Methodologies of tissue preservation and analysis of the glycogen content of the broiler chick liver.

@article{Bennett2007MethodologiesOT,
  title={Methodologies of tissue preservation and analysis of the glycogen content of the broiler chick liver.},
  author={Lloyd W Bennett and Robert W. Keirs and E. David Peebles and Patrick D. Gerard},
  journal={Poultry science},
  year={2007},
  volume={86 12},
  pages={2653-65}
}
The current study was performed to develop convenient, rapid, reliable, and pragmatic methodologies by which to harvest and preserve liver tissue glycogen and to analyze its levels within reasonable limits of quantification and with extended chromophore stability. Absorbance values decreased by 2 h and again by 24 h after preparation of the iodine-potassium iodide chromophore, whereas absorbance values of the phenol-sulfuric acid chromophore remained constant over the same time period. These… CONTINUE READING

Connections & Topics

Mentioned Connections BETA
Furthermore , glycogen concentration - absorbance relationships were affected by the source ( i.e. , rabbit liver vs. bovine liver ) of glycogen standards when the iodine - potassium iodide chromophore was used , but the source of the standards had no influence when the phenol - sulfuric acid chromophore was used .
Furthermore , glycogen concentration - absorbance relationships were affected by the source ( i.e. , rabbit liver vs. bovine liver ) of glycogen standards when the iodine - potassium iodide chromophore was used , but the source of the standards had no influence when the phenol - sulfuric acid chromophore was used .
Furthermore , glycogen concentration - absorbance relationships were affected by the source ( i.e. , rabbit liver vs. bovine liver ) of glycogen standards when the iodine - potassium iodide chromophore was used , but the source of the standards had no influence when the phenol - sulfuric acid chromophore was used .
Furthermore , glycogen concentration - absorbance relationships were affected by the source ( i.e. , rabbit liver vs. bovine liver ) of glycogen standards when the iodine - potassium iodide chromophore was used , but the source of the standards had no influence when the phenol - sulfuric acid chromophore was used .
Furthermore , glycogen concentration - absorbance relationships were affected by the source ( i.e. , rabbit liver vs. bovine liver ) of glycogen standards when the iodine - potassium iodide chromophore was used , but the source of the standards had no influence when the phenol - sulfuric acid chromophore was used .
Furthermore , glycogen concentration - absorbance relationships were affected by the source ( i.e. , rabbit liver vs. bovine liver ) of glycogen standards when the iodine - potassium iodide chromophore was used , but the source of the standards had no influence when the phenol - sulfuric acid chromophore was used .
Furthermore , glycogen concentration - absorbance relationships were affected by the source ( i.e. , rabbit liver vs. bovine liver ) of glycogen standards when the iodine - potassium iodide chromophore was used , but the source of the standards had no influence when the phenol - sulfuric acid chromophore was used .
Furthermore , glycogen concentration - absorbance relationships were affected by the source ( i.e. , rabbit liver vs. bovine liver ) of glycogen standards when the iodine - potassium iodide chromophore was used , but the source of the standards had no influence when the phenol - sulfuric acid chromophore was used .
Furthermore , glycogen concentration - absorbance relationships were affected by the source ( i.e. , rabbit liver vs. bovine liver ) of glycogen standards when the iodine - potassium iodide chromophore was used , but the source of the standards had no influence when the phenol - sulfuric acid chromophore was used .
Furthermore , glycogen concentration - absorbance relationships were affected by the source ( i.e. , rabbit liver vs. bovine liver ) of glycogen standards when the iodine - potassium iodide chromophore was used , but the source of the standards had no influence when the phenol - sulfuric acid chromophore was used .
Furthermore , glycogen concentration - absorbance relationships were affected by the source ( i.e. , rabbit liver vs. bovine liver ) of glycogen standards when the iodine - potassium iodide chromophore was used , but the source of the standards had no influence when the phenol - sulfuric acid chromophore was used .
Furthermore , glycogen concentration - absorbance relationships were affected by the source ( i.e. , rabbit liver vs. bovine liver ) of glycogen standards when the iodine - potassium iodide chromophore was used , but the source of the standards had no influence when the phenol - sulfuric acid chromophore was used .
Furthermore , glycogen concentration - absorbance relationships were affected by the source ( i.e. , rabbit liver vs. bovine liver ) of glycogen standards when the iodine - potassium iodide chromophore was used , but the source of the standards had no influence when the phenol - sulfuric acid chromophore was used .
Furthermore , glycogen concentration - absorbance relationships were affected by the source ( i.e. , rabbit liver vs. bovine liver ) of glycogen standards when the iodine - potassium iodide chromophore was used , but the source of the standards had no influence when the phenol - sulfuric acid chromophore was used .
Furthermore , glycogen concentration - absorbance relationships were affected by the source ( i.e. , rabbit liver vs. bovine liver ) of glycogen standards when the iodine - potassium iodide chromophore was used , but the source of the standards had no influence when the phenol - sulfuric acid chromophore was used .
Furthermore , glycogen concentration - absorbance relationships were affected by the source ( i.e. , rabbit liver vs. bovine liver ) of glycogen standards when the iodine - potassium iodide chromophore was used , but the source of the standards had no influence when the phenol - sulfuric acid chromophore was used .
All Topics