David A., primary, Tsung, Allan, primary, Watkins, Simon C., primary, Gibson, Gregory A., primary, Storkus, Walter J., primary, and Butterfield, Lisa H., primary

Published

2023

43. Supplementary Table 4 from Downregulation of iNOS/NO Promotes Epithelial–Mesenchymal Transition and Metastasis in Colorectal Cancer

Author

Du, Qiang, primary, Liu, Silvia, primary, Dong, Kun, primary, Cui, Xiao, primary, Luo, Jing, primary, and Geller, David A., primary

Published

2023

44. Supplementary Table S1, Figures S1 - S12 from Tumor-Derived α-Fetoprotein Directly Drives Human Natural Killer–Cell Activation and Subsequent Cell Death

Author

Vujanovic, Lazar, primary, Stahl, Elizabeth C., primary, Pardee, Angela D., primary, Geller, David A., primary, Tsung, Allan, primary, Watkins, Simon C., primary, Gibson, Gregory A., primary, Storkus, Walter J., primary, and Butterfield, Lisa H., primary

Published

2023

45. Supplementary Table 4 from Downregulation of iNOS/NO Promotes Epithelial–Mesenchymal Transition and Metastasis in Colorectal Cancer

Author

Du, Qiang, primary, Liu, Silvia, primary, Dong, Kun, primary, Cui, Xiao, primary, Luo, Jing, primary, and Geller, David A., primary

Published

2023

46. Data from Downregulation of iNOS/NO Promotes Epithelial–Mesenchymal Transition and Metastasis in Colorectal Cancer

Author

Du, Qiang, primary, Liu, Silvia, primary, Dong, Kun, primary, Cui, Xiao, primary, Luo, Jing, primary, and Geller, David A., primary

Published

2023

47. Data from Downregulation of iNOS/NO Promotes Epithelial–Mesenchymal Transition and Metastasis in Colorectal Cancer

Author

Du, Qiang, primary, Liu, Silvia, primary, Dong, Kun, primary, Cui, Xiao, primary, Luo, Jing, primary, and Geller, David A., primary

Published

2023

48. Supplementary Table 2 from Downregulation of iNOS/NO Promotes Epithelial–Mesenchymal Transition and Metastasis in Colorectal Cancer

Author

Du, Qiang, primary, Liu, Silvia, primary, Dong, Kun, primary, Cui, Xiao, primary, Luo, Jing, primary, and Geller, David A., primary

Published

2023

49. Supplementary Figure S4. from Development of a Model System to Evaluate Local Recurrence in Osteosarcoma and Assessment of the Effects of Bone Morphogenetic Protein-2

Author

Geller, David S., primary, Singh, Michael Y., primary, Zhang, Wendong, primary, Gill, Jonathan, primary, Roth, Michael E., primary, Kim, Mimi Y., primary, Xie, Xianhong, primary, Singh, Christopher K., primary, Dorfman, Howard D., primary, Villanueva-Siles, Esperanza, primary, Park, Amy, primary, Piperdi, Sajida, primary, and Gorlick, Richard, primary

Published

2023

50. Data from Neutrophil Extracellular Traps Drive Mitochondrial Homeostasis in Tumors to Augment Growth

Author

Yazdani, Hamza O., primary, Roy, Eva, primary, Comerci, Alexander J., primary, van der Windt, Dirk J., primary, Zhang, Hongji, primary, Huang, Hai, primary, Loughran, Patricia, primary, Shiva, Sruti, primary, Geller, David A., primary, Bartlett, David L., primary, Tsung, Allan, primary, Sheng, Tai, primary, Simmons, Richard L., primary, and Tohme, Samer, primary

Published

2023