HPV16 E1 decreases cell growth. حسب Fern Baedyananda (11888703)

Supplementary Figures 1 through 6 from Loss of the Methyl-CpG–Binding Protein ZBTB4 Alters Mitotic Checkpoint, Increases Aneuploidy, and Promotes Tumorigenesis حسب Audrey Roussel-Gervais (14925519)

Simulated life table parameters of <i>Scapsipedus icipe</i> at different constant temperatures (initial egg number (n) = 100). حسب Magara H. J. Otieno (7430183)

Life cycle costs for septic and ATU systems. حسب Christopher A. Wada (6437336)

Stability and decrease rate of resistance to methoxyfenozide and other tested insecticides in <i>Chrysoperla carnea</i>. حسب Muhammad Mudassir Mansoor (12275345)

Items measuring Schwartz’s higher-order value orientations as depicted in Fig 1. حسب Oscar Smallenbroek (17509563)

Table_1_Physiology of Highly Radioresistant Escherichia coli After Experimental Evolution for 100 Cycles of Selection.xlsx حسب Steven T. Bruckbauer (6256799)

"…Utilizing experimental evolution and continuing previous work, we have generated the most IR-resistant Escherichia coli populations developed to date. After 100 cycles of selection, the dose required to kill 99% the four replicate populations (IR9-100, IR10-100, IR11-100, and IR12-100) has increased from 750 Gy to approximately 3,000 Gy. …"

Image_4_Physiology of Highly Radioresistant Escherichia coli After Experimental Evolution for 100 Cycles of Selection.TIF حسب Steven T. Bruckbauer (6256799)

"…Utilizing experimental evolution and continuing previous work, we have generated the most IR-resistant Escherichia coli populations developed to date. After 100 cycles of selection, the dose required to kill 99% the four replicate populations (IR9-100, IR10-100, IR11-100, and IR12-100) has increased from 750 Gy to approximately 3,000 Gy. …"

Table_3_Physiology of Highly Radioresistant Escherichia coli After Experimental Evolution for 100 Cycles of Selection.xlsx حسب Steven T. Bruckbauer (6256799)

"…Utilizing experimental evolution and continuing previous work, we have generated the most IR-resistant Escherichia coli populations developed to date. After 100 cycles of selection, the dose required to kill 99% the four replicate populations (IR9-100, IR10-100, IR11-100, and IR12-100) has increased from 750 Gy to approximately 3,000 Gy. …"

Image_3_Physiology of Highly Radioresistant Escherichia coli After Experimental Evolution for 100 Cycles of Selection.TIF حسب Steven T. Bruckbauer (6256799)

"…Utilizing experimental evolution and continuing previous work, we have generated the most IR-resistant Escherichia coli populations developed to date. After 100 cycles of selection, the dose required to kill 99% the four replicate populations (IR9-100, IR10-100, IR11-100, and IR12-100) has increased from 750 Gy to approximately 3,000 Gy. …"

Image_4_Physiology of Highly Radioresistant Escherichia coli After Experimental Evolution for 100 Cycles of Selection.TIF حسب Steven T. Bruckbauer (6256799)

"…Utilizing experimental evolution and continuing previous work, we have generated the most IR-resistant Escherichia coli populations developed to date. After 100 cycles of selection, the dose required to kill 99% the four replicate populations (IR9-100, IR10-100, IR11-100, and IR12-100) has increased from 750 Gy to approximately 3,000 Gy. …"

Image_3_Physiology of Highly Radioresistant Escherichia coli After Experimental Evolution for 100 Cycles of Selection.TIF حسب Steven T. Bruckbauer (6256799)

"…Utilizing experimental evolution and continuing previous work, we have generated the most IR-resistant Escherichia coli populations developed to date. After 100 cycles of selection, the dose required to kill 99% the four replicate populations (IR9-100, IR10-100, IR11-100, and IR12-100) has increased from 750 Gy to approximately 3,000 Gy. …"

Table_3_Physiology of Highly Radioresistant Escherichia coli After Experimental Evolution for 100 Cycles of Selection.xlsx حسب Steven T. Bruckbauer (6256799)

"…Utilizing experimental evolution and continuing previous work, we have generated the most IR-resistant Escherichia coli populations developed to date. After 100 cycles of selection, the dose required to kill 99% the four replicate populations (IR9-100, IR10-100, IR11-100, and IR12-100) has increased from 750 Gy to approximately 3,000 Gy. …"

Image_2_Physiology of Highly Radioresistant Escherichia coli After Experimental Evolution for 100 Cycles of Selection.TIF حسب Steven T. Bruckbauer (6256799)

"…Utilizing experimental evolution and continuing previous work, we have generated the most IR-resistant Escherichia coli populations developed to date. After 100 cycles of selection, the dose required to kill 99% the four replicate populations (IR9-100, IR10-100, IR11-100, and IR12-100) has increased from 750 Gy to approximately 3,000 Gy. …"

Table_1_Physiology of Highly Radioresistant Escherichia coli After Experimental Evolution for 100 Cycles of Selection.xlsx حسب Steven T. Bruckbauer (6256799)

"…Utilizing experimental evolution and continuing previous work, we have generated the most IR-resistant Escherichia coli populations developed to date. After 100 cycles of selection, the dose required to kill 99% the four replicate populations (IR9-100, IR10-100, IR11-100, and IR12-100) has increased from 750 Gy to approximately 3,000 Gy. …"

Image_1_Physiology of Highly Radioresistant Escherichia coli After Experimental Evolution for 100 Cycles of Selection.TIF حسب Steven T. Bruckbauer (6256799)

"…Utilizing experimental evolution and continuing previous work, we have generated the most IR-resistant Escherichia coli populations developed to date. After 100 cycles of selection, the dose required to kill 99% the four replicate populations (IR9-100, IR10-100, IR11-100, and IR12-100) has increased from 750 Gy to approximately 3,000 Gy. …"

Table_2_Physiology of Highly Radioresistant Escherichia coli After Experimental Evolution for 100 Cycles of Selection.xlsx حسب Steven T. Bruckbauer (6256799)

"…Utilizing experimental evolution and continuing previous work, we have generated the most IR-resistant Escherichia coli populations developed to date. After 100 cycles of selection, the dose required to kill 99% the four replicate populations (IR9-100, IR10-100, IR11-100, and IR12-100) has increased from 750 Gy to approximately 3,000 Gy. …"

Image_2_Physiology of Highly Radioresistant Escherichia coli After Experimental Evolution for 100 Cycles of Selection.TIF حسب Steven T. Bruckbauer (6256799)

"…Utilizing experimental evolution and continuing previous work, we have generated the most IR-resistant Escherichia coli populations developed to date. After 100 cycles of selection, the dose required to kill 99% the four replicate populations (IR9-100, IR10-100, IR11-100, and IR12-100) has increased from 750 Gy to approximately 3,000 Gy. …"

Table_2_Physiology of Highly Radioresistant Escherichia coli After Experimental Evolution for 100 Cycles of Selection.xlsx حسب Steven T. Bruckbauer (6256799)

"…Utilizing experimental evolution and continuing previous work, we have generated the most IR-resistant Escherichia coli populations developed to date. After 100 cycles of selection, the dose required to kill 99% the four replicate populations (IR9-100, IR10-100, IR11-100, and IR12-100) has increased from 750 Gy to approximately 3,000 Gy. …"

Image_5_Physiology of Highly Radioresistant Escherichia coli After Experimental Evolution for 100 Cycles of Selection.TIF حسب Steven T. Bruckbauer (6256799)

"…Utilizing experimental evolution and continuing previous work, we have generated the most IR-resistant Escherichia coli populations developed to date. After 100 cycles of selection, the dose required to kill 99% the four replicate populations (IR9-100, IR10-100, IR11-100, and IR12-100) has increased from 750 Gy to approximately 3,000 Gy. …"