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Biophysicist (Rockville, Md.)
|
June 1, 2022
Reflections on undergraduate research mentoring
Nicholas B Whitticar, Craig S Nunemaker
Frontiers in Endocrinology
|
June 26, 2020
Reducing Glucokinase Activity to Enhance Insulin Secretion: A Counterintuitive Theory to Preserve Cellular Function and Glucose Homeostasis
Nicholas B Whitticar, Craig S Nunemaker
Biological Procedures Online
|
November 30, 2016
An Automated Perifusion System for Modifying Cell Culture Conditions over Time
Nicholas B Whitticar, Elisha W Strahler, Parthiban Rajan, et al.
Metabolites
|
April 27, 2026
Evidence That Oscillations in Glucose Metabolism Promote Optimal Islet Function
Brian P List, Nicholas B Whitticar, Kathryn L Corbin, et al.
Metabolites
|
July 2, 2021
The Capacity to Secrete Insulin Is Dose-Dependent to Extremely High Glucose Concentrations: A Key Role for Adenylyl Cyclase
Katherine M Gerber, Nicholas B Whitticar, Daniel R Rochester, et al.
Biological Procedures Online
|
March 1, 2021
A Practical Guide to Rodent Islet Isolation and Assessment Revisited
Kathryn L Corbin, Hannah L West, Samantha Brodsky, et al.
Endocrinology
|
May 13, 2022
Similarities in Calcium Oscillations Between Neonatal Mouse Islets and Mature Islets Exposed to Chronic Hyperglycemia
Cathleen V D'Angelo, Hannah L West, Nicholas B Whitticar, et al.
Diabetes, Metabolic Syndrome and Obesity : Targets and Therapy
|
March 4, 2021
Natural Compound α-PGG and Its Synthetic Derivative 6Cl-TGQ Alter Insulin Secretion: Evidence for Diminishing Glucose Uptake as a Mechanism
Xiaozhuo Chen, Nigel A Daniels, David Cottrill, et al.
Endocrinology
|
September 22, 2018
Reducing Glucokinase Activity Restores Endogenous Pulsatility and Enhances Insulin Secretion in Islets From db/db Mice
Ishrat Jahan, Kathryn L Corbin, Avery M Bogart, et al.
American Journal of Physiology. Endocrinology and Metabolism
|
May 3, 2021
Loss of growth hormone signaling in the mouse germline or in adulthood reduces islet mass and alters islet function with notable sex differences
Silvana Duran-Ortiz, Kathryn L Corbin, Ishrat Jahan, et al.
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of 1
Search research articles
Search
Showing results (1-10 of 10) with videos related to
Sort By:
Page
of 1
Biophysicist (Rockville, Md.)
|
June 1, 2022
Reflections on undergraduate research mentoring
Nicholas B Whitticar, Craig S Nunemaker
Frontiers in Endocrinology
|
June 26, 2020
Reducing Glucokinase Activity to Enhance Insulin Secretion: A Counterintuitive Theory to Preserve Cellular Function and Glucose Homeostasis
Nicholas B Whitticar, Craig S Nunemaker
Biological Procedures Online
|
November 30, 2016
An Automated Perifusion System for Modifying Cell Culture Conditions over Time
Nicholas B Whitticar, Elisha W Strahler, Parthiban Rajan, et al.
Metabolites
|
April 27, 2026
Evidence That Oscillations in Glucose Metabolism Promote Optimal Islet Function
Brian P List, Nicholas B Whitticar, Kathryn L Corbin, et al.
Metabolites
|
July 2, 2021
The Capacity to Secrete Insulin Is Dose-Dependent to Extremely High Glucose Concentrations: A Key Role for Adenylyl Cyclase
Katherine M Gerber, Nicholas B Whitticar, Daniel R Rochester, et al.
Biological Procedures Online
|
March 1, 2021
A Practical Guide to Rodent Islet Isolation and Assessment Revisited
Kathryn L Corbin, Hannah L West, Samantha Brodsky, et al.
Endocrinology
|
May 13, 2022
Similarities in Calcium Oscillations Between Neonatal Mouse Islets and Mature Islets Exposed to Chronic Hyperglycemia
Cathleen V D'Angelo, Hannah L West, Nicholas B Whitticar, et al.
Diabetes, Metabolic Syndrome and Obesity : Targets and Therapy
|
March 4, 2021
Natural Compound α-PGG and Its Synthetic Derivative 6Cl-TGQ Alter Insulin Secretion: Evidence for Diminishing Glucose Uptake as a Mechanism
Xiaozhuo Chen, Nigel A Daniels, David Cottrill, et al.
Endocrinology
|
September 22, 2018
Reducing Glucokinase Activity Restores Endogenous Pulsatility and Enhances Insulin Secretion in Islets From db/db Mice
Ishrat Jahan, Kathryn L Corbin, Avery M Bogart, et al.
American Journal of Physiology. Endocrinology and Metabolism
|
May 3, 2021
Loss of growth hormone signaling in the mouse germline or in adulthood reduces islet mass and alters islet function with notable sex differences
Silvana Duran-Ortiz, Kathryn L Corbin, Ishrat Jahan, et al.
Page
of 1