Prochlorperazine Research This is an RSS file. You can use it to subscribe to this data in your favourite RSS reader or to display this data on your own website or blog.

• News
• Research
• Blogs
• Alerts
• Clinical Trials

A Prochlorperazine-Induced Decrease in Autonomous Muscle Activity during Hindlimb Unloading Is Accompanied by Preserved Slow Myosin mRNA Expression
In this study, we found that prochlorperazine blocks slow-to-fast fiber-type transformation in disused skeletal muscles of rats, possibly through affecting calcium and ROS-related signaling.PMID:37504270 | PMC:PMC10378404 | DOI:10.3390/cimb45070354 (Source: Current Issues in Molecular Biology)
Source: Current Issues in Molecular Biology - July 28, 2023 Category: Molecular Biology Authors: Kristina A Sharlo Irina D Lvova Sergey A Tyganov Ksenia V Sergeeva Vitaly Y Kalashnikov Ekaterina P Kalashnikova Timur M Mirzoev Grigoriy R Kalamkarov Tatiana F Shevchenko Boris S Shenkman Source Type: research

A Prochlorperazine-Induced Decrease in Autonomous Muscle Activity during Hindlimb Unloading Is Accompanied by Preserved Slow Myosin mRNA Expression
In this study, we found that prochlorperazine blocks slow-to-fast fiber-type transformation in disused skeletal muscles of rats, possibly through affecting calcium and ROS-related signaling.PMID:37504270 | DOI:10.3390/cimb45070354 (Source: Current Issues in Molecular Biology)
Source: Current Issues in Molecular Biology - July 28, 2023 Category: Molecular Biology Authors: Kristina A Sharlo Irina D Lvova Sergey A Tyganov Ksenia V Sergeeva Vitaly Y Kalashnikov Ekaterina P Kalashnikova Timur M Mirzoev Grigoriy R Kalamkarov Tatiana F Shevchenko Boris S Shenkman Source Type: research

A Prochlorperazine-Induced Decrease in Autonomous Muscle Activity during Hindlimb Unloading Is Accompanied by Preserved Slow Myosin mRNA Expression
In this study, we found that prochlorperazine blocks slow-to-fast fiber-type transformation in disused skeletal muscles of rats, possibly through affecting calcium and ROS-related signaling.PMID:37504270 | PMC:PMC10378404 | DOI:10.3390/cimb45070354 (Source: Current Issues in Molecular Biology)
Source: Current Issues in Molecular Biology - July 28, 2023 Category: Molecular Biology Authors: Kristina A Sharlo Irina D Lvova Sergey A Tyganov Ksenia V Sergeeva Vitaly Y Kalashnikov Ekaterina P Kalashnikova Timur M Mirzoev Grigoriy R Kalamkarov Tatiana F Shevchenko Boris S Shenkman Source Type: research

A Prochlorperazine-Induced Decrease in Autonomous Muscle Activity during Hindlimb Unloading Is Accompanied by Preserved Slow Myosin mRNA Expression
In this study, we found that prochlorperazine blocks slow-to-fast fiber-type transformation in disused skeletal muscles of rats, possibly through affecting calcium and ROS-related signaling.PMID:37504270 | PMC:PMC10378404 | DOI:10.3390/cimb45070354 (Source: Current Issues in Molecular Biology)
Source: Current Issues in Molecular Biology - July 28, 2023 Category: Molecular Biology Authors: Kristina A Sharlo Irina D Lvova Sergey A Tyganov Ksenia V Sergeeva Vitaly Y Kalashnikov Ekaterina P Kalashnikova Timur M Mirzoev Grigoriy R Kalamkarov Tatiana F Shevchenko Boris S Shenkman Source Type: research

A Prochlorperazine-Induced Decrease in Autonomous Muscle Activity during Hindlimb Unloading Is Accompanied by Preserved Slow Myosin mRNA Expression
In this study, we found that prochlorperazine blocks slow-to-fast fiber-type transformation in disused skeletal muscles of rats, possibly through affecting calcium and ROS-related signaling.PMID:37504270 | PMC:PMC10378404 | DOI:10.3390/cimb45070354 (Source: Current Issues in Molecular Biology)
Source: Current Issues in Molecular Biology - July 28, 2023 Category: Molecular Biology Authors: Kristina A Sharlo Irina D Lvova Sergey A Tyganov Ksenia V Sergeeva Vitaly Y Kalashnikov Ekaterina P Kalashnikova Timur M Mirzoev Grigoriy R Kalamkarov Tatiana F Shevchenko Boris S Shenkman Source Type: research

A Prochlorperazine-Induced Decrease in Autonomous Muscle Activity during Hindlimb Unloading Is Accompanied by Preserved Slow Myosin mRNA Expression
In this study, we found that prochlorperazine blocks slow-to-fast fiber-type transformation in disused skeletal muscles of rats, possibly through affecting calcium and ROS-related signaling.PMID:37504270 | PMC:PMC10378404 | DOI:10.3390/cimb45070354 (Source: Current Issues in Molecular Biology)
Source: Current Issues in Molecular Biology - July 28, 2023 Category: Molecular Biology Authors: Kristina A Sharlo Irina D Lvova Sergey A Tyganov Ksenia V Sergeeva Vitaly Y Kalashnikov Ekaterina P Kalashnikova Timur M Mirzoev Grigoriy R Kalamkarov Tatiana F Shevchenko Boris S Shenkman Source Type: research

A Prochlorperazine-Induced Decrease in Autonomous Muscle Activity during Hindlimb Unloading Is Accompanied by Preserved Slow Myosin mRNA Expression
In this study, we found that prochlorperazine blocks slow-to-fast fiber-type transformation in disused skeletal muscles of rats, possibly through affecting calcium and ROS-related signaling.PMID:37504270 | PMC:PMC10378404 | DOI:10.3390/cimb45070354 (Source: Current Issues in Molecular Biology)
Source: Current Issues in Molecular Biology - July 28, 2023 Category: Molecular Biology Authors: Kristina A Sharlo Irina D Lvova Sergey A Tyganov Ksenia V Sergeeva Vitaly Y Kalashnikov Ekaterina P Kalashnikova Timur M Mirzoev Grigoriy R Kalamkarov Tatiana F Shevchenko Boris S Shenkman Source Type: research

A Prochlorperazine-Induced Decrease in Autonomous Muscle Activity during Hindlimb Unloading Is Accompanied by Preserved Slow Myosin mRNA Expression
In this study, we found that prochlorperazine blocks slow-to-fast fiber-type transformation in disused skeletal muscles of rats, possibly through affecting calcium and ROS-related signaling.PMID:37504270 | PMC:PMC10378404 | DOI:10.3390/cimb45070354 (Source: Current Issues in Molecular Biology)
Source: Current Issues in Molecular Biology - July 28, 2023 Category: Molecular Biology Authors: Kristina A Sharlo Irina D Lvova Sergey A Tyganov Ksenia V Sergeeva Vitaly Y Kalashnikov Ekaterina P Kalashnikova Timur M Mirzoev Grigoriy R Kalamkarov Tatiana F Shevchenko Boris S Shenkman Source Type: research

A Prochlorperazine-Induced Decrease in Autonomous Muscle Activity during Hindlimb Unloading Is Accompanied by Preserved Slow Myosin mRNA Expression
In this study, we found that prochlorperazine blocks slow-to-fast fiber-type transformation in disused skeletal muscles of rats, possibly through affecting calcium and ROS-related signaling.PMID:37504270 | PMC:PMC10378404 | DOI:10.3390/cimb45070354 (Source: Current Issues in Molecular Biology)
Source: Current Issues in Molecular Biology - July 28, 2023 Category: Molecular Biology Authors: Kristina A Sharlo Irina D Lvova Sergey A Tyganov Ksenia V Sergeeva Vitaly Y Kalashnikov Ekaterina P Kalashnikova Timur M Mirzoev Grigoriy R Kalamkarov Tatiana F Shevchenko Boris S Shenkman Source Type: research

A Prochlorperazine-Induced Decrease in Autonomous Muscle Activity during Hindlimb Unloading Is Accompanied by Preserved Slow Myosin mRNA Expression
In this study, we found that prochlorperazine blocks slow-to-fast fiber-type transformation in disused skeletal muscles of rats, possibly through affecting calcium and ROS-related signaling.PMID:37504270 | PMC:PMC10378404 | DOI:10.3390/cimb45070354 (Source: Current Issues in Molecular Biology)
Source: Current Issues in Molecular Biology - July 28, 2023 Category: Molecular Biology Authors: Kristina A Sharlo Irina D Lvova Sergey A Tyganov Ksenia V Sergeeva Vitaly Y Kalashnikov Ekaterina P Kalashnikova Timur M Mirzoev Grigoriy R Kalamkarov Tatiana F Shevchenko Boris S Shenkman Source Type: research

A Prochlorperazine-Induced Decrease in Autonomous Muscle Activity during Hindlimb Unloading Is Accompanied by Preserved Slow Myosin mRNA Expression
In this study, we found that prochlorperazine blocks slow-to-fast fiber-type transformation in disused skeletal muscles of rats, possibly through affecting calcium and ROS-related signaling.PMID:37504270 | PMC:PMC10378404 | DOI:10.3390/cimb45070354 (Source: Current Issues in Molecular Biology)
Source: Current Issues in Molecular Biology - July 28, 2023 Category: Molecular Biology Authors: Kristina A Sharlo Irina D Lvova Sergey A Tyganov Ksenia V Sergeeva Vitaly Y Kalashnikov Ekaterina P Kalashnikova Timur M Mirzoev Grigoriy R Kalamkarov Tatiana F Shevchenko Boris S Shenkman Source Type: research

A Prochlorperazine-Induced Decrease in Autonomous Muscle Activity during Hindlimb Unloading Is Accompanied by Preserved Slow Myosin mRNA Expression
In this study, we found that prochlorperazine blocks slow-to-fast fiber-type transformation in disused skeletal muscles of rats, possibly through affecting calcium and ROS-related signaling.PMID:37504270 | PMC:PMC10378404 | DOI:10.3390/cimb45070354 (Source: Current Issues in Molecular Biology)
Source: Current Issues in Molecular Biology - July 28, 2023 Category: Molecular Biology Authors: Kristina A Sharlo Irina D Lvova Sergey A Tyganov Ksenia V Sergeeva Vitaly Y Kalashnikov Ekaterina P Kalashnikova Timur M Mirzoev Grigoriy R Kalamkarov Tatiana F Shevchenko Boris S Shenkman Source Type: research

A Prochlorperazine-Induced Decrease in Autonomous Muscle Activity during Hindlimb Unloading Is Accompanied by Preserved Slow Myosin mRNA Expression
In this study, we found that prochlorperazine blocks slow-to-fast fiber-type transformation in disused skeletal muscles of rats, possibly through affecting calcium and ROS-related signaling.PMID:37504270 | PMC:PMC10378404 | DOI:10.3390/cimb45070354 (Source: Current Issues in Molecular Biology)
Source: Current Issues in Molecular Biology - July 28, 2023 Category: Molecular Biology Authors: Kristina A Sharlo Irina D Lvova Sergey A Tyganov Ksenia V Sergeeva Vitaly Y Kalashnikov Ekaterina P Kalashnikova Timur M Mirzoev Grigoriy R Kalamkarov Tatiana F Shevchenko Boris S Shenkman Source Type: research

A Prochlorperazine-Induced Decrease in Autonomous Muscle Activity during Hindlimb Unloading Is Accompanied by Preserved Slow Myosin mRNA Expression
In this study, we found that prochlorperazine blocks slow-to-fast fiber-type transformation in disused skeletal muscles of rats, possibly through affecting calcium and ROS-related signaling.PMID:37504270 | PMC:PMC10378404 | DOI:10.3390/cimb45070354 (Source: Current Issues in Molecular Biology)
Source: Current Issues in Molecular Biology - July 28, 2023 Category: Molecular Biology Authors: Kristina A Sharlo Irina D Lvova Sergey A Tyganov Ksenia V Sergeeva Vitaly Y Kalashnikov Ekaterina P Kalashnikova Timur M Mirzoev Grigoriy R Kalamkarov Tatiana F Shevchenko Boris S Shenkman Source Type: research

A Prochlorperazine-Induced Decrease in Autonomous Muscle Activity during Hindlimb Unloading Is Accompanied by Preserved Slow Myosin mRNA Expression
In this study, we found that prochlorperazine blocks slow-to-fast fiber-type transformation in disused skeletal muscles of rats, possibly through affecting calcium and ROS-related signaling.PMID:37504270 | PMC:PMC10378404 | DOI:10.3390/cimb45070354 (Source: Current Issues in Molecular Biology)
Source: Current Issues in Molecular Biology - July 28, 2023 Category: Molecular Biology Authors: Kristina A Sharlo Irina D Lvova Sergey A Tyganov Ksenia V Sergeeva Vitaly Y Kalashnikov Ekaterina P Kalashnikova Timur M Mirzoev Grigoriy R Kalamkarov Tatiana F Shevchenko Boris S Shenkman Source Type: research