Vytas P. Bindokas
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View article: Author Correction: Mechanisms of simultaneous linear and nonlinear computations at the mammalian cone photoreceptor synapse
Author Correction: Mechanisms of simultaneous linear and nonlinear computations at the mammalian cone photoreceptor synapse Open
View article: Hypoxia sensing requires H <sub>2</sub> S-dependent persulfidation of olfactory receptor 78
Hypoxia sensing requires H <sub>2</sub> S-dependent persulfidation of olfactory receptor 78 Open
Oxygen (O 2 ) sensing by the carotid body is critical for maintaining cardiorespiratory homeostasis during hypoxia. Hydrogen sulfide (H 2 S) signaling is implicated in carotid body activation by low O 2 . Here, we show that persulfidation …
View article: Mechanisms of simultaneous linear and nonlinear computations at the mammalian cone photoreceptor synapse
Mechanisms of simultaneous linear and nonlinear computations at the mammalian cone photoreceptor synapse Open
View article: Emerging Activity Patterns and Synaptogenesis in Dissociated Hippocampal Cultures
Emerging Activity Patterns and Synaptogenesis in Dissociated Hippocampal Cultures Open
Cultures of dissociated hippocampal neurons display a stereotypical development of network activity patterns within the first three weeks of maturation. During this process, network connections develop and the associated spiking patterns r…
View article: Supplementary Methods, Figures 1-3, Movie Legend from Time-Course Imaging of Therapeutic Functional Tumor Vascular Normalization by Antiangiogenic Agents
Supplementary Methods, Figures 1-3, Movie Legend from Time-Course Imaging of Therapeutic Functional Tumor Vascular Normalization by Antiangiogenic Agents Open
Supplementary Methods, Figures 1-3, Movie Legend from Time-Course Imaging of Therapeutic Functional Tumor Vascular Normalization by Antiangiogenic Agents
View article: Data from Time-Course Imaging of Therapeutic Functional Tumor Vascular Normalization by Antiangiogenic Agents
Data from Time-Course Imaging of Therapeutic Functional Tumor Vascular Normalization by Antiangiogenic Agents Open
We describe here new technology that enables noninvasive imaging of therapeutic functional normalization of tumor blood vessels by antiangiogenic agents. Noninvasive variable-magnification in vivo-fluorescence imaging as well as flu…
View article: Supplementary Methods, Figures 1-3, Movie Legend from Time-Course Imaging of Therapeutic Functional Tumor Vascular Normalization by Antiangiogenic Agents
Supplementary Methods, Figures 1-3, Movie Legend from Time-Course Imaging of Therapeutic Functional Tumor Vascular Normalization by Antiangiogenic Agents Open
Supplementary Methods, Figures 1-3, Movie Legend from Time-Course Imaging of Therapeutic Functional Tumor Vascular Normalization by Antiangiogenic Agents
View article: Supplementary Movie from Time-Course Imaging of Therapeutic Functional Tumor Vascular Normalization by Antiangiogenic Agents
Supplementary Movie from Time-Course Imaging of Therapeutic Functional Tumor Vascular Normalization by Antiangiogenic Agents Open
Supplementary Movie from Time-Course Imaging of Therapeutic Functional Tumor Vascular Normalization by Antiangiogenic Agents
View article: Supplementary Movie from Time-Course Imaging of Therapeutic Functional Tumor Vascular Normalization by Antiangiogenic Agents
Supplementary Movie from Time-Course Imaging of Therapeutic Functional Tumor Vascular Normalization by Antiangiogenic Agents Open
Supplementary Movie from Time-Course Imaging of Therapeutic Functional Tumor Vascular Normalization by Antiangiogenic Agents
View article: Data from Time-Course Imaging of Therapeutic Functional Tumor Vascular Normalization by Antiangiogenic Agents
Data from Time-Course Imaging of Therapeutic Functional Tumor Vascular Normalization by Antiangiogenic Agents Open
We describe here new technology that enables noninvasive imaging of therapeutic functional normalization of tumor blood vessels by antiangiogenic agents. Noninvasive variable-magnification in vivo-fluorescence imaging as well as flu…
View article: Supplementary Data from Pharmacologic Inactivation of Kinase Suppressor of Ras1 Sensitizes Epidermal Growth Factor Receptor and Oncogenic Ras-Dependent Tumors to Ionizing Radiation Treatment
Supplementary Data from Pharmacologic Inactivation of Kinase Suppressor of Ras1 Sensitizes Epidermal Growth Factor Receptor and Oncogenic Ras-Dependent Tumors to Ionizing Radiation Treatment Open
Includes Supplementary Figures 1 through 5 with corresponding figure legends
View article: Data from Pharmacologic Inactivation of Kinase Suppressor of Ras1 Sensitizes Epidermal Growth Factor Receptor and Oncogenic Ras-Dependent Tumors to Ionizing Radiation Treatment
Data from Pharmacologic Inactivation of Kinase Suppressor of Ras1 Sensitizes Epidermal Growth Factor Receptor and Oncogenic Ras-Dependent Tumors to Ionizing Radiation Treatment Open
Selective enhancement of tumor response to radiation therapy is a highly attractive objective, but it has not been met clinically. Gain-of-function Ras (gf) signaling via hyperactivation of receptor tyrosine kinases, such as the epidermal …
View article: Data from Pharmacologic Inactivation of Kinase Suppressor of Ras1 Sensitizes Epidermal Growth Factor Receptor and Oncogenic Ras-Dependent Tumors to Ionizing Radiation Treatment
Data from Pharmacologic Inactivation of Kinase Suppressor of Ras1 Sensitizes Epidermal Growth Factor Receptor and Oncogenic Ras-Dependent Tumors to Ionizing Radiation Treatment Open
Selective enhancement of tumor response to radiation therapy is a highly attractive objective, but it has not been met clinically. Gain-of-function Ras (gf) signaling via hyperactivation of receptor tyrosine kinases, such as the epidermal …
View article: Supplementary Data from Pharmacologic Inactivation of Kinase Suppressor of Ras1 Sensitizes Epidermal Growth Factor Receptor and Oncogenic Ras-Dependent Tumors to Ionizing Radiation Treatment
Supplementary Data from Pharmacologic Inactivation of Kinase Suppressor of Ras1 Sensitizes Epidermal Growth Factor Receptor and Oncogenic Ras-Dependent Tumors to Ionizing Radiation Treatment Open
Includes Supplementary Figures 1 through 5 with corresponding figure legends
View article: Supplementary Figure 5 from Paxillin Is a Target for Somatic Mutations in Lung Cancer: Implications for Cell Growth and Invasion
Supplementary Figure 5 from Paxillin Is a Target for Somatic Mutations in Lung Cancer: Implications for Cell Growth and Invasion Open
Supplementary Figure 5 from Paxillin Is a Target for Somatic Mutations in Lung Cancer: Implications for Cell Growth and Invasion
View article: Supplementary Table 3 from Paxillin Is a Target for Somatic Mutations in Lung Cancer: Implications for Cell Growth and Invasion
Supplementary Table 3 from Paxillin Is a Target for Somatic Mutations in Lung Cancer: Implications for Cell Growth and Invasion Open
Supplementary Table 3 from Paxillin Is a Target for Somatic Mutations in Lung Cancer: Implications for Cell Growth and Invasion
View article: Supplementary Table 1 from Paxillin Is a Target for Somatic Mutations in Lung Cancer: Implications for Cell Growth and Invasion
Supplementary Table 1 from Paxillin Is a Target for Somatic Mutations in Lung Cancer: Implications for Cell Growth and Invasion Open
Supplementary Table 1 from Paxillin Is a Target for Somatic Mutations in Lung Cancer: Implications for Cell Growth and Invasion
View article: Supplementary Table 1 from Paxillin Is a Target for Somatic Mutations in Lung Cancer: Implications for Cell Growth and Invasion
Supplementary Table 1 from Paxillin Is a Target for Somatic Mutations in Lung Cancer: Implications for Cell Growth and Invasion Open
Supplementary Table 1 from Paxillin Is a Target for Somatic Mutations in Lung Cancer: Implications for Cell Growth and Invasion
View article: Supplementary Table 4 from Paxillin Is a Target for Somatic Mutations in Lung Cancer: Implications for Cell Growth and Invasion
Supplementary Table 4 from Paxillin Is a Target for Somatic Mutations in Lung Cancer: Implications for Cell Growth and Invasion Open
Supplementary Table 4 from Paxillin Is a Target for Somatic Mutations in Lung Cancer: Implications for Cell Growth and Invasion
View article: Data from Paxillin Is a Target for Somatic Mutations in Lung Cancer: Implications for Cell Growth and Invasion
Data from Paxillin Is a Target for Somatic Mutations in Lung Cancer: Implications for Cell Growth and Invasion Open
Lung cancer is characterized by abnormal cell growth and invasion, and the actin cytoskeleton plays a major role in these processes. The focal adhesion protein paxillin is a target of a number of oncogenes involved in key signal transducti…
View article: Data from Paxillin Is a Target for Somatic Mutations in Lung Cancer: Implications for Cell Growth and Invasion
Data from Paxillin Is a Target for Somatic Mutations in Lung Cancer: Implications for Cell Growth and Invasion Open
Lung cancer is characterized by abnormal cell growth and invasion, and the actin cytoskeleton plays a major role in these processes. The focal adhesion protein paxillin is a target of a number of oncogenes involved in key signal transducti…
View article: Supplementary Figure 3 from Paxillin Is a Target for Somatic Mutations in Lung Cancer: Implications for Cell Growth and Invasion
Supplementary Figure 3 from Paxillin Is a Target for Somatic Mutations in Lung Cancer: Implications for Cell Growth and Invasion Open
Supplementary Figure 3 from Paxillin Is a Target for Somatic Mutations in Lung Cancer: Implications for Cell Growth and Invasion
View article: Supplementary Figure 1 from Paxillin Is a Target for Somatic Mutations in Lung Cancer: Implications for Cell Growth and Invasion
Supplementary Figure 1 from Paxillin Is a Target for Somatic Mutations in Lung Cancer: Implications for Cell Growth and Invasion Open
Supplementary Figure 1 from Paxillin Is a Target for Somatic Mutations in Lung Cancer: Implications for Cell Growth and Invasion
View article: Supplementary Table 3 from Paxillin Is a Target for Somatic Mutations in Lung Cancer: Implications for Cell Growth and Invasion
Supplementary Table 3 from Paxillin Is a Target for Somatic Mutations in Lung Cancer: Implications for Cell Growth and Invasion Open
Supplementary Table 3 from Paxillin Is a Target for Somatic Mutations in Lung Cancer: Implications for Cell Growth and Invasion
View article: Supplementary Figure 2 from Paxillin Is a Target for Somatic Mutations in Lung Cancer: Implications for Cell Growth and Invasion
Supplementary Figure 2 from Paxillin Is a Target for Somatic Mutations in Lung Cancer: Implications for Cell Growth and Invasion Open
Supplementary Figure 2 from Paxillin Is a Target for Somatic Mutations in Lung Cancer: Implications for Cell Growth and Invasion
View article: Supplementary Figure 1 from Paxillin Is a Target for Somatic Mutations in Lung Cancer: Implications for Cell Growth and Invasion
Supplementary Figure 1 from Paxillin Is a Target for Somatic Mutations in Lung Cancer: Implications for Cell Growth and Invasion Open
Supplementary Figure 1 from Paxillin Is a Target for Somatic Mutations in Lung Cancer: Implications for Cell Growth and Invasion
View article: Supplementary Figure 2 from Paxillin Is a Target for Somatic Mutations in Lung Cancer: Implications for Cell Growth and Invasion
Supplementary Figure 2 from Paxillin Is a Target for Somatic Mutations in Lung Cancer: Implications for Cell Growth and Invasion Open
Supplementary Figure 2 from Paxillin Is a Target for Somatic Mutations in Lung Cancer: Implications for Cell Growth and Invasion
View article: Supplementary Figure 3 from Paxillin Is a Target for Somatic Mutations in Lung Cancer: Implications for Cell Growth and Invasion
Supplementary Figure 3 from Paxillin Is a Target for Somatic Mutations in Lung Cancer: Implications for Cell Growth and Invasion Open
Supplementary Figure 3 from Paxillin Is a Target for Somatic Mutations in Lung Cancer: Implications for Cell Growth and Invasion
View article: Supplementary Table 4 from Paxillin Is a Target for Somatic Mutations in Lung Cancer: Implications for Cell Growth and Invasion
Supplementary Table 4 from Paxillin Is a Target for Somatic Mutations in Lung Cancer: Implications for Cell Growth and Invasion Open
Supplementary Table 4 from Paxillin Is a Target for Somatic Mutations in Lung Cancer: Implications for Cell Growth and Invasion
View article: Supplementary Figure 4 from Paxillin Is a Target for Somatic Mutations in Lung Cancer: Implications for Cell Growth and Invasion
Supplementary Figure 4 from Paxillin Is a Target for Somatic Mutations in Lung Cancer: Implications for Cell Growth and Invasion Open
Supplementary Figure 4 from Paxillin Is a Target for Somatic Mutations in Lung Cancer: Implications for Cell Growth and Invasion