ADAR1 binding affinity at inferred A-to-I RNA editing candidate sites. by Xinxin Peng (219357)

Chemo-Resistant Protein Expression Pattern of Glioblastoma Cells (A172) to Perillyl Alcohol by Juliana de Saldanha da Gama Fischer (1864135)

“…Clinical trial results on recurrent GBM patients showed that POH extends the average life by more than eight months, temporarily slows tumor growth, and in some cases even decreases tumor size. After approximately seven months, the tumor continues to grow and leads to a dismal prognosis. …”

Chemo-Resistant Protein Expression Pattern of Glioblastoma Cells (A172) to Perillyl Alcohol by Juliana de Saldanha da Gama Fischer (1864135)

“…Clinical trial results on recurrent GBM patients showed that POH extends the average life by more than eight months, temporarily slows tumor growth, and in some cases even decreases tumor size. After approximately seven months, the tumor continues to grow and leads to a dismal prognosis. …”

Chemo-Resistant Protein Expression Pattern of Glioblastoma Cells (A172) to Perillyl Alcohol by Juliana de Saldanha da Gama Fischer (1864135)

“…Clinical trial results on recurrent GBM patients showed that POH extends the average life by more than eight months, temporarily slows tumor growth, and in some cases even decreases tumor size. After approximately seven months, the tumor continues to grow and leads to a dismal prognosis. …”

Peroxide induces tuns in a concentration dependent manner in <i>Hypsibius exemplaris</i>. by Amanda L. Smythers (9077730)

List of potential epitopes introduced by high-confidence A-to-I RNA editing candidates. by Xinxin Peng (219357)

Chemo-Resistant Protein Expression Pattern of Glioblastoma Cells (A172) to Perillyl Alcohol by Juliana de Saldanha da Gama Fischer (1864135)

“…Clinical trial results on recurrent GBM patients showed that POH extends the average life by more than eight months, temporarily slows tumor growth, and in some cases even decreases tumor size. After approximately seven months, the tumor continues to grow and leads to a dismal prognosis. …”

Chemo-Resistant Protein Expression Pattern of Glioblastoma Cells (A172) to Perillyl Alcohol by Juliana de Saldanha da Gama Fischer (1864135)

“…Clinical trial results on recurrent GBM patients showed that POH extends the average life by more than eight months, temporarily slows tumor growth, and in some cases even decreases tumor size. After approximately seven months, the tumor continues to grow and leads to a dismal prognosis. …”

Fig 3 - by Nida Mansoora (11648641)

Summary of a panel of discriminant metabolites identified to be significantly changed between heliox saturation-hyperbaric-exposed and control rats in the three brain regions of ce... by Xia Liu (117318)

Fig 4 - by Nida Mansoora (11648641)

Fig 1 - by Nida Mansoora (11648641)

NMR and EPR Spectroscopic and Structural Studies of Low-Spin, (d_xz,d_y_z)⁴(d_x_y)¹ Ground State Fe(III) Bis... by Liliya A. Yatsunyk (1933270)

“…To our knowledge, this is the first example of a porphyrin complex with a purely saddled conformation that adopts the (d_xz,d_yz)⁴(d_xy)¹ ground state. …”

NMR and EPR Spectroscopic and Structural Studies of Low-Spin, (d_xz,d_y_z)⁴(d_x_y)¹ Ground State Fe(III) Bis... by Liliya A. Yatsunyk (1933270)

“…To our knowledge, this is the first example of a porphyrin complex with a purely saddled conformation that adopts the (d_xz,d_yz)⁴(d_xy)¹ ground state. …”

Regression results of the Callaway method. by Pu Miao (12886949)

“…During this lag period, the effect on the number of patent declines by 8.475% to 28.283%, while the impact on the number of citations of patents decreases by 55.696% to 73.214%. (4) The significant promotional effect of science and technology talent policies is most pronounced in non-state-owned enterprises and those with high R&D investment, but such policies do not have a notable impact on state-owned enterprises or those with low R&D investment. …”

Regression results of crowding out effects. by Pu Miao (12886949)

“…During this lag period, the effect on the number of patent declines by 8.475% to 28.283%, while the impact on the number of citations of patents decreases by 55.696% to 73.214%. (4) The significant promotional effect of science and technology talent policies is most pronounced in non-state-owned enterprises and those with high R&D investment, but such policies do not have a notable impact on state-owned enterprises or those with low R&D investment. …”

Article data. by Pu Miao (12886949)

“…During this lag period, the effect on the number of patent declines by 8.475% to 28.283%, while the impact on the number of citations of patents decreases by 55.696% to 73.214%. (4) The significant promotional effect of science and technology talent policies is most pronounced in non-state-owned enterprises and those with high R&D investment, but such policies do not have a notable impact on state-owned enterprises or those with low R&D investment. …”

Overidentification test results. by Pu Miao (12886949)

“…During this lag period, the effect on the number of patent declines by 8.475% to 28.283%, while the impact on the number of citations of patents decreases by 55.696% to 73.214%. (4) The significant promotional effect of science and technology talent policies is most pronounced in non-state-owned enterprises and those with high R&D investment, but such policies do not have a notable impact on state-owned enterprises or those with low R&D investment. …”

Quantile regression results. by Pu Miao (12886949)

“…During this lag period, the effect on the number of patent declines by 8.475% to 28.283%, while the impact on the number of citations of patents decreases by 55.696% to 73.214%. (4) The significant promotional effect of science and technology talent policies is most pronounced in non-state-owned enterprises and those with high R&D investment, but such policies do not have a notable impact on state-owned enterprises or those with low R&D investment. …”

Instrumental variable regression results. by Pu Miao (12886949)

“…During this lag period, the effect on the number of patent declines by 8.475% to 28.283%, while the impact on the number of citations of patents decreases by 55.696% to 73.214%. (4) The significant promotional effect of science and technology talent policies is most pronounced in non-state-owned enterprises and those with high R&D investment, but such policies do not have a notable impact on state-owned enterprises or those with low R&D investment. …”